Entries |
Document | Title | Date |
20080200750 | Polymer encapsulation for medical device - A rotary blood pump comprising an impeller suspended hydrodynamically within pump housing by thrust forces generated by said impeller during movement in use of said impeller as it rotates about an impeller axis, and the driving torque of said impeller is derived from the magnetic interaction between permanent magnets within the blades of said impeller and windings within said housing, and wherein said windings are encapsulated by a first fluid resistant polymer material, and said housing is at least partially made of a second polymer material that encapsulates said first polymer material. | 08-21-2008 |
20080207986 | Heart assist device - A heart assist device and method of making the same includes a catheter and a balloon attached to the catheter. The heart assist device is used with a system for inflating and deflating the balloon in sequence to systole and diastole of a patient's heart. In some examples, the catheter has a curved portion with a stiffening agent disposed therein. In some examples, a tip of the catheter extends into an interior of the balloon. | 08-28-2008 |
20080234537 | Extracardiac Blood Flow Amplification Device - Apparatus ( | 09-25-2008 |
20080262288 | Physiologic pulsatile pump - A pulsatile blood circulating pump system that is adapted for use in cardiopulmonary bypass, ventricular assist (LVAD, RVAD, BiVAD), ECMO, organ preservation, fetal cardiac bypass, cancer treatment, and various areas of circulation research, which can be controlled in such a way as to produce a desired blood flow that closely approximates the physiological blood flow of the patient. The pump system includes a pulsating mechanism having a housing defining a chamber within which a compressible-expandable bladder is sealably mounted. The system further includes a hydraulic actuator having a pressure imparting member that acts upon a pressure transmissive fluid contained within the actuator chamber in a manner to generate a pulsatile pressure on the transmissive fluid, which, in turn, results in a pulsatile pressure being exerted on bladder in a manner to controllably vary the volume thereof. Additionally, the system includes a compact, highly reliable voice-coil motor that is operably associated with the hydraulic actuator for controllably moving the pressure imparting member within the fluid chamber and further includes a fully programmable motion controller that controls the voice-coil motor. Further, the system includes a programmable touch-screen component that functions to control the motion controller. | 10-23-2008 |
20080262289 | Blood Pump Having A Passive Non-Contacting Bearing Suspension - There is provided a non-contact, passively suspended blood pump that includes (a) a housing; (b) a pump rotor within the housing, wherein the pump rotor has a first end and a second end, and an axis of rotation; (c) a first axial thrust bearing across a first axial gap, between the first end and the housing, that axially suspends the first end; (d) a second axial thrust bearing across a second axial gap, between the second end and the housing, that axially suspends the second end; (e) a first radial hydrodynamic bearing that radially suspends the first end; and (f) a second radial hydrodynamic bearing that radially suspends the second end. Determining pump differential pressure by monitoring rotor axial position allows automatic physiologic control. | 10-23-2008 |
20080269543 | Functional Device with a Detachable Component - A device for enhancing blood circulation that includes a main element, a detachable element with an identification mark, and attachment means for grasping the detachable element by the main element. The main element functions by intermittently tightening and relaxing its grasp of the detachable element when activated. Additionally the main element authenticates the identification mark of the detachable element; and the main element is enabled to function if the authentication of the identification mark is positive. | 10-30-2008 |
20080275290 | Implantable heart assist system and method of applying same - An extracardiac pumping for supplementing the circulation of blood, including the cardiac output, in a patient without any component thereof being connected to the patient's heart, and methods of using same. One embodiment of the intravascular extracardiac system comprises a pump with inflow and outflow conduits that are sized and configured to be implantable intravascularly through a non-primary vessel, whereby it may positioned where desired within the patient's vasculature. The system comprises a subcardiac pump that may be driven directly or electromagnetically from within or without the patient. The pump is configured to be operated continuously or in a pulsatile fashion, synchronous with the patient's heart, thereby potentially reducing the afterload of the heart. In another embodiment, the system is positioned extracorporeally, with the inflow conduit and outflow conduit applied percutaneously to a non-primary vessel for circulating blood to and from the non-primary vessel or between the non-primary vessel and another blood vessel within the patient's vasculature. | 11-06-2008 |
20080293996 | SYSTEMS AND METHODS FOR VOLUME REDUCTION - Systems and methods are provided for reducing the effective volume of a cardiac ventricle. A ventricular volume reduction system may include a containment system or container body deliverable through a catheter into the ventricle, with the containment system or container body being fillable to occupy space within the ventricle. A ventricular volume reduction system may include a partition that sequesters a portion of the ventricle and separates it from the flow path of blood in the ventricle. Methods for reducing the effective ventricular chamber volume may include placement of the containment system, the container body or the partition within the ventricle. | 11-27-2008 |
20080300447 | Dual-Pulsation Bi-Ventricular Assist Device - A ventricular assist device is disclosed which comprises a sac for wrapping around a portion of a heart, the sac having one or more inflatable chambers for compressing the heart when the chambers being inflated and a blood outlet made to an aorta, the blood outlet being the sole opening in the human blood path in the vicinity of heart, wherein during a systolic phase the inflatable chambers inflate while blood flows out of the aorta through the blood outlet, and during a diastolic phase the inflatable chambers deflate while blood flows into the aorta through the blood outlet. | 12-04-2008 |
20080306327 | Apparatus Comprising a Drive Cable for a Medical Device - An article comprising a drive cable suitable for high-speed operation in an anatomy having small-radii bends is disclosed. The drive cables disclosed herein include one or more physical adaptations that enable them to be “tuned” to avoid large amplitude vibrations during operation. | 12-11-2008 |
20080306328 | DUCT FOR VENTRICULAR-ASSISTANCE DEVICE - A duct for carrying blood for ventricular-assistance devices (VADs) has a tubular body and an end having associated thereto a valve for enabling the flow of blood unidirectionally in the duct. The valve has an annular reinforcement, and the end of the duct is provided with a slot for receiving the annular reinforcement of the valve with the reinforcement in a retracted position in said slot. The aforesaid end and the aforesaid tubular body of the duct are provided with a continuous coating of haemocompatible material, such as a polyurethane. | 12-11-2008 |
20080306329 | Ventricular Assist Device - A manifold for accessing blood from a human blood vessel is disclosed which comprises a first and a second pathway intersecting with each other at an angle, the first pathway being configured to be completed embedded in the human blood vessel with the second pathway leading toward outside of the human blood vessel wherein the manifold is substantially retained by the human blood vessel alone. | 12-11-2008 |
20080319248 | Hydraulically Actuated External Pulsation Treatment Apparatus - There is provided a non-invasive pulsation and counterpulsation medical treatment apparatus for treating reduced cardiac output in heart patients. A flexible cuff is passed over the patient's lower body and/or extremities, and is attached a hydraulic actuator. Through a mechanical linkage, the actuator sequentially tensions and releases the cuff, thereby sequentially compressing and releasing pressure on the patient, and thereby augmenting the patient's blood pressure. The actuator includes a hydraulic cylinder that axially extends and retracts a shaft. A curved plate on the apparatus supports the patient's body or extremity in a fixed position during the treatment. A pressure sensor in the cuff transmits pressure data to an operator or electronic processor. Based on physiological data continuously obtained from the patient, various treatment parameters may be changed during the patient's treatment by an attending clinician or by a computer processor controlling the treatment. | 12-25-2008 |
20090005632 | Method and System for Physiologic Control of a Blood Pump - A physiologic control system and method for controlling a blood pump system such as a VAD system. The pump system includes, for example, a blood pump and a controller for controlling the pump. The system may further include a flow measurement device. A desired peak to peak flow amplitude is determined, and then adjusted in response to various system parameters either manually or automatically by the system. | 01-01-2009 |
20090023975 | CANNULA FOR HEART CHAMBER IMPLANTATION AND RELATED SYSTEMS AND METHODS - A cannula for implantation into a chamber of a heart includes an elongate body having a lumen extending along a longitudinal axis, a first end, and a second end. The first and second ends define openings into the lumen and the second end includes a flat portion. A flared tip portion extends from the flat portion of the second end in a direction toward the first end, and flares radially outward from the longitudinal axis and in such direction. A ring member extends around the axis of the elongate body and is spaced from the flared tip portion, and the ring member is adapted for retaining the elongate body in a position relative to a wall of the chamber. An embodiment of a flared tip portion may further include a barbed surface configured to contact tissue around an aperture in the wall of the heart when the cannula travels through the aperture. | 01-22-2009 |
20090054723 | RETRIEVABLE DEVICES FOR IMPROVING CARDIAC FUNCTION - Removable cardiac implants, applicators for inserting, repositioning and/or removing them, and methods of using them are described. In particular, removable or repositionable ventricular partitioning devices are described. Systems including removable implants and applicators for inserting and/or removing them are also described. | 02-26-2009 |
20090062596 | Heart band with fillable chambers to modify heart valve function - The present invention relates to an external heart device, having a layered band dimensioned to be received around a patient's heart, which also includes at least one fillable chamber between the layers in the band that functions to apply localized pressure to the outside of the heart when filled. More particularly, the fillable chambers are positioned such that they exert an inward radial force on a heart valve. Areas between the fillable chambers may also be sized and positioned to form a bridge of little to no pressure over the vascular structures of the heart. | 03-05-2009 |
20090062597 | Article Comprising an Impeller - An impeller for use in conjunction with a percutaneously-insertable blood pump or other rotatable equipment includes a blade that is segmented into a plurality of overlapping or abutting bladelets. In some embodiments, the bladelets are foldable and one side of each bladelet is concave. | 03-05-2009 |
20090088596 | Cardiac Assist System with Cell Transplantation Aspects - A ventricular assist system includes a controller supplying a DC voltage or an AC voltage, and electromagnets adapted to be adhered to an infarct portion of a heart at the time of embedding a pump. After embedding the system, cells enclosed in capsules are released into the surroundings of the infarct portion by use of a catheter. The capsules are magnetic so that they can be concentrated onto the infarct portion by magnetic fields of the electromagnets, and are broken in the vicinity of the infarct portion, whereby cells effective for regeneration of cardiac muscles can be conveyed to the infarct portion in a noninvasive manner after the embedding of the ventricular assist system. | 04-02-2009 |
20090088597 | INTRAATRIAL VENTRICULAR ASSIST DEVICE - A medical device comprises a pump adapted to fit within an atrium of a heart, said pump comprising an inlet and an outlet. The device further comprises a flexible outflow conduit coupled to said outlet. A method of assisting ventricular function of a heart of a patient comprises: a) inserting a continuous flow pump having an inlet and an outlet into the heart via a subclavian or jugular vein; b) attaching the outlet of the continuous flow pump to an atrial septum, wherein the inlet of the continuous flow pump is directed into a heart atrium; c) attaching the distal end of the outflow conduit to an artery; and d) operating the pump at a volumetric rate ranging from about 2 L/min to about 3 L/min. | 04-02-2009 |
20090093670 | Treating Dysfunctional Cardiac Tissue - Medical devices, systems, and methods reduce the distance between two points in tissue, often for treatment of congestive heart failure and often in a minimally invasive manner. An anchor is inserted along an insertion path through a first wall of the heart. An arm of the anchor is deployed and rotationally positioned according to a desired alignment. Application of tension to the anchor may draw the first and second walls of the heart into contact along a desired contour so as to effect a desired change in the geometry of the heart. Additional anchors may be inserted and aligned with the first anchor to close off a portion of a ventricle such that the ventricle is geometrically remodeled and disease progression is reversed, halted, and/or slowed. | 04-09-2009 |
20090112049 | HEART PUMP APPARATUS AND METHOD FOR BEATING HEART SURGERY - Apparatus for assisting a surgeon in procedures involving the heart and methods of employing such apparatus are provided. The apparatus can include a pump, and a first fluid conduit having a distal end adapted to be inserted into the superior vena cava of a beating heart, a second fluid conduit having a distal end adapted to be inserted into the inferior vena cava, and a third fluid conduit having a distal end adapted to be inserted into the pulmonary artery of the beating heart, each in liquid fluid communication with the pump, which in combination can be operatively positioned to form a closed cardiac pathway extending from the vena cavae and to the pulmonary artery to thereby convey blood collected from the vena cavae into the pulmonary artery, operatively bypassing the right side of the heart. The pump is positioned to both convey blood flow from each vena cavae and to the third fluid conduit and to provide a blood reservoir which enables the provision of manual assistance to the blood flow to the lungs when blood flow is insufficient. | 04-30-2009 |
20090112050 | TRANSSEPTAL CANNULA, TIP, DELIVERY SYSTEM, AND METHOD - A transseptal cannula assembly for directing blood from the heart of a patient and a minimally invasive method of implanting the same. The transseptal cannula assembly includes a flexible cannula body having proximal and distal portions with a lumen therebetween, a tip coupled to the distal portion of the flexible cannula body, and first and second anchors coupled to the tip. The anchors can be configured to be deployed from a contracted state to an expanded state and are configured to engage opposite sides of the heart tissue when in the expanded state. The anchors resist movement of the cannula assembly along a lengthwise central axis of the flexible cannula body. | 04-30-2009 |
20090118567 | PURGE-FREE MINIATURE ROTARY PUMP - Methods and systems are provided for the circulation of blood using a purge-free miniature pump. In one embodiment, a pump is provided that may comprise a housing including a rotor and a stator within a drive unit. In this embodiment, the pump may establish a primary blood flow through the space between the drive unit and the housing and a secondary blood flow between the rotor and stator. In another embodiment, a method is provided for introducing the pump into the body and circulating blood using the pump. | 05-07-2009 |
20090118568 | Implantable counterpulsation cardiac assist device - A hollow tubular element is inserted in the descending aorta. The caudad end contains a pressure sensitive passive or preferably, hydraulically or electrically activated, unidirectional valve. A flexible diaphragm situated in a rigid shell affixed over an opening in the element wall divides the shell interior into first and second variable volume chambers. The first chamber opens to the artery. A continuously operating electrical pump is connected to the second chamber through a closed hydraulic system including a multi-valve chamber. The valves regulate fluid flow to the second chamber in accordance with electrical signals from the heart. Fluid flow is directed to the second chamber during cardiac diastole and away from the second chamber during cardiac systole, causing the device to function in a counterpulsation mode. The work of the heart is decreased and coronary blood flow is increased to promote the formation of new coronary collateral channels and the perfusion of the heart itself. In the event of mechanical failure, pre-implantation heart function is not impeded. | 05-07-2009 |
20090143635 | ROTARY BLOOD PUMP - A blood pump consisting of an inflow cannula, a stator fixed to the pump housing, a flow straightener, an impeller, and a diffuser. The pump may include a flow straightener assembly consisting of the flow straightener body and front shaft. The pump may include an impeller assembly with a bearing on the front hub section. The pump may have a body contour which is shaped such that the rear section of the flow straightener body blends into the inserted shaft and there is no axial gap between the end of the flow straightener other than the ends of the blades and the front hub of the impeller. | 06-04-2009 |
20090149695 | CATHETER PUMP, CATHETER AND FITTINGS THEREFORE AND METHODS OF USING A CATHETER PUMP - A catheter pump includes a catheter channel communicating with a distal end portion of the catheter for alternatingly leading fluid in proximal and distal directions. At least one outlet passage is distally spaced from the inlet passage or passages. The catheter pump further includes a displacement structure communicating with the proximal end portion of the catheter for alternatingly applying suction and pressure for driving the fluid displacement. At least in operating condition, the inlet passage or passages are continuously open. A catheter and fittings for such a catheter pump and method of using a catheter pump are also described. | 06-11-2009 |
20090156885 | ARTIFICIAL HEART SYSTEM - A blood pump system includes two blood pumps, which may be implanted into a patient. The blood pumps may comprise VAD pumps. Control devices and methods operate the pumps such that they can function as a total artificial heart. | 06-18-2009 |
20090171136 | VAD connector plug - A plug which may be positioned in place of a Ventricular Assist Device (“VAD”) within a VAD connector mounted to the heart. The VAD connector may have at least one VAD-engaging feature and may define an opening. The plug may have a body adapted to fill the opening of the VAD connector and may engage the VAD connector. The plug may be installed in place of a VAD when the heart heals, and then removed and replaced by a VAD if the patient's condition deteriorates. | 07-02-2009 |
20090171137 | INTRAVASCULAR BLOOD PUMP AND CATHETER - An intravascular system for pumping blood from a chamber of a heart and through an associated blood vessel coupled in fluid communication therewith. The system includes a pump device configured to be inserted into a blood vessel. The system further includes a catheter having a proximal end coupled to the pump device and a distal end configured to collect blood within or exiting from the chamber. The catheter further includes a pre-formed shape corresponding to the vessel to at least assist with stabilization and positioning of the pump device in the vessel. | 07-02-2009 |
20090182188 | DEVICES, METHODS AND SYSTEMS FOR ESTABLISHING SUPPLEMENTAL BLOOD FLOW IN THE CIRCULATORY SYSTEM - Devices, systems and methods for establishing a blood flow conduit between a chamber in a heart of a patient and a remote location. A blood inflow cannula having an outer surface and proximal and distal end portions. The distal end portion is configured for insertion into the chamber of the heart. First and second anchor elements have respective maximum width dimensions extending outwardly from the outer surface of the cannula. The first anchor element is positioned more distally than the second anchor element defining a tissue receiving space therebetween. The maximum width dimension of the first anchor element may be larger than the maximum width dimension of the second anchor element in use. The first anchor element is configured to be positioned inside the heart chamber and the second anchor element is configured to be positioned outside the heart chamber with heart tissue held in the tissue receiving space therebetween. | 07-16-2009 |
20090187063 | INFLATABLE VENTRICULAR PARTITIONING DEVICE - This invention is directed to a device and method of using the device for partitioning a patient's heart chamber into a productive portion and a non-productive portion. The device is particularly suitable for treating patients with congestive heart failure. The device has an inflatable partitioning element which separates the productive and non-productive portions of the heart chamber and in some embodiments also has a supporting element, which may also be inflatable, extending between the inflatable partitioning element and the wall of the non-productive portion of the patient's heart chamber. The supporting element may have a non-traumatic distal end to engage the ventricular wall or a tissue penetrating anchoring element to secure the device to the patient's heart wall. | 07-23-2009 |
20090187064 | CARDIAC SLEEVE APPARATUS, SYSTEM AND METHOD OF USE - Cardiac assist sleeve and methods for using and making the cardiac assist sleeve that includes first elongate strips and second elongate strips of memory alloy that change shape to change a volume of cardiac assist sleeve. | 07-23-2009 |
20090203956 | NEONATE OR INFANT PULSATING WEAR - A neonate or infant pulsating wear to obtain the pulse is disclosed, which comprise a multilayer structure. The structure comprises an elastic inner layer contacted with the body of the infant, an outer layer isolated with the body of the infant, and a middle layer between the inner layer and the outer layer. The middle layer contains a pulsant cyclic liquid and the outer layer is harder than the inner layer. | 08-13-2009 |
20090240097 | IMPLANTABLE TWO-CHAMBER SYSTEM FOR SUPPORTING THE LEFT VENTRICLE OF THE HEART - Disclosed is an implantable two-chamber system for supporting the left ventricle of the heart. Each of the two pumping chambers ( | 09-24-2009 |
20090247809 | External counter pulsation treatment - A method for treating patients suffering from left ventricular dysfunction is disclosed. The method involves applying, during diastole, for a time period of about one hour, at least five days each week for at least about six weeks, an incrementally increasing external therapeutic pressure sequentially to the patients' lower extremities from first the calves, then the thighs and last the buttocks. The initial hourly treatments are carried out at a peak diastolic/systolic pressure ratio (D/S Ratio) in the range of about 0.4:1 up to about 0.9:1, depending on the patient's left ventricular ejection fraction. The D/S Ratio is increased slightly during the next set of hourly treatments, the D/S Ratio is again increased slightly during the next following set of hourly treatments, the D/S Ratio is again increased slightly during the next set of hourly treatments, and finally the D/S Ratio is increased slightly and maintained during the remaining set of hourly treatments. The patient's cardiopulmonary functions preferably are monitored to determine if additional external therapeutic pressure treatments are needed. | 10-01-2009 |
20090259089 | Expandable catheter for delivery of fluids - A multi lumen catheter is made from a number of thin walled flexible tubes bonded together to form an inner lumen. The inner lumen can withstand vacuum when the outside tubes are pressurized. During insertion the tubes are compressed and collapsed. The tubes expand by the pressure of the pumped fluid. At the point the catheter enters the body the expansion is restricted to a smaller diameter than the rest of the catheter. | 10-15-2009 |
20090264697 | FLUID PUMPING DEVICE AND COMPONENTS WITH STATIC SEAL - A static seal structure for a pump housing includes a support structure, a first sealing element, and a second sealing element. The support structure circumscribes a pump chamber and includes a first sealing surface, an opposing second sealing surface, and a fluid transfer end interposed between the sealing surfaces. The support structure provides a fluid flow path running through the fluid transfer end and into the pump chamber via an inlet bore and from the pump chamber back through the fluid transfer end via an outlet bore. The first sealing element is disposed on the first sealing surface, and the second sealing element is disposed on the second sealing surface. The sealing elements are configured for forming sealing interfaces in the pump housing, establishing a static seal that isolates the pump chamber from an environment external to the fluid pump housing. | 10-22-2009 |
20090287037 | REMEDIATION OF FUNCTIONAL CARDIAC MITRAL VALVE REGURGITATION - A dynamic device for reducing functional mitral regurgitation is described. The device is disposed externally to the heart and effectively acts as a splint for reducing further dilation of the heart in patients diagnosed with cardiomyopathy, and for reducing tethering of the papillary muscle on the mitral valve. The device does not require cardiopulmonary bypass for its installation since it is attached to the outside of the left ventricle, thereby reducing surgical risk, and is not exposed to the patient's blood once installed, thereby reducing the risk of thromboembolic disease. | 11-19-2009 |
20090292160 | Electromagnetic Cardiac Assist Device and Method - Embodiments of the present invention provide systems and methods for assisting with contraction of the heart muscle. For example, in one embodiment of the invention, one or more flexible strips are attached to the surface of the heart, each strip having a plurality of electromagnets alternating with a plurality of permanent magnets. The electromagnets are electrically coupled to a control device and a power supply for generating current in the electromagnets. The control device controls the current in the electromagnets in such a way that the electromagnets are periodically activated to attract the adjacent permanent magnets to assist with contraction of the heart muscle. In some embodiments a sensor is provided for sensing the sinus rhythm so that the control device can activate the electromagnets based on the sensed sinus rhythm. | 11-26-2009 |
20100004501 | VENTRICULAR ASSIST DEVICE AND RELATED METHODS - A method and system are provided for percutaneously gaining access to oxygenated blood with an anastomosis device and pumping such oxygenated blood to other arterial regions of the vascular system via an LVAD system. In one embodiment, a system may include an anastomosis device extending through an opening of the atrial septum. A filament may be coupled to the anastomosis device. A snare device may access the right atrium through the superior vena cava, grasp the filament, and withdraw the filament through the superior vena cava. The filament may then be used as a guide to direct a catheter, a conduit or some other structure into the right atrium of the heart via the superior vena cava. A flow path may be defined between the anastomosis device and an arterial location, such as in the aorta, such that at least some oxygenated blood may by-pass the left ventricle and be discharged into the aorta. | 01-07-2010 |
20100041939 | BLOOD PUMP WITH MICROMOTOR - The invention relates to a micromotor ( | 02-18-2010 |
20100056849 | METHOD AND DEVICE FOR THE INTERMITTENT OCCLUSION OF A VEIN DRAINING THE ORGAN SYSTEM - In a method for the intermittent occlusion of a vein draining the organ system, in which the vein is occluded by an occlusion device, the fluid pressure in the occluded vein is continuously measured and stored, the behaviour of the fluid pressure is determined as a function of time, and the occlusion of the vein is triggered and/or released as a function of at least one characteristic value derived from the pressure measurements, pressure is applied during the occlusion in a pulsating manner. The device for the intermittent occlusion of a vein, including an occlusion device, a pressure measuring device for continuously measuring the fluid pressure in the occluded vein, and a memory for storing the fluid pressure behaviour as a function of time, means are provided for applying a pulsating pressure in the occluded vein. | 03-04-2010 |
20100094077 | Method for substantially non-delaminable smooth ventricular assist device conduit and product from same - A method of non-delaminably bonding a non-porous thermoplastic elastomer to a substrate by heating a bilayer of the elastomer and the substrate for a predetermined time and a product obtained by the method. Methods for producing non-delaminable conduits and non-delaminable kink-resistant conduits constructed of biocompatible elastomers and substrates, and products produced by these methods are taught. Methods, products, and articles of manufacture relating to non-delaminable monofilament supported kink-resistive conduits that may be used as inflow conduits in left ventricular assist devices for treatment of heart failure are also provided. | 04-15-2010 |
20100105978 | HEART ASSIST DEVICE - Heart side magnets | 04-29-2010 |
20100121132 | CARDIAC DEVICE AND METHODS OF USE THEREOF - Devices and methods are described herein which are directed to the treatment of a patient's heart having, or one which is susceptible to heart failure, to improve diastolic function. | 05-13-2010 |
20100130809 | BLOOD PUMP SYSTEM - A blood pump system and methods for the use and operation of such a blood system is described, wherein the blood pump system includes an implantable pump and an implantable flow measurement device. A processing device receives indications of a number of pump parameters such as pump voltage, pump current and pump speed. Flow rate is determined based on the pump parameters, and this determined flow rate is compared to the actual flow rate as measured by the flow measurement device. In certain embodiments, the flow measurement device may be periodically energized to make the comparison, then powered off to reduce power consumption. The time period in which the flow measurement device is powered off is based on the difference between the determined and the actual flow rates. | 05-27-2010 |
20100145133 | IMPLANTABLE HEART ASSIST SYSTEM AND METHOD OF APPLYING SAME - An extracardiac pumping for supplementing the circulation of blood, including the cardiac output, in a patient without any component thereof being connected to the patient's heart, and methods of using same. One embodiment provides a vascular graft that has a first end that is sized and configured to couple to a non-primary blood vessel and a second end that is fluidly coupled to a pump to conduct blood between the pump and the non-primary blood vessel. An outflow conduit is also provided that has a first end sized and configured to be positioned within the same or different blood vessel, whether primary or non-primary, through the vascular graft. The outflow conduit is fluidly coupled to the pump to conduct blood between the pump and the patient. The vascular graft may be connected to the blood vessel subcutaneously to permit application of the extracardiac pumping system in a minimally-invasive procedure. | 06-10-2010 |
20100152523 | Method and Apparatus for Minimally Invasive Direct Mechanical Ventricular Actuation - Disclosed is a device for assisting the function of a heart that is collapsible to facilitate minimally invasive procedures. The cup-shaped device may be inserted into the chest cavity and deployed on the heart via a specially configured tube. The device comprises a cup-shaped shell expanded by a support cage disposed within the shell, and an elastic cup-shaped liner, together forming an inflatable cavity between the outer surface of the liner and the inner surface of the shell. Alternate application of positive and negative pressures to the cavity provides controlled, active, systolic and diastolic support to the heart. | 06-17-2010 |
20100152524 | MODULAR MAGNETO MECHANICAL DEVICE - An electromechanical device has a rotor, a stator, and a module that at least partially houses the rotor. During normal operation of the electromechanical device, the stator is positioned external to and separate from the module. | 06-17-2010 |
20100152525 | Peri-arterial blood flow booster - A peri-arterial blood flow booster apparatus for improving blood pressure and flow, to be implanted around a blood vessel of a patient. The booster comprises a pressure applying device ( | 06-17-2010 |
20100174131 | Reduced Diameter Axial Rotary Pump for Cardiac Assist - The pump is of an axial flow rotary type suitable for implantation into the human heart or vascular system. The pump has an elongate tubular casing ( | 07-08-2010 |
20100185043 | HEART ASSIST DEVICE, CANNULA AND FILTER THEREFOR - A cannula, such as an implantable cannula, for an implantable blood pump is disclosed. The cannula comprises a body having a bore extending between an inlet and an outlet for fluid communication therebetween. A filter is disposed in, on or at the body and arranged to filter blood clots from at least a portion of fluid passing through the body, and therefore into the blood pump. The cannula is preferably arranged to be mounted between a patient's left ventricle and an implantable blood pump. Also disclosed is a filter and a heart assist device, such as a blood pump, incorporating a filter to prevent blood clots from entering the blood pump. | 07-22-2010 |
20100185044 | DEVICES AND METHODS FOR ASSISTING HEART FUNCTION - Devices and methods for assisting heart function. In at least one embodiment of a device for assisting heart function, the device comprises at least two electromagnetic plates having an inner surface, a cardiac processor electrically coupled to at least one of the at least two electromagnetic plates, a bladder having an inner chamber, the bladder attached to an inner surface of at least one of the at least two electromagnetic plates, a source of gas in communication with the inner chamber of the bladder, and at least one catheter having a proximal end and a distal end and having a lumen therethrough, the at least one catheter defining at least one aperture positioned therethrough at or near the distal end of the at least one catheter and comprising a pericardial balloon coupled to the at least one catheter at or near the distal end of the at least one catheter, the proximal end of the at least one catheter in communication with the inner chamber of the bladder. | 07-22-2010 |
20100191035 | Percutaneous Intra-Aortic Ventricular Assist Device - A percutaneous intra-aortic ventricular assist device is adapted for implantation in an aorta that has a luminal wall, and includes a tubular stent body, an inner tubular body, a vane member, a carrier member, a rib unit, a first pulled string, a second pulled string, an alternately pulling mechanism, and a synchronizing member. | 07-29-2010 |
20100191036 | NONDESTRUCTIVE FLUID TRANSFER DEVICE - Fluid transfer device may be configured as a vacuum pump particularly suited for nondestructive transfer of fluids, including blood and blood constituents. Fluid transfer device may be used for assisting in the pumping of blood through a patient's heart for reducing the load on the patient's heart, so that sheer forces are reduced, and blood pressure on the inner walls of the heart is reduced. Pump may be used as an implanted cardiac assist device, such as an aortic assist device, a ventricular assist device, or as a complete artificial heart. Industrial applications include the pumping of fluids, including destructible fluids such as foodstuff with or without food constituents of various sizes within the foodstuff. Food and other fluids may be stored until they are dispensed. By use of a vacuum, the inventive fluid transfer device may be operated at no more than atmospheric pressure. In addition, a pre-charged pressure tank may be used dependent on the application requirements, such as in the case where fluid pressure of the pumped fluid, including the backpressure of body fluids, in the case where pressure greater than atmospheric is required to sufficiently expel pumped fluid. | 07-29-2010 |
20100210895 | Guidable Intravascular Blood Pump and Related Methods - An improved intravascular blood pump and related methods involving the broad inventive concept of equipping the intravascular blood pump with guiding features such that the intravascular blood pump can be selectively positioned at a predetermined location within the circulatory system of a patient. | 08-19-2010 |
20100222632 | PREVENTION OF AORTIC VALVE FUSION - Materials and methods related to blood pump systems are described. These can be used in patients to, for example, monitor arterial pressure, measure blood flow, maintain left ventricular pressure within a particular range, avoid left ventricular collapse, prevent fusion of the aortic valve in a subject having a blood pump, and provide a means to wean a patient from a blood pump. | 09-02-2010 |
20100222633 | BLOOD PUMP SYSTEM WITH CONTROLLED WEANING - Materials and methods related to blood pump systems are described. These can be used in patients to, for example, monitor arterial pressure, measure blood flow, maintain left ventricular pressure within a particular range, avoid left ventricular collapse, prevent fusion of the aortic valve in a subject having a blood pump, and provide a means to wean a patient from a blood pump. | 09-02-2010 |
20100222634 | BLOOD FLOW METER - Materials and methods related to blood pump systems are described. These can be used in patients to, for example, monitor arterial pressure, measure blood flow, maintain left ventricular pressure within a particular range, avoid left ventricular collapse, prevent fusion of the aortic valve in a subject having a blood pump, and provide a means to wean a patient from a blood pump. | 09-02-2010 |
20100222635 | MAXIMIZING BLOOD PUMP FLOW WHILE AVOIDING LEFT VENTRICLE COLLAPSE - Materials and methods related to blood pump systems are described. These can be used in patients to, for example, monitor arterial pressure, measure blood flow, maintain left ventricular pressure within a particular range, avoid left ventricular collapse, prevent fusion of the aortic valve in a subject having a blood pump, and provide a means to wean a patient from a blood pump. | 09-02-2010 |
20100222636 | CARDIOMYOPATHY TREATMENT DEVICE WITH ELECTRODE THERAPY - This invention relates to implantable heart sack that can be equipped with pacemaker leads and/or defibrillation leads for the treatment of cardiomyopathy, hypertrophic cardiomyopathy tachycardia, bradycardia, ventricular fibrillation, atrial fibrillation etc. The heart sack was prepared from biocompatible, biostable, implantable polyetherurethane, polycarbonateurethane, silicone, polysiloxaneurethane, polyfluoroethylene, or hydrogenated poly(styrene-butadiene) copolymer. The heart sack is equipped with attached sutures to make it easier to attach onto the heart. The heart sack can be made semipermeable or perforated to have numerous holes. The heart sack can be reinforce with fiber or filament. Ordinary pacemaker leads can be attached to the inner side of the heart sack. However, the pacemaker leads of this invention were prepared from noble metal (gold, platinum, rhodium and platinum-Rhodium alloys) or stainless steel coated, deposited or plated mono-filaments, yarns, braids, cords, wires or films, or cylindrical tubes of polyamide, polyimide, polyester, and/or polypropylene that are encased in multi-lumen insulating tube or coaxial tube made of biocompatible, biostable, implantable polyetherurethane, polycarbonateurethane, silicone, polysiloxaneurethane, polyfluoroethylene, or hydrogenated poly(styrene-butadiene) copolymer. The leads can be mounted onto the inner surface of the heart sack and contoured to the heart. The heart sack can be coated with hydrophilic coating containing an antimicrobial agent that gives the heart sack a low coefficient of friction, excellent biocompatibility and antimicrobial properties. | 09-02-2010 |
20100240944 | BLOOD PUMP, MEDICAL APPARATUS HAVING A BLOOD PUMP AND METHOD FOR ASSISTING THE POSITIONING OF A BLOOD PUMP - The invention relates to a blood pump and a medical apparatus having a blood pump, which is provided for insertion into the heart of a patient. The blood pump has at least one imaging sensor disposed in the region of the distal end of the blood pump to obtain imaging information in a blood vessel or in the heart. The invention also relates to a method for assisting the positioning of a blood pump in the heart of a patient, wherein image information is recorded inside the body of the patient using the at least one imaging sensor of the blood pump and transmitted in real time to an image processing and playback facility disposed outside the body of the patient for display purposes. | 09-23-2010 |
20100249489 | Intraventricular blood pumps anchored by expandable mounting devices - An intraventricular blood pump is retained in position by an expandable stent placed in the aorta that anchors to the aortic wall. The pump ejects blood across the aortic valve either through a conduit or as a free stream of blood without a mechanical conduit passing between the valve leaflets. The ejection of blood causes a reactive force pushing the pump towards the ventricular apex and away from the valve. Thus, the pump may be held by three filaments connecting it to the anchoring stent. Other flexible members such as a tube made of pericardium, sutures, or a rigid rod may be used to hold the pump in place. The preferred embodiment includes an apically introduced stent anchored aortic valve having two flexible tissue leaflets and a conduit channeling blood from the pump in the ventricle into the aortic root and passing through the non-coronary sinus in the position usually occupied by the non-coronary cusp of the aortic valve. This device can be surgically implanted through a small incision without the need for cardiopulmonary bypass in elderly or severely ill patients who cannot safely undergo more invasive surgery. Pumps using durable bearings and hermetically sealed motors are combined with tissue valves such that the entire device is durable for many years. | 09-30-2010 |
20100249490 | TRANSSEPTAL CANNULA DEVICE, COAXIAL BALLOON DELIVERY DEVICE, AND METHODS OF USING THE SAME - A transseptal cannula having a flexible cannula body, a left atrial anchor coupled to the distal end of the flexible cannula body, and a right atrial anchor operable to be attached to the left atrial anchor in vivo. The left and right atrial anchors are implanted and deployed separately. Delivery of the transseptal cannula to a heart tissue can include a low profile coaxial balloon catheter comprising a tube body including an inner member and an outer member surrounding the inner member and thereby creating an inflation channel between the inner and outer members, a hub coupled to the proximal portion of the tube body and including a fluid space in fluid communication with the inflation channel; and a balloon coupled to the distal portion of the tube body, wherein the balloon is in fluid communication with the inflation channel. The hub of the coaxial balloon catheter is constructed with a low profile so that other surgical devices can be directed over the coaxial hub without deflating and removing the balloon. | 09-30-2010 |
20100249491 | TWO-PIECE TRANSSEPTAL CANNULA, DELIVERY SYSTEM, AND METHOD OF DELIVERY - A cannula assembly for directing blood from the heart of a patient and a minimally invasive method of implanting the same. The cannula assembly includes a flexible cannula body having a proximal end and a distal end with a receiving portion, and a transseptal tip having a distal end and a proximal end with an engaging portion. First and second anchors are coupled to the transseptal tip and configured to be deployed from a contracted state to an expanded state. The engaging portion of the transseptal tip is operable to removably engage the receiving portion of the flexible cannula body in vivo. | 09-30-2010 |
20100268017 | Intracardiac Pumping Device - The intracardiac pumping device has a pump ( | 10-21-2010 |
20100280305 | BLOOD PUMP AND PUMP UNIT - Provided are a magnetic coupling as an axial bearing including a driven magnet ( | 11-04-2010 |
20100280306 | METHODS, DEVICES AND SYSTEMS FOR COUNTERPULSATION OF BLOOD FLOW TO AND FROM THE CIRCULATORY SYSTEM - Counterpulsation methods and systems for assisting the heart of a patient involve, for example, coordinating the operation of a pulsatile pump to suction blood from an artery through a first conduit while the heart is in systole and expel the blood into the first conduit and the artery while the heart is in diastole. | 11-04-2010 |
20100292528 | Wrap for a Heart Assist Device - A heart assist device in which an inflatable balloon or chamber is held against an outside surface of a curved arterial vessel by a wrap ( | 11-18-2010 |
20100298625 | Multi-lumen Cannula - This document relates to methods and materials for providing blood flow for a blood pump recipient. For example, cannulae that can be connected to the circulatory system of a mammal and can be used in conjunction with a blood pump (e.g., an assist device) are provided. | 11-25-2010 |
20100331605 | Physiologic pulsatile pump - A pulsatile blood circulating pump system that is adapted for use in cardiopulmonary bypass, ventricular assist (LVAD, RVAD, BiVAD), ECMO, organ preservation, fetal cardiac bypass, cancer treatment, and various areas of circulation research, which can be controlled in such a way as to produce a desired blood flow that closely approximates the physiological blood flow of the patient. The pump system includes a pulsating mechanism having a housing defining a chamber within which a compressible-expandable bladder is sealably mounted. The system further includes a hydraulic actuator having a pressure imparting member that acts upon a pressure transmissive fluid contained within the actuator chamber in a manner to generate a pulsatile pressure on the transmissive fluid, which, in turn, results in a pulsatile pressure being exerted on bladder in a manner to controllably vary the volume thereof. Additionally, the system includes a compact, highly reliable voice-coil motor that is operably associated with the hydraulic actuator for controllably moving the pressure imparting member within the fluid chamber and further includes a fully programmable motion controller that controls the voice-coil motor. Further, the system includes a programmable touch-screen component that functions to control the motion controller. | 12-30-2010 |
20110004046 | BLOOD PUMP WITH EXPANDABLE CANNULA - A blood pump includes an impeller having a plurality of foldable blades and a cannula having a proximal portion with a fixed diameter, and a distal portion with an expandable diameter. The impeller can reside in the expandable portion of the cannula. The cannula has a collapsed condition for percutaneous delivery to a desired location within the body, and an expanded condition in which the impeller can rotate to pump blood. A flexible drive shaft can extend through the cannula for rotationally driving the impeller within the patient's body. | 01-06-2011 |
20110009687 | CATHETER TO ASSIST THE PERFORMANCE OF A HEART - In a catheter ( | 01-13-2011 |
20110009688 | METHOD FOR MAKING A BLOOD PUMP - A method of making a blood pump comprises selecting a desired flow pattern in a pumping chamber defined by an extensible bladder wherein the flow pattern is based generally on blood flow in a natural heart, using an initial computer model of the desired flow pattern to determine the material composition and dynamic operation conditions of each portion of the bladder, designing a bladder and pump operating system, computer modeling the actual design, testing and refining the design, and constructing a prototype based thereon. The desired flow pattern includes guiding and directing the flow of blood through the pumping chamber by reason of the action of an expansile bladder on the blood flow. A continuous circular or spiral fluid path is obtained that more effectively washes all areas of the bladder including the inlet and discharge ports with blood to reduce thrombosis. | 01-13-2011 |
20110021864 | Biphasic and Dynamic Adjustable Support Devices and Methods with Assist and Recoil Capabilities for Treatment of Cardiac Pathologies - The present invention provides methods and direct cardiac contact diastolic recoil device to improve diastolic recoil of a heart and includes a biocompatible film attached to or enclosing one or more structural elements that store elastic energy during heart contraction and release energy during heart filling. | 01-27-2011 |
20110021865 | Left and Right Side Heart Support - A cannulation system for cardiac support uses an inner cannula disposed within an outer cannula. The outer cannula includes a fluid inlet for placement within the right atrium of a heart. The inner cannula includes a fluid inlet extending through the fluid inlet of the outer cannula and the atrial septum for placement within at least one of the left atrium and left ventricle of the heart. The cannulation system also employs a pumping assembly coupled to the inner and outer cannulas to withdraw blood from the right atrium for delivery to the pulmonary artery to provide right heart support, or to withdraw blood from at least one of the left atrium and left ventricle for delivery into the aorta to provide left heart support, or both. | 01-27-2011 |
20110034754 | DEVICES AND METHODS FOR ABSORBING, TRANSFERRING AND DELIVERING HEART ENERGY - A device for altering cardiac performance includes an energy absorbing element which absorbs cardiac pumping energy from at least a portion of the heart. The energy may be delivered to another part of the body, such as another portion of the heart, to perform useful work such as providing blood pumping assistance. | 02-10-2011 |
20110040140 | Apparatus Comprising a Drive Cable for a Medical Device - An article comprising a drive cable suitable for high-speed operation in an anatomy having small-radii bends is disclosed. The drive cables disclosed herein include one or more physical adaptations that enable them to be “tuned” to avoid large amplitude vibrations during operation. | 02-17-2011 |
20110054239 | Pulsatile Control System for a Rotary Blood Pump - A system for controlling the speed of a rotary blood pump. The system oscillates the speed of the pump to produce pulsed pressure at the outlet of the pump. The speed is oscillated synchronously with the natural cardiac cycle. The natural cardiac cycle is determined using a pulsatility index calculated from the back EMF produced by the pump or an impedance sensor. | 03-03-2011 |
20110065978 | Axial flow blood pump - An axial flow rotary blood pump including an impeller adapted to be magnetically rotated within a housing by the interaction of magnets disposed on or in the impeller and stators disposed on or in the housing. The impeller includes at least one support ring supporting a plurality of blades, and a hydrodynamic bearing that operates at least axially and radially in respect of an axis of rotation of the impeller. | 03-17-2011 |
20110071336 | HARD-WIRED IMPLANTED CONTROLLER SYSTEM - A circulatory assist system is disclosed, the system including an implantable electrical device having an electric motor, an implantable controller connected to the implantable electrical device, and an implantable power source connected to the controller for supplying power to the controller. The controller is attachable to a first side of a percutaneous connector. A second side of the percutaneous connector, opposite to the first side, allows external connectivity to said controller. | 03-24-2011 |
20110071337 | HEART ASSIST DEVICE - A ventricular assist device comprising a housing defining an interior space, at least two ports opening into said interior space, and at least one pump for pumping blood between the ports through said interior space, the ports and interior space providing a continuous blood flow path that is not interrupted by valves. | 03-24-2011 |
20110071338 | HEART ASSIST DEVICE WITH EXPANDABLE IMPELLER PUMP - An impeller includes a hub and at least one blade supported by the hub. The impeller has a stored configuration in which the blade is compressed so that its distal end moves towards the hub, and a deployed configuration in which the blade extends away from the hub. The impeller may be part of a pump for pumping fluids, such as pumping blood within a patient. A blood pump may include a cannula having a proximal portion with a fixed diameter, and a distal portion with an expandable diameter. The impeller may reside in the expandable portion of the cannula. The cannula may have a compressed diameter which allows it to be inserted percutaneously into a patient. Once at a desired location, the expandable portion of the cannula may be expanded and the impeller expanded to the deployed configuration. A flexible drive shaft may extend through the cannula for rotationally driving the impeller within the patient's body. | 03-24-2011 |
20110087063 | TWO PIECE ENDOVASCULAR ANASTOMOTIC CONNECTOR - An anastomotic connector comprising an endovascular component including a vascular conduit and a supply conduit and a cannula component. The vascular conduit has first and second ends that are configured to reside within a vascular structure. The supply conduit has proximal and distal ends, where the distal end fluidicly connects to the vascular conduit between the first and second ends. The cannula component, which also includes proximal and distal ends, is received by the supply conduit. | 04-14-2011 |
20110092761 | Ventricular function assisting devices and methods of use thereof - Devices and methods are provided for assisting in the ventricular function of a treated heart, and tools for delivering and attaching elements of said devices to the wall of the heart. In general the devices are designed to assist in the ventricular function of the heart by utilizing elastic, and/or magnetic, elements designed to apply radially and/or tangentially directed forces over the wall of the heart, and/or alter the pressure conditions inside ventricle(s) of the heart. Embodiments may utilize restrictive elements which may optionally be attached over the heart during the implantation procedure, or at a later time, by changing the mode of operation of an implanted device. | 04-21-2011 |
20110112353 | BIFURCATED OUTFLOW CANNULAE - A bifurcated cannula for directing blood into the arterial system. The bifurcated cannula including an ingress channel and first and second egress channels. The first egress channel directs a first portion of the blood entering the bifurcated cannula into the arterial system in a first direction. The second egress channel directs a second portion of the blood entering the bifurcated cannula into the arterial system in a direction that opposes the first direction. | 05-12-2011 |
20110112354 | ARTIFICIAL HEART CONTROL DEVICE, ARTIFICIAL HEART SYSTEM AND ARTIFICIAL HEART CONTROL METHOD - Provided is an artificial heart control device for controlling a blood pump which assists flow of blood in a heart, the artificial heart control device including: a timing detection part which is configured to detect reference timing within a cardiac cycle of the heart; and a blood pump control part which is configured to control a rotational speed of the blood pump, wherein the blood pump control part controls, with reference to the reference timing detected by the timing detection part, the rotational speed of the blood pump such that the rotational speed becomes a rotational speed corresponding to a predetermined control pattern. According to the present invention, it is possible to provide an artificial heart control device, an artificial heart system and an artificial heart control method which can provide a load control optimum for the recovery of functions of a patient's own heart. | 05-12-2011 |
20110124950 | Heart Assist Apparatus - The apparatus for implantation into a human heart comprises a pump ( | 05-26-2011 |
20110130619 | VENTRICULAR ASSIST DEVICE AND RELATED METHODS - A method and system are provided for percutaneously gaining access to oxygenated blood with one or more anastomosis devices and pumping such oxygenated blood directly to the aorta adjacent to the right atrium or left atrium via a VAD system. In one embodiment, a VAD system can be implanted with open surgery. | 06-02-2011 |
20110137107 | HEART SUPPORT DEVICE - A heart support device for pulsatile delivery of blood comprising a first and a second ventricle and a pump. Both ventricles comprises a fluid chamber and a blood-conveying chamber, wherein each fluid chamber can be filled with a fluid or emptied by way of the pump in such a way that an expansion or contraction of the fluid chamber occurs. In an expansion of the fluid chamber of a ventricle, a compression of the blood-conveying chamber of the same ventricle takes place, wherein a rigid pressure plate is disposed between a fluid chamber and the respective blood-conveying chamber, said pressure plate being able to move in the direction of the respective blood-conveying chamber. | 06-09-2011 |
20110137108 | SENSORLESS FLOW ESTIMATION FOR IMPLANTED VENTRICLE ASSIST DEVICE - A method of estimating the blood flow rate of a heart ventricle assist device which is positioned externally of, or implanted in, a patient. The assist device comprises a blood pump having a rapidly rotating, electrically powered impeller, and comprises briefly interrupting power to the impeller to cause its rotation to slow. From this, blood viscosity can be estimated, which viscosity is used to obtain real time, estimated blood flow rates and pressure heads. Apparatus for accomplishing this is disclosed. | 06-09-2011 |
20110144413 | Heart Assist Apparatus - The apparatus is a ventricular assist device comprising: a pump with a housing having therein radial a impeller, and a rotor for driving the impeller, both the rotor and the impeller being hydrodynamically suspended within the housing in us, the pump further including a stator for driving the rotor; an inlet cannula section arranged to extend from an internal part of the ventricle to straddle the wall of the ventricle, the stator being within the inlet cannula section to be located in the internal part of the ventricle; and an outlet for blood driven by the impeller such that the pump is a radial pump. Both the outlet and the impeller are arranged to reside outside of the heart. | 06-16-2011 |
20110152599 | METHOD FOR FORMING A BLOOD FLOW IN SURGICALLY RECONSTITUTED SEGMENTS OF THE BLOOD CIRCULATORY SYSTEM AND DEVICES FOR CARRYING OUT SAID METHOD - The invention relates to clinical cardiology and cardiovascular surgery. The method for forming a blood flow in research stands and in surgically reconstructed segments of the blood circulation system comprises diagnosing the individual condition of a patient's blood circulation system; measuring the blood flow velocity field in the heart chambers and great vessels; comparing the parameters measured against the physiological norm; determining parameters forming a swirled blood flow; and modeling an individual swirled blood current in the blood circulation system being diagnosed, the streamlined surfaces and guide elements of flow channels of the blood circulation system reconstructed being given shapes conforming to the flow lines of the restored normally swirled blood flow in accordance with formulas: | 06-23-2011 |
20110152600 | IMPLANTABLE HEART ASSIST SYSTEM - A heart assist system having an implantable pump conveying blood between two vascular locations and an extracorporeal system providing power and control signals to the pump. The system also includes a communication link having an implantable portion coupled to the implantable pump, an extracorporeal portion coupled to the extracorporeal system and an isolation portion between the implantable portion and the extracorporeal portion that minimizes the transmission of movement and forces from the extracorporeal portion to the implantable portion. | 06-23-2011 |
20110160516 | Mobility-Enhancing Blood Pump System - A blood pump system includes a first implantable housing, an implantable blood pump independent from the first implantable housing, and a percutaneous extension. The first implantable housing includes a rechargeable power storage device. The implantable blood pump supplements the pumping function of a heart. The rechargeable power storage device supplies electrical power to the implantable blood pump. The percutaneous extension is coupled to the rechargeable power storage device and adapted to traverse the skin. The percutaneous extension is configured to releasably connect to an external power supply adapted to provide power for recharging or supplementing the rechargeable power storage device to power the implantable blood pump. | 06-30-2011 |
20110160517 | System for heart assist, cannula and method - A cannula for a patient includes an elongate body having a length of at least 70 cm and a channel extending through the body defining a wall. The cannula includes a wire embodied within at least a portion of the wall. The body has a proximal end, a distal end having a tip opening through which the channel extends and a plurality of side holes through the wall in proximity to the tip for unimpeded flow of blood at the distal end. The cannula includes a barbed fitting at the proximal end. The cannula includes a suture wing for securing the elongated body to the patient. A system for assisting a patient's heart. A method for assisting a patient's heart. | 06-30-2011 |
20110160518 | Method and System for Closed Chest Blood Flow Support - A system for assisting flow of blood by a patient's heart. The system includes a transseptal cannula adapted to be inserted percutaneously in the vascular system and extend through the atrial septum from the right atrium to the left atrium. The system includes a blood pump mechanism having a blood pump for pumping blood received from the transseptal cannula that has been oxygenated at specified flow rates over a range of physiological pressures. The blood pump is connected to the transseptal cannula. The system includes a perfusion cannula adapted to be inserted percutaneously in the vascular system for returning oxygenated blood to the atrial system of the patient. The perfusion cannula is connected to the blood pump. | 06-30-2011 |
20110178361 | PHYSIOLOGICALLY RESPONSIVE VAD - A ventricular assist device incorporating a rotary pump such as a rotary impeller pump implantable in fluid communication with a ventricle and an artery to assist blood flow from the ventricle to the artery. The device includes a pump drive circuit supplying power to the pump, one or more sensors for sensing one or more electrophysiological signals such as electrogram signals in and a signal processing circuit connected to the sensors and to the pump drive circuit. The signal processing circuit is operative to detect the sensor signals and control power supplied to the pump from the pump drive circuit so that the pump runs in a pulsatile mode, with a varying speed synchronized with the cardiac cycle. When an arrhythmia is detected, the pump drive circuit may also run the pump in an atrial arrhythmia mode or a ventricular arrhythmia mode different from the normal pulsatile mode. | 07-21-2011 |
20110178362 | SYSTEMS AND METHODS FOR VOLUME REDUCTION - Systems and methods are provided for reducing the effective volume of a cardiac ventricle. A ventricular volume reduction system may include a containment system or container body deliverable through a catheter into the ventricle, with the containment system or container body being fillable to occupy space within the ventricle. A ventricular volume reduction system may include a partition that sequesters a portion of the ventricle and separates it from the flow path of blood in the ventricle. Methods for reducing the effective ventricular chamber volume may include placement of the containment system, the container body or the partition within the ventricle. | 07-21-2011 |
20110184224 | SELF-CONTAINED HEART PUMP, AND METHOD IMPLEMENTED IN SUCH A PUMP - A heart pump includes:
| 07-28-2011 |
20110190567 | METHODS OF SECURING A CANNULA ASSEMBLY, IMPLANTING A CIRCULATORY ASSIST SYSTEM AND CROSSING A TISSUE BARRIER - A transseptal cannula assembly for directing blood from the heart of a patient and a minimally invasive method of implanting the same. The transseptal cannula assembly includes a flexible cannula body having proximal and distal portions with a lumen therebetween, a tip coupled to the distal portion of the flexible cannula body, and first and second anchors coupled to the tip. The anchors can be configured to be deployed from a contracted state to an expanded state and are configured to engage opposite sides of the heart tissue when in the expanded state. The anchors resist movement of the cannula assembly along a lengthwise central axis of the flexible cannula body. | 08-04-2011 |
20110196189 | EXTRA-CARDIAC DIFFERENTIAL VENTRICULAR ACTUATION BY INERTIAL AND BARIC PARTITIONING - A device for extra-cardiac actuation for the support of a failing heart is provided that utilizes the inertial component of a driving fluid to provide separately adjustable quantities of supportive energy to the left and right ventricles. By partitioning the inertial and baric forms of energy delivered to a single chamber, heart encircling assist device, and by localizing the heart to minimize lateral and axial displacement a device and method for achieving balanced left-right flow is disclosed that restores the Frank-Starling mechanism to a failing heart and assists recovery by enabling the heart to achieve physiologic cardiovascular equilibrium. | 08-11-2011 |
20110196190 | DEVICES, METHODS AND SYSTEMS FOR ESTABLISHING SUPPLEMENTAL BLOOD FLOW IN THE CIRCULATORY SYSTEM - A cannula for insertion through a biologic tissue. The cannula includes a shaft having proximal and distal end portions with a lumen therebetween. The cannula further includes a tip having a proximal end portion, a distal tip end, and a lumen therebetween. The proximal end portion of the tip is secured to the distal end portion of the shaft so that the lumen of the tip is in fluid communication with the lumen of the shaft. The tip includes an opening that extends proximally relative to the distal tip end to permit the flow of fluid into the lumen of the tip even in the event that the distal tip end becomes obstructed. | 08-11-2011 |
20110196191 | CANNULA LINED WITH TISSUE IN-GROWTH MATERIAL AND METHOD OF USING THE SAME - A cannula for moving fluids between a pump and the circulatory system of a patient. The cannula includes a liner having an intermediate portion between a proximal portion and a distal portion, and a lumen extending between the proximal and distal portions. At least the intermediate portion of the liner is constructed from a tissue in-growth material for supporting the growth of endothelial cells. A jacket surrounds at least part of the liner. | 08-11-2011 |
20110196192 | HEART HELP DEVICE, SYSTEM, AND METHOD - A medical device for assisting in the maintaining of an opening created in the thoracic diaphragm is provided. The medical device comprises a diaphragm contacting part adapted to be placed in contact with the thoracic diaphragm and thereby assist in the maintaining of the opening created in the thoracic diaphragm. A pericardial drainage device for draining a fluid from the pericardium of a patient is further provided. The drainage device comprises a conduit; the conduit comprises a first and second section. At least a portion of the first section is adapted to receive a fluid inside of the pericardium. The second section of the conduit is adapted to be positioned outside of the pericardium of a patient and enable the exhaust of said fluid received from said pericardium through at least a portion of said second section. | 08-11-2011 |
20110201870 | HEART HELP PUMP, SYSTEM AND METHOD - The present invention relates to a heart pump apparatus comprising a turbine pump for assisting the heart of a human patient. The invention is based on the realization that a turbine without a centre axis would improve the capacity of the heart help pump apparatus. The present invention also relates to a turbine pump system for assisting the heart of a human patient. The present invention also relates to operation methods and methods for surgically placing a rotating body of a turbine pump and a stator of a turbine pump in a patient. | 08-18-2011 |
20110201871 | HEART HELP DEVICE, SYSTEM, AND METHOD - An implantable device for improving the pump function of the heart of a human patient by applying an external force on the heart muscle is provided. The device comprises at least one pump device having a pump. The pump comprising: a piston adapted for reciprocating movement, an operating device for operating the piston, a heart contacting organ. The movement of the piston assists the pump function of the heart through said heart contacting organ. | 08-18-2011 |
20110218382 | Auto-regulated R-Wave Synchronized Intraventricular Balloon Pump Heart Assist Device - Embodiments of the disclosed technology comprise an intraventricular balloon pump to help a dilated heart or ventricle push forward the stagnant stroke volume to the systemic circulation. The balloon fills simultaneously with the contraction of the ventricle. Since blood finds its way of least resistance, the easiest exit is through the aortic valve, against a closed mitral valve. The system is designed to be totally implantable, with a less invasive insertion and maintenance procedure than is known in the prior art. | 09-08-2011 |
20110218383 | PORTABLE CONTROLLER AND POWER SOURCE FOR MECHANICAL CIRCULATION SUPPORT SYSTEMS - A portable external device for a mechanical circulation support system includes first and second power sources, e.g. batteries and control electronics for redundant uninterrupted operation of an implantable blood pump. The control and power source module may be configured for variable form factors to accommodate a variety of wearable configurations for patient convenience and comfort. | 09-08-2011 |
20110218384 | PORTABLE CONTROLLER WITH INTEGRAL POWER SOURCE FOR MECHANICAL CIRCULATION SUPPORT SYSTEMS - A portable external device for a mechanical circulation support system includes first and second power sources, e.g. batteries and control electronics for redundant uninterrupted operation of an implantable blood pump. The control and power source module may be configured to accommodate a variety of wearable configurations for patient convenience and comfort. | 09-08-2011 |
20110218385 | PORTABLE CONTROLLER WITH INTEGRAL POWER SOURCE FOR MECHANICAL CIRCULATION SUPPORT SYSTEMS - A portable external device for a mechanical circulation support system includes first and second power sources, e.g. batteries and control electronics for redundant uninterrupted operation of an implantable blood pump. The control and power source module may be configured to accommodate a variety of wearable configurations for patient convenience and comfort. | 09-08-2011 |
20110237863 | MAGNETICALLY-LEVITATED BLOOD PUMP WITH OPTIMIZATION METHOD ENABLING MINIATURIZATION - A magnetically-levitated blood pump with an optimization method that enables miniaturization and supercritical operation. The blood pump includes an optimized annular blood gap that increases blood flow and also provides a reduction in bearing stiffness among the permanent magnet bearings. Sensors are configured and placed optimally to provide space savings for the motor and magnet sections of the blood pump. Rotor mass is increased by providing permanent magnet placement deep within the rotor enabled by a draw rod configuration. | 09-29-2011 |
20110245582 | Method and System for Closed Chest Blood Flow Support - A method of providing a pumping system for assisting a human patient's heart and providing a blood pump to be disposed outside the patient's body is disclosed. The blood pump has an inlet and an outlet. An inlet cannula is provided for insertion percutaneously into the vascular system of the patient, and is adapted to be placed in fluid communication with the blood pump inlet to provide blood to the blood pump. An outlet perfusion cannula is provided for insertion percutaneously into the vascular system of the patient, and is adapted to be placed in fluid communication with the blood pump outlet to provide blood to the patient's vascular system. The blood pump includes a control system to control the blood pump. The control system includes at least two control units for redundant control of the blood pump, and each control unit includes a watchdog for monitoring the control unit. | 10-06-2011 |
20110251450 | Method and Device for Attachment of an Inflow Conduit to the Heart and to a Pump - Apparatus connects a pump to a chamber of a heart. A cuff attaches to the heart, the cuff having a flange portion for attaching to a surface of the heart and a sleeve portion extending from the flange portion. An inflow conduit has a first end for inserting into the heart, an intermediate portion for attaching to the sleeve portion of the cuff, and a second end for conveying blood from the heart to the pump. An expansion tool is releasably mounted with the inflow conduit to slide longitudinally within the inflow conduit. The expansion tool has a blunt tip for punching through the heart into the chamber at a distal end and a manual grip at a proximal end for pulling the expansion tool out from the inflow conduit. The expansion tool has a sliding seal substantially adjacent the blunt tip so that after punching into the heart and joining the inflow conduit to the sleeve portion of the cuff, the expansion tool can be withdrawn from the inflow conduit resulting in gradual entry of blood into the first end and withdrawal of air from the second end. | 10-13-2011 |
20110257461 | VENTRICULAR FUNCTION ASSISTING DEVICE AND A METHOD AND APPARATUS FOR IMPLANTING IT - The present invention provides a ventricular function assisting device configured to be implanted in a heart ventricle designed in a form of flower-like configuration comprising two or more petals attached at a base section, said petals comprise elastic elements and/or portions capable of being elastically bent in radial directions and optionally also in sideway and/or longitudinal directions, which allow changing the state of the device between: i) a folded conformation, in which its petals are radially pressed inwardly towards each other to assume a reduced diameter of its flower-like configuration; and ii) a deployed conformation, in which the petals are opened in a radial outward direction as the device is discharged from the delivery tube or sheath into a heart ventricle and implanted thereinside in a preloaded state. | 10-20-2011 |
20110257462 | ACTIVE OR PASSIVE ASSISTANCE IN THE CIRCULATORY SYSTEM - Apparatus and methods for assisting flow of a fluid in a conduit. In some embodiments, a viscous impeller rotating within a protective cage provides a boost and total pressure to blood within the circulatory system of an animal. | 10-20-2011 |
20110257463 | PULSATILE AND NON-INVASIVE DEVICE FOR CIRCULATORY AND HAEMODYNAMIC ASSISTANCE - The present invention relates to a non-invasive pulsatile circulatory assistance device encouraging the circulation of a volume of blood in a subject's body, the device being characterized in that it comprises:
| 10-20-2011 |
20110275882 | VALVE FOR VENTRICULAR ASSIST DEVICE - A ventricular-assist-device valve includes two flaps hinged to a peripheral wall by means of a couple of flexible struts. As each flap opens and closes during each cycle of operation, the struts flex and open passages for flow around them, around the flaps, and between the struts and the flaps, so as to prevent the formation of dead zones that contribute to the accumulation and deterioration of blood cells that produce clotting. The struts are tensioned so as to exert a pressure against the flow of the blood stream when the flaps are open. This tension creates a pressure differential between the underside and the peripheral regions of the flaps that forces blood flow around the hinges and washes out stagnant cells. As a result, clotting is materially reduced. | 11-10-2011 |
20110275883 | PERCUTANEOUS GAS-LINE - A percutaneous gas-line ( | 11-10-2011 |
20110275884 | FLUID PUMP WITH A ROTOR - The invention relates to a fluid pump, in particular to a liquid pump having a rotor ( | 11-10-2011 |
20110282126 | PULSATILE MEDICAL DEVICE DESIGNED TO BE USED IN EXTRACORPOREAL SURGERY - The invention relates to a pulsatile medical device enabling a blood flow to be circulated. The invention consists in a device comprising:
| 11-17-2011 |
20110282127 | SYSTEM FOR RESTORING CARDIAC MUSCULAR ASYNCHRONIZED CONTRACTION MANNER IN A FAILING HEART - An expandable elastic structure is introduced into the left ventricular chamber via intravascular catheter in a retrievable and safe manner, and having let anchors anchored to the layer of mid-myocardium of cardiac wall. The structure helps enhancing blood perfusion in the layer of both subendocardium and mid-myocardium and keeps the volume of both subendocardium and mid-myocardium in an expanded state, as such the expandable elastic structure helps restore cardiac muscular asynchronized contraction manner in a diseased heart of a patient. And eventually the expandable elastic structure prevents progressive remodeling process of a failing heart, and improves cardiac function. | 11-17-2011 |
20110282128 | CATHETER PUMP FOR CIRCULATORY SUPPORT - A catheter pump intended to be inserted in the circulatory system, for example for assisting the heart, including a hollow catheter, a sheath, a drive cable, a drive shaft, a propeller, a proximal housing, a distal housing, and several filaments. Axial movement of the sheath in relation to the catheter brings the distal housing closer to the proximal housing so that said filaments are unfolded to form a cage. The propeller is pivotable between a first folded position, in which the propeller is parallel with the drive shaft and an unfolded position in which the propeller is perpendicular to the drive shaft. Axial movement of the sheath in a first movement unfolds the cage and in a second subsequent movement, actuation pins of the sleeve act upon a cam surface that unfolds the propeller. | 11-17-2011 |
20110288366 | Surgical Approach to Treat Coronary Artery Syndromes - A treatment for congestive heart failure due to acute or chronic coronary syndromes with myocardial infarction comprising excising from the patient's heart an auricular appendage and grafting the auricular appendage to the damaged heart muscle. | 11-24-2011 |
20110301403 | AXIAL FLOW PUMP WITH MULTI-GROOVED ROTOR - An axial-flow blood pump for pumping blood includes a substantially cylindrical outer enclosure. A tubular housing concentric with and located within the outer enclosure has at one end an inlet and at an opposite end an outlet. A motor stator is concentric with and located between the outer enclosure and the tubular housing. An impeller is concentric with and located within the tubular housing. The impeller is suspended in operation by a combination of passive magnetic forces between magnets within the impeller or magnetized regions of the impeller and the motor stator and hydrodynamic thrust forces generated as blood flows between the tubular housing and a plurality of hydrodynamic thrust bearing surfaces located on the impeller. A volute may be in fluid-tight connection with the outlet of the tubular housing for receiving blood in the axial direction and directing blood in a direction normal to the axial direction. The volute has a flow-improving member extending axially from the volute and into and coaxially with the tubular housing. | 12-08-2011 |
20110313237 | MEDICAL DEVICE OR INSTRUMENT HAVING POROUS STRUCTURE - The present invention relates to an inflow cannula for blood circulatory assist devices, having a robust structure and possessing a thrombus anchoring effect. Furthermore, the inflow cannula for blood circulatory assist devices does not deform or exhibit loss of dimensional accuracy during the manufacture process. These features are achieved by a porous structure formed of one or more linear elements or of a porous shaped article. | 12-22-2011 |
20110313238 | FLUID DELIVERY SYSTEM AND METHOD FOR MONITORING FLUID DELIVERY SYSTEM - A fluid delivery system includes an electric motor, a pump driven by the electric motor, and a control system. The control system is programmed to supply a variable voltage to the electric motor, to sense a response of a current of the electric motor to the variable voltage, and to obtain frequency domain information about the response of the current of the electric motor. | 12-22-2011 |
20120004495 | IMPLANTABLE HEART ASSIST SYSTEM AND METHOD OF APPLYING SAME - An extracardiac pumping for supplementing the circulation of blood, including the cardiac output, in a patient without any component thereof being connected to the patient's heart, and methods of using same. One embodiment provides a vascular graft that has a first end that is sized and configured to couple to a non-primary blood vessel and a second end that is fluidly coupled to a pump to conduct blood between the pump and the non-primary blood vessel. An outflow conduit is also provided that has a first end sized and configured to be positioned within the same or different blood vessel, whether primary or non-primary, through the vascular graft. The outflow conduit is fluidly coupled to the pump to conduct blood between the pump and the patient. The vascular graft may be connected to the blood vessel subcutaneously to permit application of the extracardiac pumping system in a minimally-invasive procedure. | 01-05-2012 |
20120004496 | CANNULA LINED WITH TISSUE IN-GROWTH MATERIAL AND METHOD OF USING THE SAME - A cannula for moving fluids between a pump and the circulatory system of a patient. The cannula includes a liner having an intermediate portion between a proximal portion and a distal portion, and a lumen extending between the proximal and distal portions. At least the intermediate portion of the liner is constructed from a tissue in-growth material for supporting the growth of endothelial cells. A jacket surrounds at least part of the liner. | 01-05-2012 |
20120010455 | Attachment Method - Preparing the heart for connection with a ventricular assist device (VAD) can include attaching an attachment ring to a ventricular apex of the heart. The attachment ring optionally includes a seal or a valve to allow the procedure to be performed with or without a heart-lung bypass. A valve can be temporarily attached to the attachment ring. Tissue is removed from the ventricular apex through the attachment ring to form a hole through which an inflow conduit of the VAD can be inserted. A slit can first be made in the ventricular apex to facilitate removal of the tissue. A clamp can be closed around the attachment ring to secure the inflow conduit. | 01-12-2012 |
20120016178 | Rotary Pump with Hydrodynamically Suspended Impeller - A pump assembly | 01-19-2012 |
20120022316 | Method and Apparatus for Preventing Air Embolisms - Method and apparatus for preventing air embolisms during surgical procedures which involves providing a fluid source in communication with an aperture extending into an anatomical cavity such that fluid may be delivered into the cavity when a condition of negative pressure exists in the cavity, thereby preventing the introduction of air into the cavity. | 01-26-2012 |
20120029265 | INTRAVASCULAR VENTRICULAR ASSIST DEVICE - One aspect of an intravascular ventricular assist device is an implantable blood pump where the pump includes a housing defining a bore having an axis, one or more rotors disposed within the bore, each rotor including a plurality of magnetic poles, and one or more stators surrounding the bore for providing a magnetic field within the bore to induce rotation of each of the one or more rotors. Another aspect of the invention includes methods of providing cardiac assistance to a mammalian subject as, for example, a human. Further aspects of the invention include rotor bodies having helical channels formed longitudinally along the length of the body of the rotor where each helical channel is formed between peripheral support surface areas facing radially outwardly and extending generally in circumferential directions around the rotational axis of the rotor. | 02-02-2012 |
20120029266 | ANISOTROPIC REINFORCEMENT AND RELATED METHOD THEREOF - Anisotropic reinforcements and synthetic materials are provided in which the fibers, mesh, weave, or otherwise interlaced or networked components thereof are oriented in one direction so as to create greater stiffness in the one direction of the patch relative to other directions of the reinforcement. Methods of producing such anisotropic reinforcements are provided. The anisotropic reinforcements are advantageously suitable for the surgical repair of incisions, openings, defects, etc. of the cardiovascular system and allow healing to occur while preserving mechanical function, particularly ventricular function. | 02-02-2012 |
20120035411 | STABILIZING DRIVE FOR CONTACTLESS ROTARY BLOOD PUMP IMPELLER - A rotary blood pump includes a casing defining a pumping chamber. The pumping chamber has a blood inlet and a tangential blood outlet. One or more motor stators are provided outside of the pumping chamber. A rotatable impeller is within the pumping chamber and is adapted to cause blood entering the pumping chamber to move to the blood outlet. The impeller has one or more magnetic regions. The impeller is radially constrained in rotation by magnetic coupling to one or more motor stators and is axially constrained in rotation by one or more hydrodynamic thrust bearing surfaces on the impeller. | 02-09-2012 |
20120035412 | METHOD FOR CONNECTING A BLOOD PUMP WITHOUT TRAPPING AIR BUBBLES - A method for connecting medical tubing or any other type of fluidic circuit conduits (e.g., cannulae) to a ventricular assist device (“VAD”) or any other pumping device used for blood pumping during cardiac circulatory support for vascular surgery. The method prevent air bubbles from entering a cardiac circulatory support system when connecting cannulae to a VAD that may later enter the blood stream of a patient during cardiac surgery, and also provide for purging any air bubbles that may have entered the cardiac circulatory support system during a cannulae-VAD connection. | 02-09-2012 |
20120035413 | SYSTEM FOR CONNECTING A BLOOD PUMP WITHOUT TRAPPING AIR BUBBLES - A system for connecting medical tubing or any other type of fluidic circuit conduits (e.g., cannulae) to a ventricular assist device (“VAD”) or any other pumping device used for blood pumping during cardiac circulatory support for vascular surgery. The system prevents air bubbles from entering a cardiac circulatory support system when connecting cannulae to a VAD that may later enter the blood stream of a patient during cardiac surgery, and also provide for purging any air bubbles that may have entered the cardiac circulatory support system during a cannulae-VAD connection. | 02-09-2012 |
20120041254 | Housing for a Functional Element - The invention relates to a housing ( | 02-16-2012 |
20120041255 | Method And Apparatus For Long-Term Assisting A Left Ventricle To Pump Blood - A method and apparatus for long-term assisting the left ventricle of a heart to pump blood is disclosed which includes at least one transluminally deliverable pump and a transluminally deliverable support structure which secures the at least one pump within the aorta for long-term use. | 02-16-2012 |
20120046514 | IMPLANTABLE BLOOD PUMP - An implantable blood pump includes a housing defining an inlet opening and an outlet opening. Within the housing, a dividing wall defines a blood flow conduit extending between the inlet opening and the outlet opening of the housing. The blood pump has a rotary motor that includes a stator and a rotor. The stator is disposed within the housing circumferentially about the dividing wall such that the inner blood flow conduit extends through the stator. | 02-23-2012 |
20120046515 | ASSEMBLY AND METHOD FOR STABILIZING A PERCUTANEOUS CABLE - A percutaneous cable is attached to a mechanical cardiac pump and is passed through the skin. Sutures can be used to stabilize the cable against movement to prevent disturbing tissue surrounding cable and thereby reduce the incidence of infection. A funnel-shaped tubular device can be used where the cable exits the skin to allow the cable to flex below or near the skin surface as may be desired to accommodate physical activity of a patient. An anchor can be attached to the cable and implanted below the skin surface to stabilize the cable against movement. The anchor can include any one or a combination of a flat mesh material, a bundle of ultrafine filaments, and a barbed filament. | 02-23-2012 |
20120059212 | CONDUIT DEVICE FOR USE WITH A VENTRICULAR ASSIST DEVICE - The present invention is a conduit device designed to be placed within a wall of a heart, such as through a prepared opening or hole in the heart wall. The conduit is hollow and extends to form a sleeve over a portion of the heart pump, such as a VAD, which traverses the heart wall and enters a chamber of the heart. The conduit provides for a simplified and noninvasive approach to removal and/or replacement of the heart pump. | 03-08-2012 |
20120059213 | Cannula Systems and Methods - Disclosed herein is a cannula assembly for directing the flow of material from an organ chamber, e.g., blood from the left chamber of the heart, and methods of placing the cannula assembly in fluidic communication with the chamber. The cannula assembly includes an elongate tubular member and a coupling assembly disposed at the distal end of elongate tubular member. The elongate tubular member includes a lumen extending from a distal opening at the distal end to a proximal opening at the proximal end. The coupling assembly includes a retaining element and a retention member configured to cooperate with each other and with the portion of the organ wall surrounding the opening in the wall to couple or anchor cannula system to the wall and to provide fluidic communication between the distal opening of the elongate tubular member and the organ chamber. | 03-08-2012 |
20120059214 | Active hydraulic ventricular attaching support system - An active hydraulic ventricular attachable support system includes a net cover for surrounding a ventricle and is formed by hollow tubes. All the hollow tubes can completely communicate with each other or form a plurality of independent areas, and the interior of each independent area is intercommunicating, while the independent areas are not communicating with each other. The system as a whole is positioned on the surface of the heart. The hollow tubular structure can be filled with various kinds of liquid of different physical characteristics, and then the corresponding reaction pressure generated can be applied to the ventricle and the surfaces of the heart. The system also can be incorporated with local administration. | 03-08-2012 |
20120065457 | FLUID PRESSURE GENERATING MEANS - A fluid pressure generating means ( | 03-15-2012 |
20120078030 | GENERATING ARTIFICIAL PULSE - In order to produce a pulsatile blood flow pattern that includes time periods of relatively high blood flow rates and time periods of relatively low blood flow rates, the operating speed of a blood pump can be selectively controlled to produce an operating speed pattern that includes time periods of relatively high rotation speeds and periods of relatively low rotation speeds. For example, the blood pump is rotated at a first speed for a first period of time. The speed of the blood pump is then decreased from the first speed to a second speed and is operated at the second speed for a second amount of time. The speed of the blood pump is then decreased to a third speed for a third amount of time. If desired, the operating speed pattern can be repeated to continue the pulsatile blood flow pattern. | 03-29-2012 |
20120078031 | CONTROL OF CIRCULATORY ASSIST SYSTEMS - In one general aspect, a method includes measuring blood flow through a right rotary blood pump, measuring blood flow through a left rotary blood pump, and controlling a speed of one of the rotary blood pumps using a controller that calculates the speed of one of the rotary blood pumps based on the measured blood flow through the other rotary blood pump. | 03-29-2012 |
20120078032 | METHODS, DEVICES AND SYSTEMS FOR COUNTERPULSATION OF BLOOD FLOW TO AND FROM THE CIRCULATORY SYSTEM - Counterpulsation methods and systems for assisting the heart of a patient involve, for example, coordinating the operation of a pulsatile pump to suction blood from an artery through a blood flow conduit while the heart is in systole and expel the blood into the blood flow conduit and the artery while the heart is in diastole. | 03-29-2012 |
20120088954 | Cardiac Pump - The pump is of an axial flow rotary pump, suitable for implantation into the human heart or vascular system, and comprises an elongate tubular casing ( | 04-12-2012 |
20120088955 | ARTERIAL DEVICE, SYSTEM AND METHOD - An arterial device, system and method are provided for use with a patient undergoing a cardiac procedure. The system is configured for enabling one or more arterial devices to be accommodated in the aorta of the patient in use of the system, and a perfusion lumen arrangement provides therethrough a target perfusion flow into the aorta having a target perfusion flow rate that is significantly greater than a nominal perfusion flow rate, by an excess perfusion flow rate. A suction lumen arrangement provides therethrough a suction flow out of the aorta at a suction flow rate. The target perfusion flow rate and the suction flow rate may be concurrently and selectively controlled to cause embolic debris that may be present in the aorta to be diverted to the suction inlet, while providing the nominal flow rate to the body circulation of the patient. | 04-12-2012 |
20120095280 | HEART PUMP CONTROLLER - A controller for a heart pump, the controller including a processing system for determining movement of an impeller within a cavity in a first axial direction, the cavity including at least one inlet and at least one outlet, and the impeller including vanes for urging fluid from the inlet to the outlet, causing a magnetic bearing to move the impeller in a second axial direction opposite the first axial direction, the magnetic bearing including at least one coil for controlling an axial position of the impeller within the cavity, determining an indicator indicative of the power used by the magnetic bearing and causing the magnetic bearing to control the axial position of the impeller in accordance with the indicator to thereby control a fluid flow between the inlet and the outlet. | 04-19-2012 |
20120095281 | PUMPING BLOOD - A blood pump includes a rotor having a flared portion downstream proximate a downstream bearing that supports the rotor. The flared portion of the rotor includes a width greater than a width of an upstream portion of the rotor. A blood pump also includes a housing having an internal wall with a flared portion downstream of a motor stator and proximate a transverse outlet. | 04-19-2012 |
20120130151 | DEVICES, SYSTEMS, AND METHODS TO FACILITATE HEART FUNCTION - Devices, systems, and methods for accessing tissue, including the internal and external tissues of the heart, are disclosed. At least some of the embodiments disclosed herein provide access to the internal and external tissues of the heart to assist heart function. In at least one embodiment, a suction/infusion catheter is used to deliver gas to a pericardial space surrounding a heart. | 05-24-2012 |
20120130152 | ROTATION DRIVE DEVICE AND CENTRIFUGAL PUMP APPARATUS USING THE SAME - A centrifugal blood pump apparatus includes an impeller provided in a blood chamber, a plurality of permanent magnets provided in the impeller, and a plurality of sets of magnetic materials and coils provided in a motor chamber for driving the impeller to rotate with a diaphragm interposed therebetween. The plurality of permanent magnets are aligned with a gap therebetween in a rotation direction of the impeller. Accordingly, if the weight of the permanent magnets is maintained at a constant value, a magnetic field can be strengthened even with a wide motor gap due to the diaphragm, as compared to an example where there is no gap between the permanent magnets. | 05-24-2012 |
20120142994 | COMPRESSIBLE AND EXPANDABLE BLADE FOR A FLUID PUMP - The invention relates to a compressible and expandable blade for the rotor of a fluid pump having at least two lamellae which are disposed adjacently, are pivotable respectively relative to an axis of rotation of the rotor and moveable relative to each other, and abut against each other in the expanded state of the blade such that they form together a continuous blade surface. | 06-07-2012 |
20120142995 | RADIOPAQUE CANNULA MARKER - A method is disclosed of applying a radiopaque marker to a cannula for use with an intracardiac pump, the method including: obtaining a band of radiopaque polymer material; placing the band around an outer diameter of the cannula, the cannula including a flexible tubular wall formed around and supported by a coil of shape memory material; placing a heat shrink tube around the band and the cannula; heating the band and the polymer tube to: soften the band, cause the heat shrink tube to shrink and apply force on the softened band towards the cannula, and cause the softened band to be welded to the cannula to form a radiopaque marker in a portion of the tubular wall; and removing the heat shrink tube. | 06-07-2012 |
20120142996 | IMPLANTABLE DRIVER WITH NON-INVASIVE TRANSMURAL POWERING DEVICE FOR CARDIAC ASSIST AND COMBINED ASSIST AND SUPPORT DEVICES - The present invention an implantable, sub-cutaneous, bellows-like device with one plate proximal (or superficial) to the skin surface and the other plate distal (or deep) to the skin surface having a component of a pneumatic/hydrulic driver for an implantable medical device such as a cardiac assist, cardiac support, or combined cardiac assist and support device and inducible magnet material on the distal plate of the bellows that can be magnetically drawn towards the proximal plate by the action of a magnet outside the body to contract the bellows or pressurize the fluid in the bellows. | 06-07-2012 |
20120142997 | DEVICE AND METHOD FOR CONNECTING A BLOOD PUMP WITHOUT TRAPPING AIR BUBBLES - An apparatus and a method for connecting medical tubing or any other type of fluidic circuit conduits (e.g., cannulae) to a ventricular assist device (“VAD”) or any other pumping device used for blood pumping during cardiac circulatory support for vascular surgery. The apparatus and the method prevent air bubbles from entering a cardiac circulatory support system when connecting cannulae to a VAD that may later enter the blood stream of a patient during cardiac surgery, and also provide for purging any air bubbles that may have entered the cardiac circulatory support system during a cannulae-VAD connection. | 06-07-2012 |
20120157753 | TRANSCUTANEOUS ENERGY TRANSFER SYSTEM WITH MULTIPLE SECONDARY COILS - A transcutaneous energy transfer (TET) system is provided having a plurality of secondary coils adapted for disposition in a patient, at least one primary coil configured to transmit transcutaneous energy, and a controller adapted for disposition in a patient. The controller includes circuitry to isolate the secondary coils from each other and direct electric current from at least one of the secondary coils to a charge storage device and/or implantable medical device. | 06-21-2012 |
20120157754 | COMPACT BATTERY AND CONTROLLER MODULE FOR A TRANSCUTANEOUS ENERGY TRANSFER SYSTEM - A compact implantable controller and battery module for a transcutaneous energy transfer (TET) system is provided having a single biocompatible housing encasing an energy storage device, a power control module, and a device control module. The power control module controls energy transfer to the storage device during charging and monitors power consumption of a cardiac assist device. The device control module controls and monitors the operation of a cardiac assist device. | 06-21-2012 |
20120157755 | METHOD AND APPARATUS FOR ACCURATELY TRACKING AVAILABLE CHARGE IN A TRANSCUTANEOUS ENERGY TRANSFER SYSTEM - Improved devices and methods for tracking power consumption and available charge in a transcutaneous energy transfer (TET) system are provided. The method includes measuring the available charge in a battery and the current rate of power consumption in an implanted medical device, determining the remaining time before the charge level of the battery reaches a predetermined threshold level, and communicating the remaining time to a user. | 06-21-2012 |
20120157756 | VENTRICULAR ASSIST DEVICE - A ventricular assist device includes a case, a pair of blood bags and a squeezing unit. The blood bags are installed inside the case. Each of the blood bags includes an inlet port connected to a ventricle of a heart to introduce therethrough blood flowing out from the ventricle, an internal space formed to store the blood introduced through the inlet port and an outlet port connected to an artery to discharge therethrough the blood stored in the internal space. The internal space has a variable volume. The squeezing unit is installed inside the case. The squeezing unit is configured to alternately squeeze the blood bags in such a way that, if one of the blood bags is squeezed to discharge the blood, the other blood bag is inflated to draw the blood. | 06-21-2012 |
20120172654 | VENTRICULAR ASSIST DEVICE - A ventricular assist device includes an intravascular blood pump and a collapsible frame. The collapsible frame receives the blood pump therein and is movable between a collapsed state and an expanded state. The collapsible frame engages an interior wall of a body cavity when in the expanded state and is retrievable from the body cavity in the collapsed state. | 07-05-2012 |
20120172655 | IMPELLER HOUSING FOR PERCUTANEOUS HEART PUMP - Disclosed herein are heart pumps that include a catheter assembly and that can be applied percutaneously. Some embodiments include a locking device that prevents components of the catheter assembly from being separated when in use. The catheter assembly can include an expandable tip. In some embodiments, the catheter assembly includes a housing having a wall structure, a portion of which can have a bulbuous shape or can be deformable. In other embodiments, the housing can be configured to reduce fluttering or deflection of the housing and/or to maintain a gap between the housing and an impeller blade disposed therein. | 07-05-2012 |
20120172656 | PERCUTANEOUS HEART PUMP - A heart pump and a catheter assembly therefor are provided that include a flexible catheter body having a proximal end and a distal end, the catheter body having a plurality of lumens therethrough. The catheter body can be sufficiently flexible to extend from a peripheral access to a patient's heart. The catheter assembly can also include an impeller assembly having an impeller and a housing. The impeller assembly can be coupled with the flexible catheter body such that a tensile force applied to opposite ends of the catheter assembly enhances the security of the connection between the catheter body and the impeller assembly. | 07-05-2012 |
20120172657 | HEART ASSIST SYSTEM - A supplemental blood flow system for assisting with blood circulation in a patient. The system includes a supplemental blood flow device implantable in the patient and a controller for directing electrical power to the supplemental blood flow device and controlling the flow rate of blood through the device. The controller includes first and second power inlets and a power outlet. The power outlet is adapted to be coupled to an electrical line leading to the supplemental blood flow device. A portable programming module may be coupled to at least one of the first and second power inlets and operable to allow pump operating parameters stored in the controller to be changed according to the needs of the patient. | 07-05-2012 |
20120178985 | PERCUTANEOUS HEART PUMP - A heart pump is provided that comprises an elongate catheter body, an impeller disposed at the distal end of the elongate catheter body, and one or more bearings positioned between the catheter body and the impeller. A fluid supply line for delivering infusant into the catheter is provided. A fluid return line for transporting infusant out of the catheter is also provided. A pump assembly for regulating the infusant flow along the fluid supply line and fluid return line is provided as part of an infusion system. | 07-12-2012 |
20120178986 | PERCUTANEOUS HEART PUMP - Disclosed herein are heart pumps that can include a catheter body and an impeller coupled with a distal end of the catheter body. The impeller can include a tip that is resealable or that includes a resealable member. The heart pump can also include a diffuser disposed between the distal end of the catheter body and the impeller, wherein the diffuser includes a flow directing surface. | 07-12-2012 |
20120184803 | CATHETER DEVICE HAVING A COUPLING DEVICE FOR A DRIVE DEVICE - The invention relates to a catheter device, having a hollow catheter ( | 07-19-2012 |
20120203056 | ANATOMIC FIT OF A PERCUTANEOUS VAD FOR RIGHT HEART SUPPORT - An apparatus is disclosed including: a cannula having a shape closely matched to the anatomy of the right ventricle of the human heart, where the cannula has an outflow port configured to be located proximal the pulmonary artery and an inflow port located proximal the inferior vena cava. In some embodiments, the cannula is a close fit to the anatomy of at least 90%, 95%, or more of the population. | 08-09-2012 |
20120209057 | LOCKABLE QUICK COUPLING - The invention relates to a simply lockable quick coupling ( | 08-16-2012 |
20120220815 | Pump-Inflow-Cannula, A Pump-Outflow-Cannula And A Blood Managing System - The invention relates to a pump-inflow-cannula ( | 08-30-2012 |
20120226096 | VENTRICULAR CUFF - In one general aspect, an implant includes a cuff defining an opening configured to receive a cannula coupled to a heart pump. The implant includes a coupling mechanism having a first position and a second position, the cuff being uncoupled from the cannula in the first position and the coupling mechanism coupling the cuff to the cannula in the second position. The implant includes a locking mechanism configured to secure the coupling mechanism in the second position, and the locking mechanism is configured to be moved to a locked position after the coupling mechanism is in the second position. | 09-06-2012 |
20120226097 | BLOOD PUMP - A blood pump ( | 09-06-2012 |
20120232331 | THERAPEUTIC AND SURGICAL TREATMENT METHOD FOR PROVIDING CARDIOPULMONARY AND CIRCULATORY ASSIST DEVICE - The present disclosure relates to a therapeutic method for improving the hemodynamics, the overall microcirculation in organs, and the restoration and preservation of deficient endothelial function in a patient, the method includes maintaining blood circulation in the patient's veins and arteries and temporarily relieving the heart of its pumping function. Relief may be accomplished by increasing the preload of the right ventricle so as to improve oxygenation of the myocardium and its contractility, reducing and diffusing regular pulsations in the proximity of the aortic root so as to improve the hemodynamics of the left ventricle of the heart, and/or mechanically stimulating the endothelium by shear forces so as to reduce systemic and pulmonary afterload. | 09-13-2012 |
20120245404 | BLOOD PUMP - A blood pump ( | 09-27-2012 |
20120253103 | CENTRIFUGAL BLOOD PUMPS WITH REVERSE FLOW WASHOUT - Blood pumps used as heart assist devices are commonly powered by an external battery and control system. If the external power is interrupted, such as by damaging an external cable, patients will have backflow across the pump. If the flow is too high, they may decompensate and die. If the backflow is relatively low, patients can survive until power is restored, but their blood pump must be sufficiently washed to prevent thrombus. Centrifugal blood pumps have been designed for good pumping performance, low blood damage, and avoidance of thrombus when they are running. The present invention recognizes the need to also provide enough washing to prevent thrombus when the pump power is turned off. The invention provides centrifugal pumps with triple or quadruple volute designs, or with axial flow impellers on the same shaft as the centrifugal pump impeller to help drive the rotor in reverse and enhance washing even with relatively low backflow. Also, in the preferred embodiment the centrifugal rotor is supported by low friction mechanical blood immersed bearings, to avoid contact of the rotor with the housing that creates small poorly washed crevices where thrombus can form. | 10-04-2012 |
20120259157 | Cannula Systems and Methods - Disclosed herein is a cannula assembly for directing the flow of material from an organ chamber, e.g., blood from the left chamber of the heart, and methods of placing the cannula assembly in fluidic communication with the chamber. The cannula assembly includes an elongate tubular member and a coupling assembly disposed at the distal end of elongate tubular member. The elongate tubular member includes a lumen extending from a distal opening at the distal end to a proximal opening at the proximal end. The coupling assembly includes a retaining element and a retention member configured to cooperate with each other and with the portion of the organ wall surrounding the opening in the wall to couple or anchor cannula system to the wall and to provide fluidic communication between the distal opening of the elongate tubular member and the organ chamber. | 10-11-2012 |
20120265002 | CATHETER PUMP ARRANGEMENT AND FLEXIBLE SHAFT ARRANGEMENT HAVING A CORE - The invention relates to a flexible shaft arrangement having a flexible hollow shaft which has an end at the drive side and an end at the output side, wherein the hollow shaft is reinforced sectionally between these ends by a core extending in its interior. Stiffer and more flexible sections can hereby be selectively positioned within the shaft arrangement. | 10-18-2012 |
20120265003 | TRANSCUTANEOUS ENERGY TRANSFER COIL WITH INTEGRATED RADIO FREQUENCY ANTENNA - Improved methods and devices for communicating via radio frequency (RF) in transcutaneous energy transfer (TET) systems is provided. In particular, an improved implantable coil for use in a transcutaneous energy transfer (TET) system is provided having an integrated radio frequency (RF) antenna. Further, a method of communicating between an external device and an implanted device having a plurality of secondary coils with integrated RF antennas is also provided. | 10-18-2012 |
20120271096 | Disposable blood pump and catheter - A blood pump for cardiac assist is made up from a catheter having a collapsible outer delivery tube and an inner suction tube that can be collapsible as well. The diameter of the tubing is reduced at the entry point to the body an a hole in the side of the delivery tube provides blood flow to the organs downstream from the catheter insertion point. The catheter is connected to an elastic tubing loop which forms a peristaltic pump when stretched over rotating arms equipped with rollers. | 10-25-2012 |
20120277520 | TRANSCUTANEOUS MAGNETIC ENERGY TRANSFER DEVICE - Transcutaneous magnetic energy transfer to drive a VAD or other implanted medical device can be supplied through two spinning (or otherwise moving) permanent magnets, or a moving permanent magnet and a moving ferric material, or a moving permanent magnet and a coil or an array of coils, One part is implanted under the patient's skin, so that the skin does not have to be broken for a connection to take place. | 11-01-2012 |
20120296151 | ASSEMBLY AND METHOD OF IMPLANTING A HEART ASSIST SYSTEM - A needle guard is used when suturing the cuff of an attachment ring to the heart. The needle guard is disposed in the attachment ring to prevent other parts of the attachment ring from being punctured by a suturing needle. The needle guard can include one or more grooves to inhibit relative movement between the needle guard and the attachment ring during suturing. The needle guard is removed upon completion of suturing and to allow insertion into attachment ring of an inflow conduit of a heart assist device. An articulated clamp is used to compress the attachment ring into engagement with the inflow conduit. The attachment include an annular rib that grabs the inflow conduit. | 11-22-2012 |
20120296152 | MULTI-LUMEN CANNULA - This document relates to methods and materials for providing blood flow for a blood pump recipient. For example, cannulae that can be connected to the circulatory system of a mammal and can be used in conjunction with a blood pump (e.g., an assist device) are provided. | 11-22-2012 |
20120310036 | BLOOD PUMP - A blood pump has a hollow body in which an impeller with a spiral blading produces an axial propulsion of blood along the impeller, as well as an at least partly actively stabilized magnetic bearing device and a hydrodynamic bearing device for the impeller. The impeller may be set into a rotation about a rotation axis of the impeller with a motor stator located outside the hollow body. The hollow body has an inlet for the flow of blood into the hollow body in an inflow direction which is essentially parallel to the rotation axis, and an outlet for the outflow of the blood out of the hollow body in an outflow direction which is offset to the rotation axis of the impeller to produce a non-zero outflow angle (α) between the inflow direction and the outflow direction. A total artificial heart can be formed from two such blood pumps. | 12-06-2012 |
20130006041 | Heart Wall Tension Reduction Apparatus and Method - Devices and methods for treatment of a failing heart by reducing the heart wall stress. The device can be one which reduces wall stress throughout the cardiac cycle or only a portion of the cardiac cycle. | 01-03-2013 |
20130012761 | VENTRICULAR PUMP COUPLING - A device and method for creating a connection with the left ventricle of a heart are provided. A seal member capable of moving between a folded position and an open position is attached to the end of a conduit. An introducer capable of moving between a first and second position allows for the expansion of the seal member into an open position. A clamp component is positioned outside of the heart to provide an axial clamping force with the wall of the heart so that a seal is created between the seal member and the wall of the heart. | 01-10-2013 |
20130023721 | Extracellular matrix encasement structures and methods - A remodelable encasement structure comprising a pouch formed from at least one sheet of bioremodelable material, the pouch having an internal region configured to receive a device therein, the bioremodelable material comprising an extracellular matrix (ECM) composition that includes an ECM scaffold component derived from a mammalian source and at least a bioactive component selected from the group consisting of a statin and a chitin derivative | 01-24-2013 |
20130041202 | FLUID PUMP HAVING A RADIALLY COMPRESSIBLE ROTOR - To design the rotor ( | 02-14-2013 |
20130041203 | BLOOD FLOW ASSIST DEVICES, SYSTEMS AND METHODS - An implantable pump system for assisting blood flow includes a flexible conduit, at least one movable valve in fluid connection with the flexible conduit, a drive system comprising a rotary motor and a speed reducer operatively connected to the rotary motor; and a converter operatively connected to the drive system and operatively connected to the valve to drive the valve in a reciprocating linear manner. In a number of embodiments, the speed reducer includes a spur gear driving a ring gear, wherein the converter is operatively connected to the speed reducer. | 02-14-2013 |
20130046129 | Non-Invasive Diagnostics for Ventrical Assist Device - A circulatory assist system has a pump with a motor coupled to rotate the pump at a selectable speed. A controller drives the motor at a target speed and collects blood flow measurements during operation of the pump. An impaired flow condition is identified when a plurality of successive blood flow measurements are between an expected minimum flow and a low flow threshold, such that the low flow would necessitate issuing an alert. During the impaired flow condition, it is detected whether an inflow obstruction exists by determining whether a reduction in speed of the pump is correlated with a predetermined increase in the blood flow measurements. If the inflow obstruction is detected, then the speed of the pump is further reduced to further increase the blood flow measurements. | 02-21-2013 |
20130046130 | LOADING GUIDE LUMEN - An apparatus is disclosed including: an intracardiac pump device having a path for a guidewire extending through the pump device from a first opening to a second opening; and a lumen which extends from a first end located outside of the pump device, into the pump device through the first opening in the pump device, along the path for the guidewire, out of the pump device through the second opening, and to a second end located outside of the pump device. The lumen is configured to receive the guidewire such that when the guidewire passes through the lumen from the first end to the second end, the guidewire is positioned along the path. | 02-21-2013 |
20130053622 | METHOD FOR SIMULTANEOUSLY DELIVERING FLUID TO A DUAL LUMEN CATHETER WITH A SINGLE FLUID SOURCE - One embodiment of the invention relates to an apparatus comprising an input connector configured for sterile connection to a fluid source, a first tube, a second, and a third tube. The first tube extends from a proximal end to a distal end comprising an input connector configured for sterile attachment to a fluid source. The input connector provides fluid communication between the first tube and the source. The second and third tubes are each in fluid communication with the first tube. The second and third tubes each extend from a proximal end to a distal end comprising an output connector configured for sterile connection to separate fluid input ports of a catheter based device. | 02-28-2013 |
20130053623 | EXPANDABLE VASCULAR PUMP - A pump for inducing flow within a vascular system comprises a cannula having a first configuration for deployment within the vascular system and a second configuration for directing the fluid flow within the vascular system, where the second configuration has a greater diameter than the first configuration. An impeller is configured to induce the fluid flow by rotation about an axis. The impeller has a first radius in the first configuration and a second radius in the second configuration, where the second radius is greater than the first radius. | 02-28-2013 |
20130053624 | SAFE ENERGY TRANSFER - The invention relates to safety precautions and mechanisms, particularly in connection with a wireless energy transfer system which involves the use of a transmitter (or transceiver) external to a patient's body and also a receiver implanted within a part of the patient's body. | 02-28-2013 |
20130053625 | HYDRAULIC HYDRAULIC PULSATION EQUIPMENT FOR A PERFUSION PUMP - Hydraulic pulsation equipment is intended for varying the volume of a chamber of a perfusion pump by alternatively inflating and deflating the same by means of a movement transmitting liquid fluid. It comprises a lung body provided with an elastic and deformable frontal membrane over which an external piston, which can be moved alternatively in both directions, enters into contact, and said piston originates from one of the sides of a control console. This console also has an enveloping ring head that surrounds the external piston, while constituting the fixation means of the lung body, which has a terminal narrowing connected to an intermediate tubular duct culminating in the chamber of the perfusion pump, and the movement transmitting liquid fluid is located in a space comprising a front part of the lung body, the intermediate tubular duct and the chamber of the perfusion pump. | 02-28-2013 |
20130060077 | PUMP ARRANGEMENT - The subject matter of the present invention is a pump arrangement ( | 03-07-2013 |
20130066139 | PUMP OR ROTARY CUTTER FOR OPERATION IN A FLUID - The invention relates to an apparatus for mechanical action upon a medium ( | 03-14-2013 |
20130066140 | HEART ASSIST DEVICE WITH EXPANDABLE IMPELLER PUMP - An impeller includes a hub and a blade supported by the hub. The impeller has a stored configuration in which the blade is compressed so that its distal end moves towards the hub, and a deployed configuration in which the blade extends away from the hub. The impeller may be part of a pump for pumping fluids, such as blood, and may include a cannula having a proximal portion with a fixed diameter, and a distal portion with an expandable diameter. The impeller may reside in the expandable portion of the cannula. The cannula may have a compressed diameter which allows it to be inserted percutaneously into a patient. Once at a desired location, the expandable portion of the cannula may be expanded and the impeller expanded to the deployed configuration. A flexible drive shaft may extend through the cannula for rotationally driving the impeller within the patient. | 03-14-2013 |
20130085318 | SYSTEM FOR INTRODUCING A PUMP - The invention resides in the field of introducing fluid pumps into a lumen and relates to a system for introducing a pump into a lumen which comprises a first sheath and a pump to be introduced into the first sheath, or a system which has a pump with a distal pump unit and a shaft catheter which emerges proximally to the pump unit. | 04-04-2013 |
20130085319 | EXPANDABLE BLOOD PUMPS AND METHODS OF THEIR DEPLOYMENT AND USE - A pump for inducing motion of a fluid, the pump including a cannula adjustable between an operable configuration having a first diameter and a deployment configuration having a substantially smaller second diameter. An impeller is rotatable within the cannula about an axis. The impeller includes an at least semi-rigid support for a flexible web, and is positionable with respect to the cannula the operable configuration and the deployment configuration, the operable configuration extending the web to a first radial distance from the axis and the deployment configuration collapsing the web to a second substantially smaller radial distance from the axis. | 04-04-2013 |
20130096364 | PUMP AND METHOD FOR MIXED FLOW BLOOD PUMPING - A blood pump includes a hub having an axis of rotation and a generally cylindrical shape. The hub has an upstream end region, a central region, and a downstream end region, and the hub includes a magnetic material. Blades that are disposed on the downstream end region of the hub extend downstream of the hub. | 04-18-2013 |
20130102834 | SLIDE DEVICE, MECHANICAL SEAL, ROTARY DEVICE, PUMP AND AUXILIARY ARTIFICIAL HEART SYSTEM - Provided is a slide device which can reduce a frictional force more than a conventional slide device when used in an aqueous liquid containing a blood component. In a slide device which includes: a fixed-side slide member having a slide surface; and a rotary-side slide member having a slide surface, the slide device being used in an aqueous liquid containing a blood component in a state where the slide surface of the fixed-side slide member and the slide surface of the rotary-side slide member face each other in an opposed manner, at least one of the fixed-side slide member and the rotary-side slide member is formed of a member which is made of a material which contains silicon and has hydrate of silicon oxide on the slide surface thereof. | 04-25-2013 |
20130102835 | ANISOTROPIC REINFORCEMENT AND RELATED METHOD THEREOF - Anisotropic reinforcements and synthetic materials are provided in which the fibers, mesh, weave, or otherwise interlaced or networked components thereof are oriented in one direction so as to create greater stiffness and/or tension in the one direction of the patch relative to other directions of the reinforcement. Methods of producing such anisotropic reinforcements are provided. The anisotropic reinforcements are advantageously suitable for the surgical repair of incisions, openings, defects, etc. of the cardiovascular system and allow healing to occur while preserving mechanical function, particularly ventricular function. | 04-25-2013 |
20130123569 | BLOOD FLOW CONTROL ELEMENT - Apparatus for treating obstructive blood flow disorders, is provided, including ( | 05-16-2013 |
20130150654 | CANNULA RING AND RELATED SYSTEMS AND METHODS - Cannula devices and related methods are provided. In accordance with one embodiment, a cannula ring includes a body portion having a substantially cylindrical member defining an opening therethrough. A plurality of anchor arms coupled with the body portion and configured to be positioned in a first, collapsed state and a second, deployed state, wherein the anchor arms each include a free end that is radially displaced from the body portion while in the second, deployed state relative to their positions while in the first, collapsed state. Suture rings and other associated structures and devices are also described. | 06-13-2013 |
20130158338 | Dual Lumen Cannula - A dual lumen coaxial cannula assembly includes a first infusion tube having a first elongate body defining a first lumen therethrough and a second drainage tube co-axially aligned with the first infusion tube and having a second elongate body with a second lumen defined by a space between the first infusion tube and second drainage tube. A connector is removably attached to the first infusion tube and the second drainage tube for coupling the dual lumen coaxial cannula to an extracorporeal blood circuit. The first infusion tube and the second drainage tube include a plurality of infusion and drainage apertures, respectively, provided at the distal end and extending through the sidewall of the first infusion tube and the drainage tube, respectively. | 06-20-2013 |
20130165735 | SYSTEM FOR IMPROVING CARDIAC FUNCTION BY SEALING A PARTITIONING MEMBRANE WITHIN A VENTRICLE - Partitioning devices that may be secured and sealed within a heart chamber for separating a patient's heart chamber into a productive portion and a non-productive portion are described herein. The partitioning devices described herein may include a reinforced membrane with outwardly biased members. The reinforced membrane may have a central hub with a distally extending support stem with a plurality of feet which extend radially from a centerline axis and preferably have ends that are aligned in a common plane. These devices may be secured within the heart chamber by sealing them to the wall of the heart chamber, for example, by inflating an inflatable element on the periphery of the device. The non-productive portion may be filled with a material, including occlusive materials. Sealing and/or filling the non-productive portion formed by the devices described herein may help prevent leakage from the non-productive region. | 06-27-2013 |
20130172660 | METHODS, DEVICES AND SYSTEMS FOR COUNTERPULSATION OF BLOOD FLOW TO AND FROM THE CIRCULATORY SYSTEM - Counterpulsation methods and systems for assisting the heart of a patient involve, for example, coordinating the operation of a pulsatile pump to suction blood from an artery through a blood flow conduit while the heart is in systole and expel the blood into the blood flow conduit and the artery while the heart is in diastole. | 07-04-2013 |
20130172661 | TRANSSEPTAL CANNULA, TIP, DELIVERY SYSTEM, AND METHOD - A cannula assembly, further comprising a cannula body for directing blood from the heart of a patient, having distal and proximal ends and a lumen therebetween. A tip coupled to the distal end of the body, the tip having an opening. A pump for drawing blood into the cannula assembly and dispensing the blood from the cannula assembly and into the patient circulatory system. The lumen of the cannula body further comprises a first inner diameter at the proximal end and a second inner diameter at the distal end, the first inner diameter being larger than the second inner diameter. A tapered portion defined as a decrease in inner diameter from the first inner diameter to the second inner diameter between the proximal and distal ends, the tapered portion configured to prevent cavitation of the blood within the cannula. | 07-04-2013 |
20130178694 | APICAL RING FOR VENTRICULAR ASSIST DEVICE - An apical ring for coupling a conduit of a ventricular assist device to a heart has an annular disk with a central aperture for receiving the conduit. A collar is axially aligned with the central aperture and has a cylindrical shape interrupted by a gap between first and second ends of the collar. The collar has a fixed section joined to the annular disk and has a cantilever section extending from the fixed section to the first end of the collar. A tightener selectively drives the first end toward the second end to close the gap in order to retain the conduit within the collar. The cantilever section includes a relief slot that is expandable for extending a circumferential length of the cantilever section in response to interacting with the conduit when the gap is closed. | 07-11-2013 |
20130184514 | PRESSURE ACTUATED SINGLE-LUMEN BLOOD PUMPING DEVICE - A pressure actuated single-lumen blood pumping device has a housing ( | 07-18-2013 |
20130190551 | DRIVELINE CABLE ASSEMBLY - A blood pump assembly includes a blood pump configured for implantation and a cable assembly for providing power and control signals to the blood pump. The cable assembly includes a strain relief assembly and a driveline. The strain relief assembly secures the cable assembly to the blood pump and has an outer surface that is curved along a longitudinal extent of the strain relief assembly at least along an outer peripheral side of the outer surface. The strain relief assembly defines a compartment and an internal passage that leads to the compartment. The driveline houses a plurality of conductors that extend from the driveline through the internal passage and into the compartment. | 07-25-2013 |
20130211182 | Cardiac Patterning for Improving Diastolic Function - Cardiomyopathy may be treated by distributing a space-occupying diastole-assist agent within the myocardium or within the cardiac venous system in a pattern about one or more chambers of the heart, such that the space-modifying agent integrates into and thickens at least part of the cardiac wall about the chamber so as globally to reduce wall stress, stabilize or even reduce chamber size, and/or improve diastolic function. Some patterns also cause a beneficial global reshaping of the chamber. These changes occur quickly and are sustainable, and have a rapid and sustainable therapeutic effect on cardiac function. Patterns of distribution of space-occupying agent within the myocardium for global resizing may also be used or augmented to treat localized conditions such as myocardial infarctions, overt aneurysm of the ventricular wall as typically forms in response to large transmural myocardial infarctions, and mitral regurgitation due to a noncompliant mitral valve. These techniques may also be used to treat localized conditions that may not yet have progressed to cardiomyopathy. | 08-15-2013 |
20130217953 | FLUID PUMPING VENTRICULAR ASSIST DEVICE AND COMPONENTS WITH STATIC SEAL - A ventricular assist device (VAD) having static seal structure for a pump housing which includes a support structure, a first sealing element, and a second sealing element. The support structure circumscribes a pump chamber and includes a first sealing surface, an opposing second sealing surface, and a fluid transfer end interposed between the sealing surfaces. The support structure provides a fluid flow path running through the fluid transfer end and into the pump chamber via an inlet bore and from the pump chamber back through the fluid transfer end via an outlet bore. The first sealing element is disposed on the first sealing surface, and the second sealing element is disposed on the second sealing surface. The sealing elements are configured for forming sealing interfaces in the pump housing, establishing a static seal that isolates the pump chamber from an environment external to the fluid pump housing. | 08-22-2013 |
20130225909 | Quick-Connect Outflow Tube for Ventricular Assist Device - An outflow conduit for a cardiac assist pump has a connector at one end comprised of a main sleeve configured to mate with a pump outlet port. A plurality of prongs extend from the sleeve. Each prong has a distal end with a claw and is bendable so that its respective claw expands over a lip and enters the groove of the outlet port. A lock nut is movable between a retracted position and a locking position. In the retracted position, a soft interconnect is obtained. In the locking position, the claws are prevented from escaping over the lip and a hard interconnect is obtained. | 08-29-2013 |
20130225910 | Rotary Pump with Hydrodynamically Suspended Impeller - A pump assembly | 08-29-2013 |
20130225911 | PORTABLE CONTROLLER WITH INTEGRAL POWER SOURCE FOR MECHANICAL CIRCULATION SUPPORT SYSTEMS - A portable external device for a mechanical circulation support system includes first and second power sources, e.g. batteries and control electronics for redundant uninterrupted operation of an implantable blood pump. The control and power source module may be configured to accommodate a variety of wearable configurations for patient convenience and comfort. | 08-29-2013 |
20130231521 | COAXIAL BALLOON DELIVERY DEVICE AND METHOD OF DELIVERING A TRANSSEPTAL CANNULA TO A HEART - A transseptal cannula having a flexible cannula body, a left atrial anchor coupled to the distal end of the flexible cannula body, and a right atrial anchor operable to be attached to the left atrial anchor in vivo. The left and right atrial anchors are implanted and deployed separately. Delivery of the transseptal cannula to a heart tissue can include a low profile coaxial balloon catheter comprising a tube body including an inner member and an outer member surrounding the inner member and thereby creating an inflation channel between the inner and outer members, a hub coupled to the proximal portion of the tube body and including a fluid space in fluid communication with the inflation channel; and a balloon coupled to the distal portion of the tube body, wherein the balloon is in fluid communication with the inflation channel. The hub of the coaxial balloon catheter is constructed with a low profile so that other surgical devices can be directed over the coaxial hub without deflating and removing the balloon. | 09-05-2013 |
20130237743 | DEVICES AND METHODS FOR ASSISTING CARDIAC FUNCTION - Devices and methods for assisting cardiac function. In an exemplary embodiment of a device for assisting heart function of the present disclosure, the device comprises a first plate and an opposing second plate, each plate having an inner surface, a cardiac processor coupled to at least one of the first plate and the second plate, a bladder having an inner chamber and disposed between the inner surfaces, and a first catheter having a proximal end in communication with the inner chamber of the bladder and a distal end having a first pericardial balloon coupled thereto, wherein a gas and/or a liquid within the inner chamber of the bladder can be injected into the first pericardial balloon upon compression of the first plate relative to the second plate, and wherein the gas and/or the liquid can be removed from the first pericardial balloon upon retraction of the first plate relative to the second plate. | 09-12-2013 |
20130237744 | CATHETER DEVICE - The catheter device comprises a drive shaft connected to a motor, and a rotor mounted on the drive shaft at the distal end section. The rotor has a frame structure which is formed by a screw-like boundary frame and rotor struts extending radially inwards from the boundary frame. The rotor struts are fastened to the drive shaft by their ends opposite the boundary frame. Between the boundary frame and the drive shaft extends an elastic covering. The frame structure is made of an elastic material such that, after forced compression, the rotor unfolds automatically. | 09-12-2013 |
20130245360 | Implantable Blood Conveying Device, Manipulating Device and Coupling Device - The invention provides an implantable component which is connectable to a manipulating device in a self-retaining manner by means of a coupling device, which provides a first coupling element and a second coupling element. The implantable component can thus be really positioned by the manipulating device which can, for example, already be connected to the implantable component before a therapeutic procedure and can be separated therefrom again after the surgical procedure. This is in particular advantageous with minimally invasive procedures. | 09-19-2013 |
20130245361 | HEART ASSIST DEVICE - A heart assist device comprising a rotary pump housing having a cylindrical bore, a pumping chamber and a motor stator including an electrically conductive coil located within the housing and surrounding a portion of the cylindrical bore. A rotor has a cylindrical shaft, at least one impeller appended to one end of the shaft, and a plurality of magnets located within the shaft. The rotor shaft is positioned within the housing bore with the magnets opposite the motor stator, and the impeller is positioned within the pumping chamber. The housing bore is closely fitted to the outer surface of the shaft forming a hydrodynamic journal bearing, with the pumping chamber and journal bearing connected by a leak path of blood flow between the pumping chamber and the journal bearing. A backiron of the motor stator attracts the rotor magnets to resist longitudinal displacement of the rotor within the housing during operation. The relative orientation of positions of the inflow, outflow, and leakage flow paths may be varied within the pump, such as to accommodate different intended methods for implantation and/or use. | 09-19-2013 |
20130261375 | Modular Implantable Medical Pump - An implantable medical pump system can include a blood pump comprising a pump housing defining a passage therethrough and a rotor within the passage. The blood pump further includes one or more elements at least partially contained within the housing adapted to actuate the rotor to drive fluid though the passage. The pump housing includes at least one coupling feature. The system further includes an inflow cannula defining a lumen therethrough. The inflow cannula is adapted to be mechanically coupled to the at least one coupling feature. | 10-03-2013 |
20130281760 | TRANSSEPTAL CANNULA, TIP, DELIVERY SYSTEM, AND METHOD - A cannula assembly, further comprising a cannula body for directing blood from the heart of a patient, having distal and proximal ends and a lumen therebetween. A tip coupled to the distal end of the body, the tip having an opening. A pump for drawing blood into the cannula assembly and dispensing the blood from the cannula assembly and into the patient circulatory system. The lumen of the cannula body further comprises a first inner diameter at the proximal end and a second inner diameter at the distal end, the first inner diameter being larger than the second inner diameter. A tapered portion defined as a decrease in inner diameter from the first inner diameter to the second inner diameter between the proximal and distal ends, the tapered portion configured to prevent cavitation of the blood within the cannula. | 10-24-2013 |
20130289334 | TRANSCUTANEOUS POWER TRANSMISSION AND COMMUNICATION FOR IMPLANTED HEART ASSIST AND OTHER DEVICES - A system includes an implantable pump system for assisting blood flow in a patient including at least one movable valve. The movable valve is in a normally open state when the moveable valve is not being powered and a drive system in operative connection with the moveable valve to move the moveable valve under power. The system further includes an energy transfer system to provide energy to the drive system. The energy transfer system includes an external system including a power source and an external coil and an internal system including an internal coil adapted to receive transcutaneous energy transmitted from the external coil. The internal system has at least a first state wherein energy transmission from the external coil is required to provide operational power to the drive system. | 10-31-2013 |
20130289335 | HEART ASSIST DEVICE - A ventricular assist device comprising a housing defining an interior space, at least two ports opening into said interior space, and at least one pump for pumping blood between the ports through said interior space, the ports and interior space providing a continuous blood flow path that is not interrupted by valves. | 10-31-2013 |
20130289336 | GENERATING ARTIFICIAL PULSE - In order to produce a pulsatile blood flow pattern that includes time periods of relatively high blood flow rates and time periods of relatively low blood flow rates, the operating speed of a blood pump can be selectively controlled to produce an operating speed pattern that includes time periods of relatively high rotation speeds and periods of relatively low rotation speeds. For example, the blood pump is rotated at a first speed for a first period of time. The speed of the blood pump is then decreased from the first speed to a second speed and is operated at the second speed for a second amount of time. The speed of the blood pump is then decreased to a third speed for a third amount of time. If desired, the operating speed pattern can be repeated to continue the pulsatile blood flow pattern. | 10-31-2013 |
20130296633 | AMBULATORY LUNG ASSIST DEVICE WITH IMPLANTED BLOOD PUMP AND OXYGENATOR - The present disclosure provides a system for oxygenating blood. The system may include an implantable blood pump that may draw a supply of blood from the circulatory system of a mammalian subject, such as a human being. The blood pump may provide the supply of blood to an adaptor, where the supply of blood may be supplied to either or both of a first branch or second branch. The first branch may lead to an external blood oxygenator. The oxygenator may oxygenate the blood, and the blood may be returned to the circulatory system of the mammalian subject. The second branch may bypass the oxygenator and may connect to the circulatory system of the mammalian subject. In this regard, while the blood is supplied to the second branch, the oxygenator may be disconnected and blood may be prevented from entering the first branch. | 11-07-2013 |
20130296634 | SENSORLESS FLOW ESTIMATION FOR IMPLANTED VENTRICLE ASSIST DEVICE - A method of estimating the blood flow rate of a heart ventricle assist device which is positioned externally of, or implanted in, a patient. The assist device comprises a blood pump having a rapidly rotating, electrically powered impeller, and comprises briefly interrupting power to the impeller to cause its rotation to slow. From this, blood viscosity can be estimated, which viscosity is used to obtain real time, estimated blood flow rates and pressure heads. Apparatus for accomplishing this is disclosed. | 11-07-2013 |
20130303830 | IMPELLER FOR CATHETER PUMP - An impeller for a pump is disclosed herein. The impeller can include a hub having a fixed end and a free end. The impeller can also have a plurality of blades supported by the hub. Each blade can have a fixed end coupled to the hub and a free end. The impeller can have a stored configuration and a deployed configuration, the blades in the deployed configuration extending away from the hub, and the blades in the stored configuration being compressed against the hub. | 11-14-2013 |
20130303831 | EXPANDABLE BLOOD PUMP FOR CARDIAC SUPPORT - A pump for inducing flow within a vascular system comprises two inlets. The pump has a first configuration for deployment within the vascular system and a second, operable configuration for directing the fluid flow within the vascular system, where the second configuration has a greater diameter than the first configuration. A centrifugal impeller is configured to induce the fluid flow by rotation about an axis of rotation, where the flow is in a direction generally transverse to the impeller's axis of rotation. | 11-14-2013 |
20130303832 | METHODS AND DEVICES FOR TREATING HEART FAILURE - Systems and methods for delivering a miniaturized blood pump configured to draw partially desaturated blood via the femoral vein from the inferior or superior vena cava. A cannula connected to the pump exits the femoral vein and is connected to the femoral artery with a cannula or vascular graft. The pump receives power from a percutaneous lead which runs parallel to the flexible cannula and then exits via a percutaneous opening in the skin. The pump in the venous system removes venous blood and pumps it into the femoral artery. In so doing pressure in the aorta is increased and back pressure in the venous system is decreased. | 11-14-2013 |
20130303833 | SILVER MOTOR STATOR FOR IMPLANTABLE BLOOD PUMP - In one embodiment of the present invention, an implantable blood pump includes a housing defining a flow path, a rotor positioned within the flow path, and a motor including a stator, positioned outside of said housing, the stator including a length of silver wire, wherein the silver wire is not positioned within a hermetically sealed compartment once the blood pump is ready for implantation into a patient in need thereof. The present invention may also include a method of implanting the implantable blood pump including the step of implanting the blood pump within the patient and within or adjacent to the vasculature. | 11-14-2013 |
20130310629 | Methods, Systems, and Devices Relating to Wireless Power Transfer - The various embodiments disclosed herein relate to transcutaneous energy transfer systems comprising an internal coil positioned within a cavity of a patient and an external coil inductively coupled to the internal coil. The systems can be coupled to any implantable medical devices, such as, for example, a heart assist device. | 11-21-2013 |
20130310630 | METHOD AND SYSTEM FOR POWERING IMPLANTABLE DEVICES - A ventricular assist device (VAD) system includes one or more external subsystems including an amplifier energizing a drive loop with alternating current, and a Tx resonator inductively coupled to the drive loop. An implanted subsystem includes a VAD, an Rx resonator that forms a magnetically coupled resonator with the Tx resonator, and a load loop for providing power to the VAD that is inductively coupled to the Rx resonator. A sensor monitors the drive loop and a controller uses the sensor data to adjust a system parameter to optimize energy transfer performance. Distributing a plurality of the external subsystems throughout a defined space provides a patient with freedom of movement within the defined space. | 11-21-2013 |
20130310631 | TOUCH SCREEN INTERFACE AND INFRARED COMMUNICATION SYSTEM INTEGRATED INTO A BATTERY - Apparatuses and methods relating to interfacing and controlling external batteries are described. In one embodiment, an external battery is integrated with a touch screen display. In one embodiment, the external battery provides an infrared communication link with a detachable device or system controller. In one embodiment, the external battery touch screen interface provides data received from a detachable device or system controller. | 11-21-2013 |
20130317283 | HYDRODYNAMIC THRUST BEARINGS FOR ROTARY BLOOD PUMP - A rotary blood pump includes a casing defining a pumping chamber. The pumping chamber has a blood inlet and a tangential blood outlet. One or more motor stators are provided outside of the pumping chamber. A rotatable impeller is within the pumping chamber and is adapted to cause blood entering the pumping chamber to move to the blood outlet. The impeller has one or more magnetic regions. The impeller is radially constrained in rotation by magnetic coupling to one or more motor stators and is axially constrained in rotation by one or more hydrodynamic thrust bearing surfaces on the impeller. | 11-28-2013 |
20130324787 | METHOD AND DEVICE FOR PERCUTANEOUS LEFT VENTRICULAR RECONSTRUCTION - A method for reducing left ventricular volume, which comprises identifying infarcted tissue during open chest surgery; reducing left ventricle volume while preserving the ventricular apex; and realigning the ventricular apex, such that the realigning step comprises closing the lower or apical portion of said ventricle to achieve appropriate functional contractile geometry of said ventricle in a dyskinetic ventricle of a heart. | 12-05-2013 |
20130331638 | SELF-ADHESIVE TET COIL HOLDER WITH ALIGNMENT FEATURE - An alignment device for an external coil in a transcutaneous energy transfer (TET) system. The device may be adhered to the skin or clothing of a patient and may ensure alignment between an external coil and an internal coil to provide optimal energy transfer in a TET system. | 12-12-2013 |
20130331639 | BLOOD PUMP WITH EXPANDABLE CANNULA - A blood pump includes an impeller having a plurality of foldable blades and a cannula having a proximal portion with a fixed diameter, and a distal portion with an expandable diameter. The impeller can reside in the expandable portion of the cannula. The cannula has a collapsed condition for percutaneous delivery to a desired location within the body, and an expanded condition in which the impeller can rotate to pump blood. A flexible drive shaft can extend through the cannula for rotationally driving the impeller within the patient's body. | 12-12-2013 |
20130338426 | CANNULA FOR HEART CHAMBER IMPLANTATION AND RELATED SYSTEMS AND METHODS - A cannula for implantation into a chamber of a heart includes an elongate body having a lumen extending along a longitudinal axis, a first end, and a second end. The first and second ends define openings into the lumen and the second end includes a flat portion. A flared tip portion extends from the flat portion of the second end in a direction toward the first end, and flares radially outward from the longitudinal axis and in such direction. A ring member extends around the axis of the elongate body and is spaced from the flared tip portion, and the ring member is adapted for retaining the elongate body in a position relative to a wall of the chamber. An embodiment of a flared tip portion may further include a barbed surface configured to contact tissue around an aperture in the wall of the heart when the cannula travels through the aperture. | 12-19-2013 |
20130345492 | CATHETER DEVICE - The catheter device comprises a motor located at the proximal end of the catheter device and a drive shaft, extending from the proximal end section to the distal end section of the catheter device, for driving a rotating element located at the distal end of the catheter device. The catheter device also comprises a hose-like catheter body which encompasses the drive shaft and extends from the proximal end section to the distal end section of the catheter device. At the proximal end of the catheter device, the drive shaft is connected to a motor by a clutch. The clutch is a magnetic clutch with a proximal and a distal magnet unit. The proximal magnet unit is connected to the motor and the distal magnet unit to the drive shaft. The distal magnet unit is mounted fluid-tight in a clutch housing. The proximal end of the catheter body makes a fluid-tight connection with the clutch housing. | 12-26-2013 |
20140005466 | Implantable Medical Devices | 01-02-2014 |
20140005467 | INTRAVASCULAR BLOOD PUMP AND CATHETER | 01-02-2014 |
20140012065 | CATHETER PUMP - A catheter pump is provided that includes a rotatable impeller and an elongate cannula. The elongate cannula has a mesh that has a plurality of circumferential members disposed about the impeller. The elongate cannula has a plurality of axial connector extending between a proximal side of a distal circumferential member and a distal side of a proximal circumferential member. The circumferential members are radially self-expandable. The cannula is configured to minimize fracture within at least in the distal zone of the mesh as the elongated cannula moves into a sheathing device. | 01-09-2014 |
20140012066 | Left and Right Side Heart Support - A cannulation system for cardiac support uses an inner cannula disposed within an outer cannula. The outer cannula includes a fluid inlet for placement within the right atrium of a heart. The inner cannula includes a fluid inlet extending through the fluid inlet of the outer cannula and the atrial septum for placement within at least one of the left atrium and left ventricle of the heart. The cannulation system also employs a pumping assembly coupled to the inner and outer cannulas to withdraw blood from the right atrium for delivery to the pulmonary artery to provide right heart support, or to withdraw blood from at least one of the left atrium and left ventricle for delivery into the aorta to provide left heart support, or both. | 01-09-2014 |
20140031606 | Thermal Management for Implantable Wireless Power Transfer Systems - Thermal management solutions for wireless power transfer systems are provided, which may include any number of features. In one embodiment, an implantable wireless power receiver includes at least one thermal layer disposed on an interior surface of the receiver configured to conduct heat from a central portion of the receiver towards edges of the receiver. The thermal layer can comprise, for example, a copper layer or a ceramic layer embedded in an acrylic polymer matrix. In some embodiments, a plurality of thermal channels can be formed within the receiver to transport heat from central regions of the receiver towards edges of the receiver via free convection. In yet another embodiment, a fluid pipe can be connected to the receiver and be configured to carry heat from the receiver to a location remote from the receiver. Methods of use are also provided. | 01-30-2014 |
20140031607 | Coplanar Wireless Energy Transfer - An external transmitter inductive coil can be provided in, on, or with a belt designed to be placed externally around a part of a body of a patient. An implantable device (such as a VAD or other medical device) that is implanted within the patient's body has associated with a receiver inductive coil that gets implanted within that part of the patient's body along with the device. The externally-located transmitter inductive coil inductively transfers electromagnetic power into that part of the body and thus to the receiver inductive coil. The implanted receiver inductive coil thus wirelessly receives the inductively-transferred electromagnetic power, and operates the implant. | 01-30-2014 |
20140039241 | SUB-MINIATURE ELECTROMECHANICAL MEDICAL IMPLANTS WITH INTEGRATED HERMETIC FEEDTHROUGHS - Highly miniaturized electro-mechanical medical implants for certain applications cannot be fit into the available anatomic space unless their diameter can be made small enough. With devices such as rotary blood pumps or linear actuators, using rotary or linear electric motors, a thin motor stator that provides sufficient power must be encased in a corrosion resistant hermetically sealed enclosure into which electric wires must pass. Hermetic feedthroughs of the prior art are not structurally suited to maximal miniaturization with optimal electrical properties because of the need for welding of ferrules or other support components. The sub-miniature medical implants having the robust feedthrough of the present invention integrate the feedthrough wires, insulators, and sealing within a radially extending flange that is part of the end wall of the motor enclosure. This permits the largest feedthrough wire and thickest insulator to be built into the limited available space. | 02-06-2014 |
20140046118 | ROTARY PUMP WITH THRUST BEARINGS - A rotary blood pump includes a casing defining a pumping chamber. The pumping chamber has a blood inlet and a tangential blood outlet. One or more motor stators are provided outside of the pumping chamber. A rotatable impeller is within the pumping chamber and is adapted to cause blood entering the pumping chamber to move to the blood outlet. The impeller has one or more magnetic regions. The impeller is radially constrained in rotation by magnetic coupling to one or more motor stators and is axially constrained in rotation by one or more hydrodynamic thrust bearing surfaces on the impeller. | 02-13-2014 |
20140046119 | VENTRICULAR ASSIST DEVICE CANNULA AND VENTRICULAR ASSIST DEVICE INCLUDING THE SAME - Provided is a ventricular assist device cannula, and more particularly, a ventricular assist device cannula with electrodes. An exemplary embodiment of the present invention provides a ventricular assist device cannula with electrodes, including: a connecting tube connecting an incision of a body tissue and a ventricular assist device so that blood can flow; and electrodes connected with the connecting tube and contacting the incision of the body tissue to transfer an electric signal to the body tissue. The ventricular assist device cannula with electrodes according to the exemplary embodiment of the present invention has effects as follows. First, a bio-signal of a patient wearing the ventricular assist device through the electrode attached to the conduit can be easily measured without a separate electrode implant and an electric stimulus can also be measured. Second, since the electric stimulus can be directly applied to a cardiac muscle, it is possible to improve stability and efficiency of an electric treatment such as a cardiac pacemaking, a ventricular defibrillation, and the like of the patient wearing the ventricular assist device. | 02-13-2014 |
20140046120 | VENTRICULAR ASSIST DEVICE CANNULA AND VENTRICULAR ASSIST DEVICE INCLUDING THE SAME - Provided is a ventricular assist device cannula, and more particularly, a ventricular assist device cannula with electrodes. An exemplary embodiment of the present invention provides a ventricular assist device cannula with electrodes, including: a connecting tube connecting an incision of a body tissue and a ventricular assist device so that blood can flow; and electrodes connected with the connecting tube and contacting the incision of the body tissue to transfer an electric signal to the body tissue. The ventricular assist device cannula with electrodes according to the exemplary embodiment of the present invention has effects as follows. First, a bio-signal of a patient wearing the ventricular assist device through the electrode attached to the conduit can be easily measured without a separate electrode implant and an electric stimulus can also be measured. Second, since the electric stimulus can be directly applied to a cardiac muscle, it is possible to improve stability and efficiency of an electric treatment such as a cardiac pacemaking, a ventricular defibrillation, and the like of the patient wearing the ventricular assist device. | 02-13-2014 |
20140051907 | VENTRICULAR FUNCTION ASSISTING DEVICES AND METHODS OF USE THEREOF - The present invention provides devices and methods for assisting in the ventricular function of a treated heart, and tools for delivering and attaching elements of said devices to the wall of the heart. In general the devices of the invention are designed to assist in the ventricular function of the heart by utilizing elastic, and/or magnetic, elements designed to apply radially and/or tangentially directed forces over the wall of the heart, and/or alter the pressure conditions inside ventricle(s) of the heart. Embodiments of the invention may utilize restrictive elements which may optionally be attached over the heart during the implantation procedure, or at a later time, by changing the mode of operation of an implanted device of the invention. | 02-20-2014 |
20140066689 | Integrated Controller For Ventricular Assist Device - An integrated control module is provided for a ventricular assist device. A housing receives a power monitoring/switching circuit, a main receptacle, and a quasi-internal backup receptacle. The main receptacle within the housing receives a main battery. The main receptacle is configured for manual installation and removal of the main battery without requiring any separate tool. The quasi-internal backup receptacle within the housing receives a backup battery having a battery capacity less than the main battery. The backup receptacle includes a locking mechanism that requires use of a separate tool to unlock the locking mechanism for removing the backup battery. The backup battery is installed and removed without disturbing power supplied from a main battery in the main receptacle to the power monitoring/switching circuit. | 03-06-2014 |
20140066690 | Start-up Algorithm for an Implantable Blood Pump - A system and a method for starting a rotor of an implantable blood pump are described. For example, a blood pump system includes a rotary motor having a stator and a rotor. The rotor has permanent magnetic poles for magnetic levitation of the rotor, and the stator has a plurality of pole pieces arranged circumferentially at intervals. The blood pump system includes a controller configured to control a start phase of the rotor, wherein the start phase is prior to the rotor being positioned in a predefined geometric volume for pumping blood and wherein the start phase includes performing a rotation of the rotor by an angle larger than an angle corresponding to a quarter of an angular distance between two neighboring magnetic poles of the rotor. | 03-06-2014 |
20140066691 | Instability Detection Algorithm for an Implantable Blood Pump - An instability detection algorithm for an implantable blood pump may include determining a target position of a rotor of the pump, the rotor having permanent magnetic poles for magnetic levitation of the rotor, calculating a positional displacement of the target position from a predefined origin of a coordinate system of a housing of the pump, and calculating, during a rotation of the rotor, geometric deviations of a current position of the rotor from the target position. | 03-06-2014 |
20140073837 | BLOOD FLOW SYSTEM WITH VARIABLE SPEED CONTROL - A fluid flow system for a patient is disclosed. A fluid drive module includes a fluid drive element, a housing, and a chamber located between the housing and the fluid drive element. A controller or control module modifies the speed of the fluid drive element during use, such as to prevent thrombus or otherwise improve flow conditions. Methods of alternating fluid flow are also provided. | 03-13-2014 |
20140073838 | Mobility-Enhancing Blood Pump System - A blood pump system includes a first implantable housing, an implantable blood pump independent from the first implantable housing, and a percutaneous extension. The first implantable housing includes a rechargeable power storage device. The implantable blood pump supplements the pumping function of a heart. The rechargeable power storage device supplies electrical power to the implantable blood pump. The percutaneous extension is coupled to the rechargeable power storage device and adapted to traverse the skin. The percutaneous extension is configured to releasably connect to an external power supply adapted to provide power for recharging or supplementing the rechargeable power storage device to power the implantable blood pump. | 03-13-2014 |
20140081074 | Percutaneous Right Ventricular Assist Apparatus and Method - A system for assisting the right heart of a patient includes a PA cannula adapted for insertion into a PA of a patient through the right internal jugular vein of the patient. The system includes a percutaneous RA cannula adapted for insertion into an RA of the patient. The system includes a blood pump disposed outside of the patient to which the RA cannula and the PA cannula are connected to provide right ventricular circulatory support to the patient without any left ventricular assist. A method for assisting the right heart of a patient includes the steps of inserting a PA cannula into a PA of a patient. There is the step of inserting an RA cannula into an RA of the patient. There is the step of connecting the RA cannula and the PA cannula to a blood pump disposed outside of the patient. There is the step of activating the blood pump to provide right ventricular circulatory support to assist the heart of the patient. | 03-20-2014 |
20140088339 | Method and System for Treatment of Cardiovascular Disorders - Methods for treating a cardiovascular disorder comprising concomitant administration of one or more extracellular matrix (ECM) based compositions directly to damaged or diseased cardiovascular tissue associated with the cardiovascular disorder, and provision of ventricular assistance. In a preferred embodiment, the ECM based compositions include an ECM material derived from a mammalian source. | 03-27-2014 |
20140094645 | Methods, Systems, and Devices Relating to a Removable Percutaneous Interface Line - The various embodiments disclosed herein relate to percutaneous interface lines and related methods for implanting such lines. Each percutaneous interface line has an internal component coupleable to a percutaneous component with an internal connector. The percutaneous component can have a Y-shaped end having two arms, one arm having a lumen and another arm having at least one wire. The methods for implanting a percutaneous interface line include the use of a tunneling tool having a flexible rod and a replaceable dilator tip. | 04-03-2014 |
20140100413 | SUCTION DETECTION ON AN AXIAL BLOOD PUMP USING BEMF DATA - The presence or absence of a suction condition in an implantable blood pump is determined at least in part based on a parameter related to flow, such as a parameter related to thrust on the rotor of the pump. A local extreme of the parameter representing the minimum flow during ventricular diastole in an earlier interval is used to establish a threshold value. A value of the parameter representing the minimum flow during ventricular diastole in a later interval is compared to this threshold. If the comparison indicates a substantial decline in the minimum flow between the earlier and later intervals is associated with a suction condition. During the absence of a suction condition, the threshold is continually updated, so that the system does not indicate presence of a suction condition if the flow decreases gradually. | 04-10-2014 |
20140100414 | VAD INTEGRATED FLOW SENSOR - A blood pump with an integrated flow sensor is provided. The blood pump may include an implantable pump for pumping blood having a housing, a flow path extending within the housing and at least one movable element within the housing for impelling blood along the flow path and a sensor for measuring the flow rate of blood through the pump. According to one embodiment, the sensor may be mounted to the housing of the pump. In accordance with a further embodiment, the housing may have an exterior surface defining a cavity, and the sensor may be located within the cavity. | 04-10-2014 |
20140107399 | DEVICES, SYSTEMS, AND METHODS FOR FACILITATING FLOW FROM THE HEART TO A BLOOD PUMP - An apparatus includes a tubular member defining a lumen and a channel, and a support member. The tubular member has a connection portion configured to be coupled to an organ wall. An outer edge of the connection portion is configured to contact a first portion of an inner surface of the wall when the connection portion is in an expanded configuration such that an interior volume of the organ is in fluid communication with the lumen. The support member is movably disposed within the channel and is configured to minimize movement of the wall relative to the tubular member. An end portion of the support member is disposed within the channel when the support member is in a first configuration. The end portion of the support member configured to contact a second portion of the inner surface of the wall when the support member is in a second configuration. | 04-17-2014 |
20140114118 | VENTRICULAR ASSIST DEVICE AND RELATED METHODS - A method and system are provided for percutaneously gaining access to oxygenated blood with one or more anastomosis devices and pumping such oxygenated blood directly to the aorta adjacent to the right atrium or left atrium via a VAD system. In one embodiment, a VAD system can be implanted with open surgery. | 04-24-2014 |
20140121448 | Pumping System and Method for Assisting a Patient's Heart - A cannula for a patient includes an elongate body having a length of at least 70 cm and a channel extending through the body defining a wall. The cannula includes a wire embodied within at least a portion of the wall. The body has a proximal end, a distal end having a tip opening through which the channel extends and a plurality of side holes through the wall in proximity to the tip for unimpeded flow of blood at the distal end. The cannula includes a barbed fitting at the proximal end. The cannula includes a suture wing for securing the elongated body to the patient. A system for assisting a patient's heart. A method for assisting a patient's heart. | 05-01-2014 |
20140128659 | SYSTEMS AND METHODS FOR FLUID FLOWS AND/OR PRESSURES FOR CIRCULATION AND PERFUSION ENHANCEMENT - Fluid pressure or flow in a human body may be adjusted with circulation or perfusion systems and methods. The system may include a first pump implantable in a chamber or vessel of the human body, and a plurality of struts connected to a housing of said first pump, wherein said struts secure the first pump in a desired location of said chamber or vessel. The system may also include one or more flow modification elements disposed on said first pump, where said flow modification elements direct flow to a desired organ or a desired vessel to adjust pressure or flow as desired. | 05-08-2014 |
20140128660 | HARD-WIRED IMPLANTED CONTROLLER SYSTEM - A circulatory assist system is disclosed, the system including an implantable electrical device having an electric motor, an implantable controller connected to the implantable electrical device, and an implantable power source connected to the controller for supplying power to the controller. The controller is attachable to a first side of a percutaneous connector. A second side of the percutaneous connector, opposite to the first side, allows external connectivity to said controller. | 05-08-2014 |
20140142366 | HEART HELP DEVICE, SYSTEM, AND METHOD - A medical device for assisting in the maintaining of an opening created in the thoracic diaphragm is provided. The medical device comprises a diaphragm contacting part adapted to be placed in contact with the thoracic diaphragm and thereby assist in the maintaining of the opening created in the thoracic diaphragm. A pericardial drainage device for draining a fluid from the pericardium of a patient is further provided. The drainage device comprises a conduit; the conduit comprises a first and second section. At least a portion of the first section is adapted to receive a fluid inside of the pericardium. The second section of the conduit is adapted to be positioned outside of the pericardium of a patient and enable the exhaust of said fluid received from said pericardium through at least a portion of said second section. | 05-22-2014 |
20140148638 | INTRAVASCULAR VENTRICULAR ASSIST DEVICE - One aspect of an intravascular ventricular assist device is an implantable blood pump where the pump includes a housing defining a bore having an axis, one or more rotors disposed within the bore, each rotor including a plurality of magnetic poles, and one or more stators surrounding the bore for providing a magnetic field within the bore to induce rotation of each of the one or more rotors. Another aspect of the invention includes methods of providing cardiac assistance to a mammalian subject as, for example, a human. Further aspects of the invention include rotor bodies having helical channels formed longitudinally along the length of the body of the rotor where each helical channel is formed between peripheral support surface areas facing radially outwardly and extending generally in circumferential directions around the rotational axis of the rotor. | 05-29-2014 |
20140155682 | APICAL RING FOR VENTRICULAR ASSIST DEVICE - An apical ring for coupling a conduit of a ventricular assist device to a heart has an annular disk with a central aperture for receiving the conduit. A collar is axially aligned with the central aperture and has a cylindrical shape interrupted by a gap between first and second ends of the collar. The collar has a fixed section joined to the annular disk and has a cantilever section extending from the fixed section to the first end of the collar. A tightener selectively drives the first end toward the second end to close the gap in order to retain the conduit within the collar. The cantilever section includes a relief slot that is expandable for extending a circumferential length of the cantilever section in response to interacting with the conduit when the gap is closed. | 06-05-2014 |
20140155683 | Cardiac Pump - The cardiac pump, which is suitable for implantation into a ventricle of a human heart, has a primary blood flow path through a housing, a rotatable pump member disposed within the housing for causing blood to flow along the primary flow path, the pump member being rotatably coupled to the housing about an upstream bearing and a downstream bearing. The pump member includes an impeller shroud defining a secondary flow path in fluid communication with the primary flow path. The downstream bearing comprises a rotational bearing member and a stationary bearing seat for the bearing member, there being a circumferential transition between the bearing seat and the bearing member, the circumferential transition being disposed in the secondary flow path and arranged to be washed by blood passing along the secondary flow path. | 06-05-2014 |
20140163307 | FLEXIBLE GALVANIC PRIMARY & NON GALVANIC SECONDARY COILS FOR WIRELESS COPLANAR ENERGY TRANSFER (CET) - Systems and methods of the invention generally involve a convertible power transfer system for supplying wireless energy to an implant. According to certain aspect, a system of the invention includes a convertible inductive coil and a receiver inductive coil. The convertible inductive coil may be disposed externally on a body of a patient and to inductively transmit electromagnetic power. The convertible inductive coil transitions between direct electromagnetic power transfer and passive electromagnetic power transfer. The receiver inductive coil can be implanted within the body and provides received electromagnetic power to the implant. The convertible inductive coil, during passive electromagnetic power transfer, couples to the receiver inductive coil such that the convertible inductive coil and receiver inductive coil operate together as single receiver inductive coil that receives inductively transferred electromagnetic power from a distant transmitter inductive coil. | 06-12-2014 |
20140171727 | BLOOD PUMP - A blood pump having an axially tubular inlet, a tangential chamber adjoining the axial inlet and having a substantially radial outlet, with an axial guide body connected to the outlet and/or to the tangential chamber, an impeller supported on the guide body and having an inner surface facing the guide body and an outer surface as well as blading arranged on the outer surface. At least one part region of the guide body projects from the tangential chamber into the inlet, wherein at least one section of the stator transmitting a force onto the rotor is arranged in the part region. The impeller is supported by a hydrodynamic radial bearing in the radial direction. | 06-19-2014 |
20140179983 | STABILIZING DRIVE FOR CONTACTLESS ROTARY BLOOD PUMP IMPELLER - A rotary blood pump includes a casing defining a pumping chamber. The pumping chamber has a blood inlet and a tangential blood outlet. One or more motor stators are provided outside of the pumping chamber. A rotatable impeller is within the pumping chamber and is adapted to cause blood entering the pumping chamber to move to the blood outlet. The impeller has one or more magnetic regions. The impeller is radially constrained in rotation by magnetic coupling to one or more motor stators and is axially constrained in rotation by one or more hydrodynamic thrust bearing surfaces on the impeller. | 06-26-2014 |
20140187852 | BLOOD PUMP - A blood pump includes a hollow body in which an impeller with blading is provided for producing an axial propulsion of blood along the impeller. An at least partly actively stabilised magnetic bearing device is provided wherein the impeller may be set into a rotation about a rotation axis of the impeller, with a motor stator. The hollow body has an inlet for the flow of blood into the hollow body in an inflow direction which is essentially parallel to the rotation axis, and an outlet for the outflow of the blood out of the hollow body in an outflow direction. | 07-03-2014 |
20140187853 | DEVICES, METHODS AND SYSTEMS FOR COUNTERPULSATION AND BLOOD FLOW CONDUIT CONNECTION - A blood flow conduit includes a first conduit portion defining a first portion of a lumen and blood flow path, and a second conduit portion defining a second portion of a lumen and blood flow path. The first portion of the lumen has a smoother surface for contacting the blood flow than the second portion of the lumen. A discontinuity such as a tip portion is positioned between the first and second portions of the lumen. | 07-03-2014 |
20140194669 | SUPPORTING A HEART - A heart support featuring a sheath sized to fit about at least a portion of an adult human heart in a living body and an expandable chamber disposed within the sheath so as to apply pressure against the heart when expanded. The expandable chamber is at least partially defined by a foldable chamber wall that folds with the chamber in a collapsed state, and unfolds as the chamber expands. | 07-10-2014 |
20140194670 | IMPLANTING CARDIAC DEVICES - A method of implanting a cardiac device featuring the insertion of an inner seal member through an opening in a pericardium about a living human heart. The inner seal member has a first sealing lip disposed inside the pericardium and surrounding an aperture through the inner seal member. An outer seal member is aligned with the inner seal member. The outer seal member has a second sealing lip disposed outside the pericardium, surrounding an aperture through the outer seal member. The inner seal member is secured to the outer seal member. The firsts sealing lip is engaged against an inner surface of the pericardium. The second sealing lip is engaged against an outer surface of the pericardium. A cardiac device is inserted into the pericardium through the apertures of the inner and outer seal members. | 07-10-2014 |
20140200389 | MOTOR FAULT MONITOR FOR IMPLANTABLE BLOOD PUMP - A implantable pump system comprises an implantable pump motor and an external unit. An inverter comprises respective phases couple to the motor via a cable with redundant conductors for each phase. A controller receives power measurements for all the redundant conductors, which are combined and compared in order to detect failures in the non-redundant components within the motor and windings. | 07-17-2014 |
20140200390 | BACKFLOW DETECTION FOR CENTRIFUGAL BLOOD PUMP - A centrifugal pump system for a cardiac assist device employs a disc-shaped impeller having an outer circumference adapted to be rotatably driven in a pumping direction. A pump housing has a pumping chamber receiving the impeller, wherein the pumping chamber defines an outlet volute having a separation edge spaced from the outer circumference to provide a limited backflow path coinciding with the pumping direction. A motor drives the impeller in response to a voltage provided to the motor. A current sensor measures current flow within the motor in response to the voltage. A controller estimates a pump flow rate in response to a predetermined relation between the measured current and the pump flow rate, wherein the predetermined relation includes a positive slope from a predetermined backflow rate to a zero pump flow rate. | 07-17-2014 |
20140200391 | METHOD AND APPARATUS FOR MONITORING AND OPTIMIZING BLOOD CIRCULATION GENERATED BY A PUMP - In a device for the automatic control of blood pumps, an optimization of the blood flow is achieved by periodic speed interventions and flow changes thereby occurring, using a formed differential variable and a control algorithm. In addition, the location of possible flow resistances on the venous or arterial side can be ascertained. | 07-17-2014 |
20140235930 | DRIVELINE CABLE ASSEMBLY - A blood pump assembly includes a blood pump configured for implantation and a cable assembly for providing power and control signals to the blood pump. The cable assembly includes a strain relief assembly and a driveline. The strain relief assembly secures the cable assembly to the blood pump and has an outer surface that is curved along a longitudinal extent of the strain relief assembly at least along an outer peripheral side of the outer surface. The strain relief assembly defines a compartment and an internal passage that leads to the compartment. The driveline houses a plurality of conductors that extend from the driveline through the internal passage and into the compartment. | 08-21-2014 |
20140249356 | Intelligent Nanomagnetic Cardiac Assist Device for a Failing Heart - The present invention is directed to a contractible and expandable jacket configured to encase at least a portion of a patient's heart. The jacket has a plurality of individual contractile cells with each of the cells having a first electrically conductive coil and a second electrically conductive coil spaced from the first coil. The first coil preferably defines at least in part a first periphery of an inner nucleus of the cell and the second coil preferably defining at least in part an outer portion of the cell spaced outwardly from the inner nucleus. When electrical current passes through the first and second coils in opposite directions, the cell contracts and when electrical current passes through the first and second coils in the same direction the cell expands. Each of the individual cells has conductive appendages for conducting information to and from the individual cells. | 09-04-2014 |
20140249357 | DEVICES, METHODS AND SYSTEMS FOR ESTABLISHING SUPPLEMENTAL BLOOD FLOW IN THE CIRCULATORY SYSTEM - A cannula for insertion through a biologic tissue. The cannula includes a shaft having proximal and distal end portions with a lumen therebetween. The cannula further includes a tip having a proximal end portion, a distal tip end, and a lumen therebetween. The proximal end portion of the tip is secured to the distal end portion of the shaft so that the lumen of the tip is in fluid communication with the lumen of the shaft. The tip includes an opening that extends proximally relative to the distal tip end to permit the flow of fluid into the lumen of the tip even in the event that the distal tip end becomes obstructed. | 09-04-2014 |
20140257018 | MALLEABLE CANNULA - A malleable cannula. The malleable cannula includes a polymeric jacket and a malleable member. The malleable member, being surrounded by the jacket, includes a proximal end, a distal end, and a lumen extending therebetween and along a lengthwise axis of the malleable cannula. The malleable member further includes a longitudinal strut that is parallel to the lengthwise axis and a plurality of transverse struts coupled to and extending laterally away from the longitudinal strut and at least a portion of the lumen. The malleable member is configured to assume and maintain a shape of the malleable cannula. | 09-11-2014 |
20140275720 | MEDICAL PRODUCT COMPRISING A FUNCTIONAL ELEMENT FOR THE INVASIVE USE IN A PATIENT' - So as to be able to determine the position of a functional element as precisely as possible during the invasive use of a blood pump in a patient's body without the use of imaging methods, the blood pump is connected to a main sensor which records signals of the patient's heart, which are compared to other electrophysiological heart signals recorded by several sensors distributed on the body surface so as to allow the position of the blood pump to be determined by way of linking. | 09-18-2014 |
20140275721 | Centrifugal Blood Pump With Partitioned Implantable Device - A centrifugal blood pump system has a self-contained pumping unit and a self-contained motor unit. A pump outlet extends radially from a pump housing of the pumping unit. A percutaneous cable passes through a radial exit from a motor housing of the motor unit. The motor housing has a substantially planar face configured to mate with a substantially planar face of the pump housing. The pumping unit and the motor unit are configured to latch together in a plurality of orientations, each orientation having the substantially planar faces mated and the outlet and radial exit at a different respective angular separation. The pumping unit and the motor unit are configured such that after the pumping unit is implanted, the motor unit can be unlatched and a replacement motor unit latched with the pumping unit at the plurality of orientations. | 09-18-2014 |
20140275722 | BLOOD PUMP ROTOR BEARINGS - A bearing assembly for use in a blood pump includes a first component that has a convex bearing surface and a first outer surface proximate the convex bearing surface. The bearing assembly includes a second component that a concave bearing surface and a second outer surface proximate the concave bearing surface, the concave bearing surface being configured to receive the convex bearing surface. A plurality of grooves are defined through the convex bearing surface and first outer surface or through the concave bearing surface and the second outer surface. | 09-18-2014 |
20140275723 | MAGNETICALLY LEVITATED AND DRIVEN BLOOD PUMP AND METHOD FOR USING THE SAME - A device for pumping blood, includes a housing having a distal end adapted to be coupled to a catheter, a proximal end having an outlet, and a tubular body extending between the distal and proximal ends along an axis. A rotor is rotatably disposed within the housing. A first magnetic bearing is operative to levitate the rotor along the axis within the housing. A second magnetic bearing controls a rotational frequency of the rotor. A third magnetic bearing controls a radial position of the rotor. | 09-18-2014 |
20140275724 | PERCUTANEOUS DUAL-LUMEN CANNULA FOR CAVOPULMONARY ASSIST DEVICE - A dual-lumen cannula for cavopulmonary assistance includes a body defining an infusing lumen and a draining lumen and a deployable barrier disposed on an exterior surface of the body. Deploying the barrier within a vascular lumen substantially occludes fluid flow therethrough other than in an intravascular zone defined by the deployed barrier. The deployable barrier includes a first deployable wall spaced apart from a second deployable wall. The infusing lumen includes outlets disposed such that on initiation of fluid flow through the infusing lumen, that fluid flow promotes deployment of the first and second deployable walls, which in embodiments are foldable membrane umbrellas or cones having at least one end thereof attached to the cannula body. Percutaneous dual-lumen cannula based cavopulmonary assist devices incorporating the dual lumen cannula and methods for using to support or remedy failing Fontan circulation are described. | 09-18-2014 |
20140275725 | FLUID HANDLING SYSTEM - Various embodiments of a fluid handling system are disclosed herein. For example, the fluid handling system can include a catheter assembly and a console configured to control the operation of the catheter assembly. A removable interface member can be configured to provide fluid and electrical communication between the catheter assembly and the console. | 09-18-2014 |
20140275726 | CATHETER PUMP ASSEMBLY INCLUDING A STATOR - A catheter pump assembly is provided that includes a proximal a distal portion, a catheter body, an impeller, and a flow modifying structure. The catheter body has a lumen that extends along a longitudinal axis between the proximal and distal portions. The impeller is disposed at the distal portion. The impeller includes a blade with a trailing edge. The flow modifying structure is disposed downstream of the impeller. The flow modifying structure has a plurality of blades having a leading edge substantially parallel to and in close proximity to the trailing edge of the blade of the impeller and an expanse extending downstream from the leading edge. In some embodiments, the expanse has a first region with higher curvature and a second region with lower curvature. The first region is between the leading edge and the second region. | 09-18-2014 |
20140288352 | PERCUTANEOUS CABLE WITH REDUNDANT CONDUCTORS FOR IMPLANTABLE BLOOD PUMP - A blood pump system for left ventricle assist has an implantable pump unit having a multiphase stator having a plurality of windings connected between respective junctions for forming first, second, and third phases. An external control unit comprises an H-bridge inverter having first, second, and third phase legs. A percutaneous cable is provided having first, second, and third parallel pairs of redundant conductors. Each conductor pair is connected between a respective phase leg and a respective junction. The conductors are arranged concentrically around a cable core so that individual conductors of each pair are separated by at least one conductor of a different conductor pair. | 09-25-2014 |
20140288353 | VENTRICULAR ASSIST DEVICE SLEEVE ADAPTER - A sleeve adapter for connecting a ventricular assist device to a ventricle of the heart. | 09-25-2014 |
20140288354 | FLUID TRANSPORT APPARATUS - Apparatus for transporting fluid within a biological subject, the apparatus including an at least partially compliant section, so that the compliant section at least partially controls the flow of fluid therethrough. The compliant section may also be used in conjunction with a heart pump for the purpose of at least partially controlling the flow of blood through the heart pump. | 09-25-2014 |
20140288355 | CONNECTING ELEMENT FOR MOUNTING A BLOOD PUMP OR A CANNULA ON A HEART - A connecting element for connecting a blood pump or a cannula to a heart, the connecting element including a sealing element, which is designed to at least temporarily close an opening formed in the cardiac wall and to be opened via insertion of a preferably cylindrical object in the direction of an axis of the opening. | 09-25-2014 |
20140296613 | HEART HELP DEVICE, SYSTEM AND METHOD - The present invention relates to an implantable device for improving the pump function of the heart of a human patient by applying an external force on the heart muscle, said device comprising at least one pump device comprising: a first part having a first surface, and a second part having a second surface. The first part is displaceable in relation to the second part and said first and second surfaces abut each other, at least partially. The second part exerts, directly or indirectly, force on an external part of said heart muscle. | 10-02-2014 |
20140296614 | PORTABLE CONTROLLER WITH INTEGRAL POWER SOURCE FOR MECHANICAL CIRCULATION SUPPORT SYSTEMS - A portable external device for a mechanical circulation support system includes first and second power sources, e.g. batteries and control electronics for redundant uninterrupted operation of an implantable blood pump. The control and power source module may be configured to accommodate a variety of wearable configurations for patient convenience and comfort. | 10-02-2014 |
20140303426 | IMPLANTABLE BLOOD PUMP, BLOOD PUMP SYSTEM, AND METHOD FOR DATA TRANSFER IN A BLOOD PUMP SYSTEM - An implantable blood pump, a blood pump system, and a method for data transfer in a blood pump system. By integrating the electronic components into the blood pump, they are located in the direct vicinity of corresponding component parts. An accumulation of heat is prevented by arranging the electronics on blood-guiding components of the blood pump, in particular on the cannula. This results in efficient cooling of the electronic components. | 10-09-2014 |
20140303427 | BLOOD FLOW SYSTEM WITH OPERATOR ATTACHABLE COMPONENTS - A system for pumping blood in a patient comprises multiple components including a rotational drive assembly; a fluid drive element; a housing, an inflow cannula assembly and an outflow graft assembly. The inflow cannula assembly comprises an inflow conduit and an inflow connector. The outlet graft assembly comprises an outflow conduit and an outflow connector. The housing surrounds the fluid drive element and comprises an inflow port and an outflow port. The inflow conduit comprises a first end operably attachable to the inflow port and a second end fluidly connectable to a source of oxygenated blood. The outflow conduit comprises a first end operably attachable to the outflow port and a second end fluidly connectable to a blood vessel. The inflow connector operably connects the inflow conduit to the inflow port. The outflow connector operably connects the outflow conduit to the outflow port. | 10-09-2014 |
20140309481 | ROTARY PUMP WITH LEVITATED IMPELLER HAVING THRUST BEARING FOR IMPROVED STARTUP - A rotary blood pump comprises an impeller in a pump housing with a pumping chamber between first and second walls. The impeller operates in a levitated position spaced from the first and second walls in response to hydrodynamic forces which are boosted by hydrodynamic bearing features in the walls. At least one of the impeller or the walls includes at least one mechanical thrust bearing extending between the impeller and each of the walls, wherein the mechanical thrust bearing is configured such that when the impeller is not being held in the levitated position by the hydrodynamic forces then the mechanical thrust bearing is engaged to maintain a predetermined separation between the hydrodynamic bearing features and the impeller. The mechanical thrust bearing is configured such that when the impeller is being held in the levitated position by the hydrodynamic forces then the mechanical thrust bearing is unengaged. | 10-16-2014 |
20140316189 | GRAFT FOR USE WITH COUNTERPULSATION DEVICE - An apparatus is disclosed for attaching a counter pulsation device (CPD) to a blood vessel in a human or animal subject, the apparatus including: an interposition graft having a first end configured to be attached to the blood vessel, a second end, and an interior passage providing fluid connection between the first end and the second end; and a pump graft having first end attached to the second end of the interposition graft, a second end configured to be attached to the CPD, and an interior passage providing fluid connection between the first end and the second end In some embodiments, the interior passage of the interposition graft includes a rough surface configured to promote biological growth on the surface, and the interior passage of the pump graft includes a smooth surface configured to inhibit biological growth on the surface. | 10-23-2014 |
20140330069 | SYSTEMS AND METHODS FOR MAKING AND USING PERCUTANEOUSLY- DELIVERED PUMPING SYSTEMS FOR PROVIDING HEMODYNAMIC SUPPORT - A percutaneous pumping system for providing hemodynamic support to a patient includes a pumping sleeve that defines a lumen extending along the length of the pumping sleeve. The pumping sleeve is configured and arranged for insertion into patient vasculature. At least one rotatable magnet is disposed in the pumping sleeve. The at least one first magnet is configured and arranged to be driven to rotate by a magnetic field generated external to the pumping sleeve. At least one impeller is coupled to the at least one magnet. Rotation of the at least one magnet causes a corresponding rotation of the at least one impeller. An anchoring arrangement is coupled to the pumping sleeve. The anchoring arrangement is configured and arranged to anchor the pumping sleeve at a target pumping location when the pumping sleeve is inserted into patient vasculature. | 11-06-2014 |
20140336444 | System and Method for Heart Pump Interrogation and Inspection - The present invention relates to systems and methods for in situ inspection, interrogation, and maintenance of heart pump function in subjects with an implanted heart pump. In certain embodiments, the system comprises a catheter assembly deliverable to the inflow port and outflow port of the implanted heart pump. The system comprises additional components used to examine pump function and prevent malfunction. In certain embodiments, the invention allows for temporary, mid-term, or permanent exclusion of the implanted heart pump from cardiac function without surgically removing the pump. | 11-13-2014 |
20140336445 | TRANSSEPTAL CANNULA, TIP, DELIVERY SYSTEM, AND METHOD - A cannula assembly, further comprising a cannula body for directing blood from the heart of a patient, having distal and proximal ends and a lumen therebetween. A tip coupled to the distal end of the body, the tip having an opening. A pump for drawing blood into the cannula assembly and dispensing the blood from the cannula assembly and into the patient circulatory system. The lumen of the cannula body further comprises a first inner diameter at the proximal end and a second inner diameter at the distal end, the first inner diameter being larger than the second inner diameter. A tapered portion defined as a decrease in inner diameter from the first inner diameter to the second inner diameter between the proximal and distal ends, the tapered portion configured to prevent cavitation of the blood within the cannula. | 11-13-2014 |
20140336446 | CAVOPULMONARY VISCOUS IMPELLER ASSIST DEVICE AND METHOD - A bearingless and sealless rotary blood pump is disclosed which provides multidirectional flow intended to provide low-pressure, high-volume right-sided partial assist circulatory support in a univentricular Fontan circulation on a permanent basis. The pump includes a housing and an impeller suspended in the center of the housing. The housing incorporates flow optimization features between inlet and outlet ends, as well as with the impeller surface. Large fluid gaps maintained between impeller and housing eliminate any potential for blood flow obstruction. The impeller contains some motor components. It includes a central stator and surrounding rotor. The motor includes a brushless DC outrunner electrical motor design. An electromagnetic stator core is surrounded by a circumferential passive magnetic ring. The rotor is further levitated about the stator spindle by a plurality of axially and radially located passive magnetic and hydrodynamic journal bearings on both ends of the spindle. The rotor is bearingless and sealless. During impeller rotation, blood entering the space between the rotor and stator is induced to flow by centrifugal pumping action and the fluid film separates the stator hydrodynamic bearings from the rotor so that there is no direct mechanical contact between the rotor and stator. | 11-13-2014 |
20140350328 | CATHETER TO ASSIST THE PERFORMANCE OF A HEART - In a catheter ( | 11-27-2014 |
20140364680 | RIGID BODY AORTIC BLOOD PUMP IMPLANT - An implantable aortic blood pump includes a rigid body having wall extending along a long axis and defining an inflation port portion with an inflation aperture therethrough. The aperture is fluid communication with an inner surface of the body and on a fluid supply, the body is preferably independent of an external brace or an external stiffener, yet still has a cantilevered deformation of less than 8 millimeters in response to a 200 gram weight suspended from a front body edge. A deflecting structure of a membrane deflects in response to fluid pressure so as to pump blood when the pump is secured to a subject aorta. | 12-11-2014 |
20140371517 | VENTRICULAR ASSIST DEVICE FOR INTRAVENTRICULAR PLACEMENT - The present invention includes various devices and methods for ventricular assist. In one embodiment, the present invention is a ventricular assist device for intraventricular placement inside a heart of a mammalian subject, the device including a ring configured to be mounted adjacent an apex of the patient's heart; a rigid elongate member having a proximal and distal end; and a pump having a housing and an outflow cannula having a tip, the tip having a distal end projecting through an aortic valve of the subject's heart, wherein the ring and the pump are connected to the rigid elongate member remote from one another so that the rigid elongate member maintains the pump in position relative to the ring. | 12-18-2014 |
20140371518 | CONDUIT DEVICE AND SYSTEM FOR IMPLANTING A CONDUIT DEVICE IN A TISSUE WALL - Various embodiments of the present invention provide a conduit device including an attaching device configured for defining a helical pathway through a tissue wall and complementary ring in cooperation for securing the device within an aperture defined in the tissue wall. Some embodiments of the present invention further provide a system for implanting a conduit device in a tissue wall. More specifically, some embodiments provide a system including a coring device for defining an aperture in a tissue by removing and retaining a tissue core and securely implanting a conduit device therein so as to provide fluid communication between a first and second surface of the tissue wall via the conduit device. | 12-18-2014 |
20140378742 | TRANSCUTANEOUS POWER TRANSMISSION AND COMMUNICATION FOR IMPLANTED HEART ASSIST AND OTHER DEVICES - A system includes an implantable pump system for assisting blood flow in a patient including at least one movable valve. The movable valve is in a normally open state when the moveable valve is not being powered and a drive system in operative connection with the moveable valve to move the moveable valve under power. The system further includes an energy transfer system to provide energy to the drive system. The energy transfer system includes an external system including a power source and an external coil and an internal system including an internal coil adapted to receive transcutaneous energy transmitted from the external coil. The internal system has at least a first state wherein energy transmission from the external coil is required to provide operational power to the drive system. | 12-25-2014 |
20140378743 | Method And System For Powering Implantable Devices - A ventricular assist device (VAD) system includes one or more external subsystems including an amplifier energizing a drive loop with alternating current, and a Tx resonator inductively coupled to the drive loop. An implanted subsystem includes a VAD, an Rx resonator that forms a magnetically coupled resonator with the Tx resonator, and a load loop for providing power to the VAD that is inductively coupled to the Rx resonator. A sensor monitors the drive loop and a controller uses the sensor data to adjust a system parameter to optimize energy transfer performance. Distributing a plurality of the external subsystems throughout a defined space provides a patient with freedom of movement within the defined space. | 12-25-2014 |
20150011819 | NEEDLE GUARD, ASSEMBLY AND METHOD OF IMPLANTING A HEART ASSIST SYSTEM - A needle guard is used when suturing the cuff of an attachment ring to the heart. The needle guard is disposed in the attachment ring to prevent other parts of the attachment ring from being punctured by a suturing needle. The needle guard can include one or more grooves to inhibit relative movement between the needle guard and the attachment ring during suturing. The needle guard is removed upon completion of suturing and to allow insertion into attachment ring of an inflow conduit of a heart assist device. An articulated clamp is used to compress the attachment ring into engagement with the inflow conduit. The attachment include an annular rib that grabs the inflow conduit. | 01-08-2015 |
20150018600 | ENDOVASCULAR VENTRICULAR ASSIST DEVICE, USING THE MATHEMATICAL OBJECTIVE & PRINCIPAL OF SUPERPOSITION - This embodiment suggests new approach for Endovascular Ventricular Assist Device, using the mathematical objective & principle of superposition allow design and calculation of the body response to VAD pump located in the Aorta. This new approach allows minimal invasive Endovascular VAD that result in similar relief to the heart as partial VAD. Using special power transfer technique will allow wireless power transformation into the aorta. This methods and technique should dramatic reduce VAD barrier | 01-15-2015 |
20150031936 | AXIAL FLOW PUMP WITH MULTI-GROOVED ROTOR - An axial-flow blood pump for pumping blood includes a substantially cylindrical outer enclosure. A tubular housing concentric with and located within the outer enclosure has at one end an inlet and at an opposite end an outlet. A motor stator is concentric with and located between the outer enclosure and the tubular housing. An impeller is concentric with and located within the tubular housing. The impeller is suspended in operation by a combination of passive magnetic forces between magnets within the impeller or magnetized regions of the impeller and the motor stator and hydrodynamic thrust forces generated as blood flows between the tubular housing and a plurality of hydrodynamic thrust bearing surfaces located on the impeller. A volute may be in fluid-tight connection with the outlet of the tubular housing for receiving blood in the axial direction and directing blood in a direction normal to the axial direction. The volute has a flow-improving member extending axially from the volute and into and coaxially with the tubular housing. | 01-29-2015 |
20150031937 | Modular Driveline - A modular driveline includes a modular portion including a cable and a connector, the cable having terminations, and a percutaneous portion including a cable and a connector, the cable having terminations. The percutaneous portion connector couples to the modular portion connector, and cable terminations at the connectors are captured in the connectors by potting. The cable can include an inner member, conductors disposed about the inner member, a covering about the conductors, a layer extruded onto the covering, an armor braid over the extruded layer, and an outer jacket extruded over the armor braid. | 01-29-2015 |
20150031938 | IMPLANTABLE MEDICAL DEVICES - An active implantable medical device comprising a therapeutic device, a controller and at least one rechargeable battery, wherein a single hermetically sealed housing encapsulates a therapeutic device, controller and rechargeable battery. A hermetically sealed housing additionally encapsulates a wireless interface and a commutator. | 01-29-2015 |
20150038769 | AXIAL FLOW PUMP WITH MULTI-GROOVED ROTOR - An axial-flow blood pump for pumping blood includes a substantially cylindrical outer enclosure. A tubular housing concentric with and located within the outer enclosure has at one end an inlet and at an opposite end an outlet. A motor stator is concentric with and located between the outer enclosure and the tubular housing. An impeller is concentric with and located within the tubular housing. The impeller is suspended in operation by a combination of passive magnetic forces between magnets within the impeller or magnetized regions of the impeller and the motor stator and hydrodynamic thrust forces generated as blood flows between the tubular housing and a plurality of hydrodynamic thrust bearing surfaces located on the impeller. A volute may be in fluid-tight connection with the outlet of the tubular housing for receiving blood in the axial direction and directing blood in a direction normal to the axial direction. The volute has a flow-improving member extending axially from the volute and into and coaxially with the tubular housing. | 02-05-2015 |
20150038770 | WIRE SCAFFOLD DEVICE FOR VENTRICULAR ASSIST DEVICE - A ventricular assist system includes a ventricular assist device (“VAD”) and an expandable stent. The VAD may include a pump and an inlet element defining an inlet opening communicating with the pump, the inlet element being adapted for positioning with the inlet opening disposed within a ventricle of a heart when the system is in an operative condition. The expandable stent may be adapted for positioning within the ventricle when the system is in the operative condition. The pump may be operated to draw blood from the ventricle and return the blood to the artery, and a wall of the ventricle may be held away from the inlet opening with the stent. The stent may be passed through a channel in the ventricular assist device while the stent is in a collapsed condition. | 02-05-2015 |
20150038771 | IMPLANTABLE SYSTEM WITH SECURE REMOTE CONTROL - A fluid flow system for a patient comprises a controller and an implantable pump assembly. The controller comprises a processing unit and a battery. The processing unit includes a signal generator and one or more pump operational parameters. The signal generator provides a drive signal. The battery provides power to the processing unit. The implantable pump assembly receives the drive signal from the processing unit and propels fluid based on the drive signal. The system includes a local communication device and a remote communication device that each include a unique identifier produced by a security key generator. The remote communication device includes a code generator that produces encrypted commands. The local communication device receives the encrypted commands and modifies a pump operational parameter of the processing unit based on the received encrypted command. | 02-05-2015 |
20150051435 | INTRAVASCULAR BLOOD PUMP - A foldable, intravascularly insertable blood pump ( | 02-19-2015 |
20150051436 | INTRAVASCULAR BLOOD PUMP - An intravascular blood pump having a drive section ( | 02-19-2015 |
20150051437 | VENTRICULAR ASSIST SYSTEM - A ventricular assist system includes: a ventricular assist blood pump provided with a rotational part having an impeller and a housing which houses the rotational part therein; an introduction-side artificial vessel which introduces a liquid into the ventricular assist blood pump; and a delivery-side artificial vessel which delivers the liquid from the ventricular assist system. In the ventricular assist system, a difference between a maximum flow rate and a minimum flow rate of a liquid in a state where the ventricular assist system is connected to a liquid-discharge source which discharges the liquid while increasing and decreasing the flow rate of the liquid at a fixed cycle is 40% or more of a difference between the maximum flow rate and the minimum flow rate of the liquid in a state where the ventricular assist system is not connected to the liquid-discharge source. | 02-19-2015 |
20150051438 | IMPELLER FOR AXIAL FLOW PUMP - A rotor for an axial-flow blood pump has blades projecting outwardly from a hub and channels between the blades. The blades incorporate hydrodynamic bearing surfaces capable of suspending the rotor during operation. The rotor has a configuration which provides superior pumping action and reduced shear of blood passing through the pump. The forwardly facing pressure surfaces of the blades may include outflow corner surface at their downstream ends. The outflow corner surfaces desirably slope rearwardly and intersect the rearwardly-facing suction surfaces of the blades at outflow ends of the blades. | 02-19-2015 |
20150065785 | PASS-THROUGH ASSEMBLY - A pass-through assembly including a first wall having oppositely-directed inner and outer sides, the first wall defining a first opening extending from the inner side to the outer side; an elongated structure extending into the opening from the outer side of the first wall; a first material contacting the first wall and the elongated structure so as to at least partially seal the opening, and a second material different from the first material, the second material overlying the first material on the outer side of the wall, the second material adhering to the elongated structure and the first wall, the second material having at least one physical property different than a corresponding physical property of the first material. | 03-05-2015 |
20150073202 | GUIDABLE INTRAVASCULAR BLOOD PUMP AND RELATED METHODS - An improved intravascular blood pump and related methods involving the broad inventive concept of equipping the intravascular blood pump with guiding features such that the intravascular blood pump can be selectively positioned at a predetermined location within the circulatory system of a patient. | 03-12-2015 |
20150080639 | HIGH POWER ULTRASOUND WIRELESS TRANSCUTANEOUS ENERGY TRANSFER (US-TET) SOURCE - A bio-implantable energy capture and storage assembly is provided. The assembly includes an acoustic energy transmitter and an acoustic energy receiver. The acoustic energy receiver also functions as an energy converter for converting acoustic energy to electrical energy. An electrical energy storage device is connected to the energy converter, and is contained within a bio-compatible implant for implantation into tissue. The acoustic energy transmitter is separate from the implant, and comprises a substantially 2-dimensional array of transmitters. The acoustic energy converter may also provide conditioned power directly to a load, connected to said energy converter. | 03-19-2015 |
20150087889 | BLOOD PUMP - A centrifugal blood pump for circulating blood is provided, wherein an impeller makes no contact at all with a housing and a rotating shaft and moves in a rotating manner with the impeller in a stably levitating state. Also provided is a blood pump in which the impeller rotates at high speed even when the blood pump is reduced in scale. The blood pump contains a magnet of enhanced magnetic force at the inside of a housing and at an outer peripheral surface of an impeller and providing a fixed-interval spacing on the periphery of a bearing section makes it possible to ensure a state where no contact at all is made between the housing, a shaft, and the impeller, and makes it possible to cause the impeller to rotate stably over a long period of time. | 03-26-2015 |
20150087890 | CATHETER SYSTEM AND INTRAVASCULAR BLOOD PUMP COMPRISING SAID CATHETER SYSTEM - A catheter ( | 03-26-2015 |
20150099922 | IMPELLER FOR CATHETER PUMP - An impeller for a pump is disclosed herein. The impeller can include a hub having a fixed end and a free end. The impeller can also have a plurality of blades supported by the hub. Each blade can have a fixed end coupled to the hub and a free end. The impeller can have a stored configuration and a deployed configuration, the blades in the deployed configuration extending away from the hub, and the blades in the stored configuration being compressed against the hub. | 04-09-2015 |
20150099923 | Percutaneous Right Ventricular Assist Apparatus and Method - A system for assisting the right heart of a patient includes a PA cannula adapted for insertion into a PA of a patient through the right internal jugular vein of the patient. The system includes a percutaneous RA cannula adapted for insertion into an RA of the patient. The system includes a blood pump disposed outside of the patient to which the RA cannula and the PA cannula are connected to provide right ventricular circulatory support to the patient without any left ventricular assist. A method for assisting the right heart of a patient includes the steps of inserting a PA cannula into a PA of a patient. There is the step of inserting an RA cannula into an RA of the patient. There is the step of connecting the RA cannula and the PA cannula to a blood pump disposed outside of the patient. There is the step of activating the blood pump to provide right ventricular circulatory support to assist the heart of the patient. | 04-09-2015 |
20150112119 | Blood Pump - A blood pump | 04-23-2015 |
20150112120 | ANCHORED MOUNTING RING - A mounting ring for a ventricular assist device or other device used in the heart includes a plate adapted to be secured to the exterior of the heart by rigid anchors such as hook, pin, or screw. When hooks are used, they can be pivotally mounted to the plate so that the hooks can rotate from retracted positions to advanced positions. A tool can be included in a mounting ring kit to move the hooks from their retracted positions to their advanced positions so that the hooks secure the plate to the heart. Preferably, all of the hooks are advanced simultaneously. The VAD or other device is then secured to the plate. The plate can be mounted to the heart in less time than required to install a traditional mounting ring by suturing to the heart. | 04-23-2015 |
20150119633 | INTRAVASCULAR DEVICE ATTACHMENT SYSTEM HAVING BIOLOGICAL MATERIAL - A method of attaching an intravascular device to a vessel wall of a body vessel is disclosed. The attachment system includes an intravascular device and biological attachment material connected to the intravascular device. The biological attachment material is configured to attach the intravascular device to the vessel wall. | 04-30-2015 |
20150133719 | MODULAR IMPLANTABLE MEDICAL PUMP - An implantable medical pump system can include a blood pump comprising a pump housing defining a passage therethrough and a rotor within the passage. The blood pump further includes one or more elements at least partially contained within the housing adapted to actuate the rotor to drive fluid though the passage. The pump housing includes at least one coupling feature. The system further includes an inflow cannula defining a lumen therethrough. The inflow cannula is adapted to be mechanically coupled to the at least one coupling feature. | 05-14-2015 |
20150133720 | BIFURCATED OUTFLOW CANNULAE - A bifurcated cannula for directing blood into the arterial system. The bifurcated cannula including an ingress channel and first and second egress channels. The first egress channel directs a first portion of the blood entering the bifurcated cannula into the arterial system in a first direction. The second egress channel directs a second portion of the blood entering the bifurcated cannula into the arterial system in a direction that opposes the first direction. | 05-14-2015 |
20150141738 | SHEATH DEVICE FOR INSERTING A CATHETER - A sheath device for inserting a catheter into a patient's body is described. The device has a first sheath with a proximal end and a distal end. When the device is used as intended, the distal end of the first sheath is provided for arrangement in the patient's body and the proximal end of the first sheath is provided for arrangement outside the patient's body. The first sheath comprises a tubular section and a sheath housing, which is disposed at the proximal end of the section and has a receiving channel for a strand-shaped body. The device solves the problem of reliably fixing a second sheath or a catheter with respect to the first sheath by providing a clamping element on the receiving channel for fixing a strand-shaped body in the receiving channel by way of clamping. | 05-21-2015 |
20150141739 | AXIAL-FLOW BLOOD PUMP - The invention relates to an axial flow blood pump device comprising an integrated electromagnetic drive with a stationary stator assembly and a rotatable impeller assembly, wherein the stationary stator assembly at least comprises stator windings ( | 05-21-2015 |
20150148587 | Generating Artificial Pulse - In order to produce a pulsatile blood flow pattern that includes time periods of relatively high blood flow rates and time periods of relatively low blood flow rates, the operating speed of a blood pump can be selectively controlled to produce an operating speed pattern that includes time periods of relatively high rotation speeds and periods of relatively low rotation speeds. For example, the blood pump is rotated at a first speed for a first period of time. The speed of the blood pump is then decreased from the first speed to a second speed and is operated at the second speed for a second amount of time. The speed of the blood pump is then decreased to a third speed for a third amount of time. If desired, the operating speed pattern can be repeated to continue the pulsatile blood flow pattern. | 05-28-2015 |
20150290370 | APPARATUS AND METHOD FOR FORMING A HOLE IN A HOLLOW ORGAN, CONNECTING A CONDUIT TO THE HOLLOW ORGAN AND CONNECTING A LEFT VENTRICULAR ASSIST DEVICE (LVAD) TO THE HOLLOW ORGAN - Apparatus for attaching a left ventricular assist device (LVAD) to a heart, the apparatus comprising: a connector conduit comprising: a distal end, a proximal end and a lumen extending between the distal end and the proximal end, wherein the distal end is configured to be inserted into a wall of the heart, and the proximal end is configured to receive the LVAD, whereby hemostasis is maintained during insertion of the connector conduit into the wall of the heart and during insertion of the LVAD into the proximal end of the connector conduit. | 10-15-2015 |
20150290376 | METHODS AND SYSTEMS FOR UPGRADING VENTRICLE ASSIST DEVICES - Methods, systems, and devices for an updatable blood pump are disclosed herein. The blood pump can be part of a mechanical circulatory support system that can include a system controller and the blood pump. The blood pump can include a rotary motor and a control unit that can communicate with the system controller. The system controller can initiate the update process and can provide the update to the blood pump. Upon initiation of the update process, the control unit can stop the rotary motor. While the rotary motor is stopped, the blood pump can be updated. At the completion of the update, the rotary pump can be restarted. | 10-15-2015 |
20150290379 | TRANSCUTANEOUS ENERGY TRANSFER SYSTEMS - The present disclosure relates to an improved transcutaneous energy transfer (TET) system that generates and wirelessly transmits a sufficient amount of energy to power one or more implanted devices, including a heart pump, while maintaining the system's efficiency, safety, and overall convenience of use. The disclosure further relates one or more methods of operation for the improved system. | 10-15-2015 |
20150297812 | VENTRICULAR ASSIST BLOOD PUMP - A ventricular assist blood pump of the present invention includes: a rotational part having an impeller; and a housing which houses the rotational part therein. In the ventricular assist blood pump, a difference between a maximum flow rate and a minimum flow rate of a liquid in a state where the ventricular assist blood pump is connected to a liquid-discharge source which discharges the liquid while increasing and decreasing the flow rate of the liquid at a fixed cycle is 40% or more of a difference between the maximum flow rate and the minimum flow rate of the liquid in a state where the ventricular assist blood pump is not connected to the liquid-discharge source. A ventricular assist blood pump of the present invention can suppress the degree at which the health of a user deteriorates during long-term use compared to a conventional ventricular assist blood pump. | 10-22-2015 |
20150305727 | KITS AND METHODS FOR VISUALIZING A CARDIAC CHAMBER FOR CONNECTION TO A MECHANICAL CIRCULATORY SUPPORT DEVICE - Systems, kits, and methods that provide direct visualization of a patient's surgical field and intracardiac structures during implantation of a mechanical circulatory support device. Kits and methods can provide for seamless implantation of such devices, which reduces the risks and time associated with mechanical circulatory support device implantation. Further, methods are provided that can avoid cardiopulmonary bypass. | 10-29-2015 |
20150306291 | Percutaneous Device and Method for Promoting Movement of a Bodily Fluid - The present invention provides a minimally-invasive percutaneous device that can be positioned within the body of a subject to aid in the movement or pumping of a bodily fluid. In one embodiment, the device comprises a plurality of pump units configured to transform from a first compressed configuration where the pump units are organized in a serial arrangement into a second expanded configuration where the pump units are reorganized into a parallel arrangement. | 10-29-2015 |
20150314059 | EXTRACORPOREAL AMBULATOR ASSIST LUNG - A extracorporeal system for lung assist includes a housing, a blood flow inlet in fluid connection with the housing; a blood flow outlet in fluid connection with the housing; a plurality of hollow gas permeable fibers adapted to permit diffusion of gas between blood and an interior of the hollow gas permeable fibers, the plurality of hollow gas permeable fibers being positioned between the blood flow inlet and the blood flow outlet such that blood flows around the plurality of hollow gas permeable fibers when flowing from the blood flow inlet to the blood flow outlet; a gas inlet in fluid connection with the housing and in fluid connection with inlets of the plurality of hollow gas permeable fibers; a gas outlet in fluid connection with the housing and in fluid connection with outlets of the plurality of hollow gas permeable fibers; and at least one moving element to create velocity fields in blood flow contacting the plurality of hollow gas permeable fibers. The plurality of hollow gas permeable fibers may extend generally perpendicular to the direction of bulk flow of blood through the housing. | 11-05-2015 |
20150328382 | CANNULA ASSEMBLY - Cannula assemblies and methods of manufacturing cannula assemblies are provided. The cannula assembly includes a cannula and a pigtail extension coupled to the cannula. The pigtail extension includes a proximal section having a first stiffness and a distal section having a second stiffness, the first stiffness greater than the second stiffness. The proximal section of the pigtail extension is positioned between the cannula and at least a portion of the distal section. | 11-19-2015 |
20150328383 | BLOOD PUMP HOUSING COMPONENT - Blood pump assemblies and methods of manufacturing and operating blood pump assemblies are provided. The blood pump assembly includes a pump and an impeller blade rotatably coupled to the pump. The blood pump assembly also includes a pump housing component sized for passage through a body lumen and coupled to the pump. The pump housing component includes a peripheral wall extending about a rotation axis of the impeller blade. The peripheral wall includes an inner peripheral wall surface and an outer peripheral wall surface. The peripheral wall also includes one or more blood exhaust apertures. Each blood exhaust aperture in the one or more blood exhaust apertures is defined by an inner aperture edge and an outer aperture edge. Each inner aperture edge is chamfered between the inner peripheral wall surface and the outer peripheral wall surface. | 11-19-2015 |
20150328390 | Pumping System and Method for Assisting a Patient's Heart - A cannula for a patient includes an elongate body having a length of at least 70 cm and a channel extending through the body defining a wall. The cannula includes a wire embodied within at least a portion of the wall. The body has a proximal end, a distal end having a tip opening through which the channel extends and a plurality of side holes through the wall in proximity to the tip for unimpeded flow of blood at the distal end. The cannula includes a barbed fitting at the proximal end. The cannula includes a suture wing for securing the elongated body to the patient. A system for assisting a patient's heart. A method for assisting a patient's heart. | 11-19-2015 |
20150335801 | HEART ASSIST SYSTEM AND METHODS - A system for drawing blood from a heart of a patient, includes a blood pump, an outflow cannula and a flexible cannula assembly. The cannula assembly further includes a flexible cannula body including a proximal end, a distal end, an inner wall defining a lumen, and an outer wall. A tip is coupled with the distal end of the cannula body, and an anchor is coupled to the tip. The anchor is configured to engage an internal structure of the heart and resists movement of the cannula assembly in at least one direction along the flexible cannula body. A ring member is configured to be coupled to the heart wall and is positioned at least partially around the outer wall of the cannula body proximally relative to the tip. The ring member is further configured to provide hemostasis between the heart wall and the cannula body. | 11-26-2015 |
20150335802 | VENTRICULAR CUFF - In one general aspect, an implant includes a cuff defining an opening configured to receive a cannula coupled to a heart pump. The implant includes a coupling mechanism having a first position and a second position, the cuff being uncoupled from the cannula in the first position and the coupling mechanism coupling the cuff to the cannula in the second position. The implant includes a locking mechanism configured to secure the coupling mechanism in the second position, and the locking mechanism is configured to be moved to a locked position after the coupling mechanism is in the second position. | 11-26-2015 |
20150335803 | AXIAL FLOW BLOOD PUMP - An axial flow blood pump comprises: an impeller ( | 11-26-2015 |
20150351731 | SEALING DEVICE AND DELIVERY SYSTEM - A medical device for sealing a defect in a body includes a wire frame that includes a plurality of wires that form a first occluding member and a second occluding member. In some embodiments, a sealing member is in contact with the wire frame. In some embodiments, the sealing member is configured to define one or more openings in the sealing member. | 12-10-2015 |
20150359952 | CONNECTOR RING CLAMP AND ASSOCIATED METHODS OF USE - In one embodiment, the present invention includes a connector ring assembly to attach a VAD to a heart. The assembly includes a clamp which can rotate completely about the annular wall in a first state and is fixed relative to the annular wall in a second state. The clamp transitions from the first state to the second state via an actuator. The actuator can be configured with an axis of rotation generally parallel to the opening of the annular wall, thereby allowing manipulation of the actuator through the same surgical accessway as that used to implant the connector ring assembly. At least one embodiment provides a connector flange separately from an annular wall to provide greater access to the connector flange during implantation. The annular wall and clamp are attached to the connector flange after the flange is fixed to the heart. | 12-17-2015 |
20150367047 | CONTROLLER AND POWER SOURCE FOR IMPLANTABLE BLOOD PUMP - Methods and apparatus for controlling the operation of, and providing power for and to, implantable ventricular assist devices which include a brushless DC motor-driven blood pump, are disclosed. In one embodiment, a control system for driving an implantable pump is provided. The digital processor is responsive to data associated with the operation of the pump received at the data transfer port, and from the program data stored in memory, (i) to determine therefrom, the identity of the pump, (ii) to determine therefrom, electrical characteristics and features of the identified pump, and (iii) to adaptively generate and apply to the data port, control signals for driving the identified pump. Latch mechanisms, an elongated flexible electrical cable with a strain relief segment, and a lower housing portion that is heavier than an upper housing portion, may also be provided with the control system. | 12-24-2015 |
20150367049 | IMPLANTABLE BLOOD PUMP WITH INTEGRATED CONTROLLER - An implantable blood pump includes motor control circuitry and power electronics circuitry integrated within the implantable pump body. The motor control circuitry and power electronics circuitry is configured to energize and control motor windings to rotate the pump rotor and impeller. Additional control circuitry and power electronics circuitry may be integrated within the pump housing to energize and control magnetic bearings of a magnetic levitation pump. A percutaneous cable coupled between the implantable blood pump and an extracorporeal monitor includes a reduced number of leads to provide power and control signals to the implantable blood pump. Wireless communication between the extracorporeal monitor and the integrated power electronics and control circuitry facilitates the use of a percutaneous cable with as few as two leads for providing power to the implantable pump. | 12-24-2015 |
20150367050 | ENDOVASCULAR PERMANENT HEART ASSIST DEVICE - The invention is a heart assist device which has been developed in order to maintain the blood circulation in end-stage heart patients who do not respond to medical treatment, and it has been designed in size and shape so that it can be installed into the anatomically spacious root sections of the aorta and main pulmonary artery with its small volume, and exceptional motor design without a shaft, the device, which contains a brushless, asynchronous and three-phase electric motor, will consume much less energy. The three-phase current required for the motor is provided from the power supply outside the body through the synchronous and wireless transmission of three phases. The invention is about a permanent endovascular cardiac support device which contains a three-phase, brushless, asynchronous electric motor, and the required energy is provided through the three-phase wireless power transmission from outside the body. | 12-24-2015 |
20150374892 | CABLE SYSTEM FOR IMPLANTABLE BLOOD PUMP WITH ACCIDENTAL DISCONNECTION PREVENTION - A blood pump system includes a pump that is to be implanted in a patient and a control unit disposed externally of the patient. A percutaneous cable section is configured to pass percutaneously through an incision in the patient and has first and second ends. The second end is connectable to the pump. An extension cable section has second ends, and the second end is connectable to the control unit. The first and of the cable sections removably mate together and include a push-pull electrical connector covered by a secondary threaded mechanical connector. | 12-31-2015 |
20160008531 | DUAL LUMEN CANNULA FOR ARTIFICIAL LUNG AND RIGHT VENTRICULAR ASSIST DEVICE | 01-14-2016 |
20160015878 | Implantation Of A Transapical Ventricular Assist Device And Kit For Same - A method of implanting a blood pump in a heart of a mammalian subject includes maintaining a temporary plug in an inlet opening of a pump having a pump body and an outlet cannula projecting from the pump body, advancing the pump into a ventricle of the heart through a hole in a wall of the heart so that the inlet of the pump is disposed within the ventricle and the outlet cannula extends through a valve of the heart into an artery, and then withdrawing the temporary plug from the inlet of the pump. | 01-21-2016 |
20160015879 | CORRECTION AND OPTIMIZATION OF WAVE REFLECTION IN BLOOD VESSELS - The present invention provides methods and modalities that can modify wave reflection in the vascular system in order to create constructive interactions between existing wave dynamics and new reflective waves for the purpose of lowering the workload on the heart and increasing cardiac output, providing a viable option for the prevention and treatment of many heart conditions and diseases. | 01-21-2016 |
20160015880 | VENTRICULAR ASSIST DEVICE FOR INTRAVENTRICULAR PLACEMENT - The present invention, in one embodiment, is a blood pump for intraventricular placement inside a heart of a mammalian subject including a rigid elongate member having a length between proximal and distal ends and a bore extending along the length, an anchor element connected towards the proximal end of the rigid elongate member and mounted to the subject's heart, a pump having an inlet and an outlet, a rotor and at least one electric drive coil for magnetically driving the rotor, the pump connected at or adjacent to the distal end of the rigid elongate member remote from the anchor element and wiring extending through the bore to the pump, wherein the proximal end of the rigid elongate member extends past the anchor element to a position outside of the subject's heart. Additional embodiments of a blood pump, and various methods of intraventricular placement inside a heart of a mammalian subject are also considered. | 01-21-2016 |
20160022889 | COIL PARAMETERS AND CONTROL - Present embodiments are directed to measuring and calculating parameters to control and monitor a power transfer in an implanted medical device. The medical device may be implanted in a subject and typically includes an artificial heart or ventricle assist device. The system measures parameters and uses the parameters to calculate a coupling coefficient for coils that transfer power between an external primary and an implanted secondary. The system uses the calculated coupling coefficient to estimate heat flux being generated in the system. Based on the level heat flux detected, the system may issue alerts to warn the subject or control actions to mitigate the effects of the heat flux. | 01-28-2016 |
20160022891 | POWER SCALING - Disclosed are systems and methods for measuring and calculating parameters to control and monitor a power transfer in an implanted medical device, including operating the device in a plurality of scalable power modes and/or coupling modes. The system may shift between or among power and/or coupling modes based on input such as data received over system communication lines, programmable timers, or electrical loading information. The system may also shift between or among power and/or coupling modes based on calculated amounts of coupling, levels of detected heat flux, and/or amounts of estimated temperature changes. | 01-28-2016 |
20160030649 | CATHETER PUMP ASSEMBLY INCLUDING A STATOR - A catheter pump assembly is provided that includes a proximal a distal portion, a catheter body, an impeller, and a flow modifying structure. The catheter body has a lumen that extends along a longitudinal axis between the proximal and distal portions. The impeller is disposed at the distal portion. The impeller includes a blade with a trailing edge. The flow modifying structure is disposed downstream of the impeller. The flow modifying structure has a plurality of blades having a leading edge substantially parallel to and in close proximity to the trailing edge of the blade of the impeller and an expanse extending downstream from the leading edge. In some embodiments, the expanse has a first region with higher curvature and a second region with lower curvature. The first region is between the leading edge and the second region. | 02-04-2016 |
20160030651 | HEART HELP DEVICE, SYSTEM, AND METHOD - An implantable device for improving the pump function of the heart of a human patient by applying an external force on the heart muscle is disclosed. The device includes at least one pump device having a pump. The pump includes: a piston adapted for reciprocating movement, an operating device for operating the piston, and a heart contacting organ. The movement of the piston assists the pump function of the heart through the heart contacting organ. | 02-04-2016 |
20160030652 | Implantable Cable-Connecting Device - An implantable cable connection device is provided with a cable connector which can comprise several plug-in connection elements, to which in each case an implantable cable can be connected by way of a plug-in connection, where the cable connector is designed as a rigid body of a biocompatible material. | 02-04-2016 |
20160038664 | MODULAR IMPLANTABLE MEDICAL PUMP - An implantable medical pump system can include a blood pump comprising a pump housing defining a passage therethrough and a rotor within the passage. The blood pump further includes one or more elements at least partially contained within the housing adapted to actuate the rotor to drive fluid though the passage. The pump housing includes at least one coupling feature. The system further includes an inflow cannula defining a lumen therethrough. The inflow cannula is adapted to be mechanically coupled to the at least one coupling feature. | 02-11-2016 |
20160045651 | ANATOMIC FIT OF A PERCUTANEOUS VAD FOR RIGHT HEART SUPPORT - An apparatus is disclosed including: a cannula having a shape closely matched to the anatomy of the right ventricle of the human heart, where the cannula has an outflow port configured to be located proximal the pulmonary artery and an inflow port located proximal the inferior vena cava. In some embodiments, the cannula is a close fit to the anatomy of at least 90%, 95%, or more of the population. | 02-18-2016 |
20160045652 | LEFT VENTRICULAR CARDIAC ASSIST PUMP AND METHODS THEREFOR - A left ventricular cardiac assist pump includes an inlet opening and a discharge opening aligned in an axial direction. The pump includes a casing spaced from a stator and impeller, with at least one connecting spacer connecting the casing and the stator. The impeller is configured to direct the blood towards the casing and the discharge opening, so that blood flows through the pump principally between the casing and the rotor-stator assembly. | 02-18-2016 |
20160045653 | PURGE-FREE MINIATURE ROTARY PUMP - Methods and systems are provided for the circulation of blood using a purge-free miniature pump. In one embodiment, a pump is provided that may comprise a housing including a rotor and a stator within a drive unit. In this embodiment, the pump may establish a primary blood flow through the space between the drive unit and the housing and a secondary blood flow between the rotor and stator. In another embodiment, a pump establishes a primary blood flow outside the housing and a secondary blood flow between the rotor and stator. In yet another embodiment, a method is provided for introducing the pump into the body and circulating blood using the pump. | 02-18-2016 |
20160051741 | RENAL PUMP - Apparatus and methods are described including identifying a subject as suffering from a condition selected from the group consisting of: cardiac dysfunction, congestive heart failure, reduced renal blood flow, increased renal vascular resistance, arterial hypertension, and kidney dysfunction. In response thereto, blood pressure within a renal vein of the subject is reduced, by placing a blood pump inside the subject's renal vein and activating the impeller to pump blood from the renal vein into the subject's vena cava. Other applications are also described. | 02-25-2016 |
20160051795 | CATHETER DEVICE HAVING A CATHETER AND AN ACTUATION DEVICE - The invention relates to a catheter device, having a catheter ( | 02-25-2016 |
20160053763 | COMPRESSIBLE AND EXPANDABLE BLADE FOR A FLUID PUMP - The invention relates to a compressible and expandable blade ( | 02-25-2016 |
20160064117 | TRIPLE HELIX DRIVELINE CABLE AND METHODS OF ASSEMBLY AND USE - A power cable having improved durability and associated methods of assembly and use are described herein. In one aspect, the power cable is adapted for use in powering an implantable circulatory pump system. The cable includes one or more conductors of uninsulated wire strands that are loosely packed so as to move relative one another during cable flexure. The driveline cable may include a plurality of conductors, each comprised of multiple uninsulated bundles of uninsulated, loosely packed wire strands of a conductive material, that are wrapped about a central core. The cable may include at least six conductors, each conductor having at least 200 wire strands of a 30 gauge or higher. The cable may include the plurality of wire strands wound in a Litz style configuration to provide improved durability over many cycles of use at reduced cost, improved integrity of the electrical connection and reduced diameter. | 03-03-2016 |
20160067396 | TRANSCUTANEOUS POWER TRANSMISSION UTILIZING NON-PLANAR RESONATORS - A system for omni-orientational wireless energy transfer is described. A transmitter unit has a transmitter resonator with a coil that is configured to be coupled to a power supply to wirelessly transmit power to a receiver unit. A receiver unit has a receiver resonator with a coil coupled to a device load. At least one of the resonators is a non-planar resonator that spans a non-degenerate two-dimensional surface having at least one concave portion. | 03-10-2016 |
20160082167 | PERCUTANEOUS HEART PUMP - Disclosed herein are heart pumps that can include a catheter body and an impeller coupled with a distal end of the catheter body. The impeller can include a tip that is resealable or that includes a resealable member. The heart pump can also include a diffuser disposed between the distal end of the catheter body and the impeller, wherein the diffuser includes a flow directing surface. | 03-24-2016 |
20160082168 | Medical Peristaltic Pump - A peristaltic pump includes a driver, a pump body, a hose, a rotor and a connecting member. The driver includes a supporting shaft. The pump body includes a chamber housing the rotor. The hose is assembled to an internal side of a wall of the chamber. The connecting member connects the driver with the rotor, and is received in the chamber. The rotor is configured to sequentially squeeze the hose to cause medium in the hose to flow. The connecting member and the rotor rotate about and are supported by the supporting shaft. The medical peristaltic pump has a simple structure and is easy to operate. | 03-24-2016 |
20160082171 | IMPLANTED DEVICE WITH WIRELESS ENERGY TRANSFER AND EXTERNAL ALIGNMENT FEATURE - An implant device includes a housing and an energy receiving element disposed in the housing. The energy receiving element is configured to be electrically connected to an energy-consuming device. The implant device is configured to be mounted within a body of a human or non-human animal. The housing includes a feature configured to be accessible through skin of the animal and to receive a corresponding mating member of an external charger including an energy transmitting element. The energy receiving element is configured to receive energy wirelessly from the energy transmitting element when the external charger is mated with the housing. | 03-24-2016 |
20160082176 | "Dual Lumen Cannula" - A dual lumen coaxial cannula assembly includes a first infusion tube having a first elongate body defining a first lumen therethrough and a second drainage tube co-axially aligned with the first infusion tube and having a second elongate body with a second lumen defined by a space between the first infusion tube and second drainage tube. A connector is removably attached to the first infusion tube and the second drainage tube for coupling the dual lumen coaxial cannula to an extracorporeal blood circuit. The first infusion tube and the second drainage tube include a plurality of infusion and drainage apertures, respectively, provided at the distal end and extending through the sidewall of the first infusion tube and the drainage tube, respectively. | 03-24-2016 |
20160089482 | CATHETER-BASED HEART SUPPORT SYSTEM AND METHOD OF IMPLANTING THEREOF - A device for circulatory support of the heart with holding means implanted intracardially in the left or right ventricular outflow of the heart by catheter, using an endovascular method, through a femoral access or a percutaneous transventricular, transseptal, transapical or transvenous access, the holding means comprises anchoring means fixed in the subcommissural triangle underneath the aortic valve and the pulmonary valve, in the flow direction of the blood on the ventricular side of the aortic valve and the pulmonary valve, a pump fixed in the holding means by a catheter, using an endovascular method, through a femoral access or a percutaneous transventricular, transseptal, transapical or transvenous access, the pump can be inserted releasably into the holding means after the holding means has been fixed by the anchoring means in the subcommissural triangles underneath the aortic valve and the pulmonary valve, or is connected to the collapsible and expandable anchoring means. | 03-31-2016 |
20160101224 | HIGH EFFICIENCY BLOOD PUMP - A high efficiency blood pump includes a pump housing, wherein the pump housing provides an inlet and outlet. The pump includes a motor housing, wherein the motor housing contains a motor. An impeller is housed in the pump housing, wherein the impeller is radially supported by a hydrodynamic bearing providing at least one row of pattern grooves. A diaphragm provided by the pump housing separates the impeller chamber from the motor chamber. A magnetic coupling is provided between the motor and the impeller, wherein the magnetic coupling causes the impeller to rotate when the motor rotates and provides axial restraint of the impeller. | 04-14-2016 |
20160106895 | SYSTEM FOR INTRODUCING A PUMP - The invention resides in the field of introducing fluid pumps into a lumen and relates to a system for introducing a pump into a lumen which comprises a first sheath and a pump to be introduced into the first sheath, or a system which has a pump with a distal pump unit and a shaft catheter which emerges proximally to the pump unit. According to the invention one or two sheaths are used, the distal pump unit being pulled firstly into the distal end of one sheath, in order to avoid damage to a shaft catheter. Subsequently, the sheath receiving the pump unit is transferred into a further sheath or a receiving lumen. | 04-21-2016 |
20160106896 | CATHETER DEVICE - The catheter device comprises a motor located at the proximal end of the catheter device and a drive shaft, extending from the proximal end section to the distal end section of the catheter device, for driving a rotating element located at the distal end of the catheter device. The catheter device also comprises a hose-like catheter body which encompasses the drive shaft and extends from the proximal end section to the distal end section of the catheter device. At the proximal end of the catheter device, the drive shaft is connected to a motor by a clutch. The clutch is a magnetic clutch with a proximal and a distal magnet unit. The proximal magnet unit is connected to the motor and the distal magnet unit to the drive shaft. The distal magnet unit is mounted fluid-tight in a clutch housing. The proximal end of the catheter body makes a fluid-tight connection with the clutch housing. | 04-21-2016 |
20160106897 | FLUID PUMP WITH A ROTOR - The invention relates to a fluid pump, in particular to a liquid pump having a rotor with at last one rotor blade for conveying the fluid, the rotor being variable with respect to its diameter between a first, compressed state and a second expanded state. In order to produce a simple compressibility and expandability of the rotor of the pump, it is provided according to the invention that at least one rotor blade is deformable between a first state which it assumes in the compressed state of the rotor and a second state which it assumes in the expanded state of the rotor by means of a fluid counterpressure during a rotation of the rotor during pump operation. | 04-21-2016 |
20160106898 | CATHETER DEVICE - The catheter device comprises a motor located at the proximal end of the catheter device and a drive shaft, extending from the proximal end section to the distal end section of the catheter device, for driving a rotating element located at the distal end of the catheter device. The catheter device also comprises a hose-like catheter body which encompasses the drive shaft and extends from the proximal end section to the distal end section of the catheter device. At the proximal end of the catheter device, the drive shaft is connected to a motor by a clutch. The clutch is a magnetic clutch with a proximal and a distal magnet unit. The proximal magnet unit is connected to the motor and the distal magnet unit to the drive shaft. The distal magnet unit is mounted fluid-tight in a clutch housing. The proximal end of the catheter body makes a fluid-tight connection with the clutch housing. | 04-21-2016 |
20160106899 | GUIDABLE INTRAVASCULAR BLOOD PUMP AND RELATED METHODS - An improved intravascular blood pump and related methods involving the broad inventive concept of equipping the intravascular blood pump with guiding features such that the intravascular blood pump can be selectively positioned at a predetermined location within the circulatory system of a patient. | 04-21-2016 |
20160106900 | SYSTEM FOR PRODUCING CONTINUOUS MECHANICAL ENERGY TO TREAT HEART FAILURE WITHOUT THE USE OF EXTERNAL ENERGY SOURCE - Described are aspects and embodiments directed to systems for tapping into the breathing system to generate pressure in a sustained space with pulsating frequency to aid the pumping functions of cardiac muscle. In some embodiments, the generated energy can also be transferred to other forms of energy (e.g., electricity to power certain devices (e.g., pacemaker batteries). In further embodiments, the system utilizes air entrapment in a closed space to generate mechanical force with valves and timed release frequency to control power generation and mechanical movements that assist blood flow. | 04-21-2016 |
20160121034 | BEARING FOR A CARDIAC PUMP - A plain bearing assembly for a cardiac pump, the plain bearing assembly comprising; a rotational portion which, in use, rotates with a cardiac pump rotor, the rotational portion configured to engage a stationary portion of a cardiac pump housing, the stationary portion comprising one or more first bearing surfaces and the rotational portion comprising one or more second bearing surfaces, the one or more second bearing surfaces configured so as to be in contact with the one or more first bearing surfaces, therein defining a bearing interface between the one or more first bearing surfaces and the one or more second bearing surfaces during rotation of the rotational portion, wherein the rotational portion comprises one or more first flow channels configured to interrupt the bearing interface and permit blood to flow between an outside of the plain bearing assembly and a center of the plain bearing assembly. | 05-05-2016 |
20160129169 | HEART HELP PUMP, SYSTEM, AND METHOD - The present invention relates to a heart pump apparatus comprising a turbine pump for assisting the heart of a human patient. The invention is based on the realization that a turbine without a centre axis would improve the capacity of the heart help pump apparatus. The present invention also relates to a turbine pump system for assisting the heart of a human patient. The present invention also relates to operation methods and methods for surgically placing a rotating body of a turbine pump and a stator of a turbine pump in a patient. | 05-12-2016 |
20160136341 | CATHETER DEVICE - The catheter device comprises a motor at the proximal end of the catheter device and a drive shaft, extending from the proximal end section to the distal end section of the catheter device, for driving a rotating element located at the distal end of the catheter device. The catheter device also comprises a hose-like catheter body which encompasses the drive shaft and extends from the proximal end section to the distal end section. At the proximal end of the catheter device, the drive shaft is connected to a motor by a clutch. The clutch is a magnetic clutch with a proximal and a distal magnet unit. The proximal magnet unit is connected to the motor and the distal magnet unit to the drive shaft. The distal magnet unit is mounted fluid-tight in a clutch housing. The proximal end of the catheter body makes a fluid-tight connection with the clutch housing. | 05-19-2016 |
20160136342 | CATHETER DEVICE - The catheter device comprises a motor at the proximal end of the catheter device and a drive shaft, extending from the proximal end section to the distal end section of the catheter device, for driving a rotating element located at the distal end of the catheter device. The catheter device also comprises a hose-like catheter body which encompasses the drive shaft and extends from the proximal end section to the distal end section. At the proximal end of the catheter device, the drive shaft is connected to a motor by a clutch. The clutch is a magnetic clutch with a proximal and a distal magnet unit. The proximal magnet unit is connected to the motor and the distal magnet unit to the drive shaft. The distal magnet unit is mounted fluid-tight in a clutch housing. The proximal end of the catheter body makes a fluid-tight connection with the clutch housing. | 05-19-2016 |
20160144087 | HEART ASSIST DEVICE - A heart assist device comprising a rotary pump housing having a cylindrical bore, a pumping chamber and a motor stator including an electrically conductive coil located within the housing and surrounding a portion of the cylindrical bore. A rotor has a cylindrical shaft, at least one impeller appended to one end of the shaft, and a plurality of magnets located within the shaft. The rotor shaft is positioned within the housing bore with the magnets opposite the motor stator, and the impeller is positioned within the pumping chamber. The housing bore is closely fitted to the outer surface of the shaft forming a hydrodynamic journal bearing, with the pumping chamber and journal bearing connected by a leak path of blood flow between the pumping chamber and the journal bearing. A backiron of the motor stator attracts the rotor magnets to resist longitudinal displacement of the rotor within the housing during operation. The relative orientation of positions of the inflow, outflow, and leakage flow paths may be varied within the pump, such as to accommodate different intended methods for implantation and/or use. | 05-26-2016 |
20160144088 | PUMP OR ROTARY CUTTER FOR OPERATION IN A FLUID - The invention relates to a fluid pump or rotatary cutter having at least one first element ( | 05-26-2016 |
20160144092 | FIDUCIAL POINT OPTIMIZATION - A flow rate of blood through an implantable blood pump is determined based on a parameter related to the flow, such as a parameter related to thrust on the rotor of the pump. An amount of current supplied to the pump is used to determine each of a first flow rate value and second flow rate values. Each of the first and second flow rate values, in combination with the parameter related to thrust on the rotor of the pump, are used to calculate a flow rate of blood through the pump. | 05-26-2016 |
20160166746 | CARDIAC PUMP IMPLANTATION DEVICE AND METHOD | 06-16-2016 |
20160166747 | INTRAATRIAL VENTRICULAR ASSIST DEVICE | 06-16-2016 |
20160175501 | GUIDEWIRE SYSTEM AND METHOD OF PUMP INSTALLATION USING SAME | 06-23-2016 |
20160175503 | BLOOD PUMP | 06-23-2016 |
20160181730 | MULTIAXIAL CONNECTOR FOR IMPLANTABLE DEVICES | 06-23-2016 |
20160184499 | MAGNETICALLY-LEVITATED BLOOD PUMP WITH OPTIMIZATION METHOD ENABLING MINIATURIZATION - A magnetically-levitated blood pump with an optimization method that enables miniaturization and supercritical operation. The blood pump includes an optimized annular blood gap that increases blood flow and also provides a reduction in bearing stiffness among the permanent magnet bearings. Sensors are configured and placed optimally to provide space savings for the motor and magnet sections of the blood pump. Rotor mass is increased by providing permanent magnet placement deep within the rotor enabled by a draw rod configuration. | 06-30-2016 |
20160184500 | CATHETER PUMP ASSEMBLY INCLUDING A STATOR - A catheter pump assembly is provided that includes a proximal a distal portion, a catheter body, an impeller, and a flow modifying structure. The catheter body has a lumen that extends along a longitudinal axis between the proximal and distal portions. The impeller is disposed at the distal portion. The impeller includes a blade with a trailing edge. The flow modifying structure is disposed downstream of the impeller. The flow modifying structure has a plurality of blades having a leading edge substantially parallel to and in close proximity to the trailing edge of the blade of the impeller and an expanse extending downstream from the leading edge. In some embodiments, the expanse has a first region with higher curvature and a second region with lower curvature. The first region is between the leading edge and the second region. | 06-30-2016 |
20160193396 | AXIAL FLOW ROTOR WITH DOWNSTREAM BEARING WASH FLOW | 07-07-2016 |
20160193398 | DEVICE AND A METHOD FOR MEASURING FLUID-MECHANICALLY EFFECTIVE MATERIAL PARAMETERS OF A FLUID | 07-07-2016 |
20160199556 | HEART ASSIST SYSTEM AND/OR DEVICE | 07-14-2016 |
20160199557 | DISTRIBUTED TRANSFORMER | 07-14-2016 |
20160250400 | COMPRESSIBLE MOTOR, IMPLANTATION ARRANGEMENT, AND METHOD FOR POSITIONING THE MOTOR | 09-01-2016 |
20160250402 | BLOOD PUMP | 09-01-2016 |
20160375186 | TRANSCATHETER SYSTEM AND METHOD FOR REGULATING FLOW OF FLUID BETWEEN TWO ANATOMICAL COMPARTMENTS - The present invention relates to a transcatheter method for providing fluid communication between two anatomical compartments. The present invention also relates to a transcatheter system comprising an intracorporeal connector for fluid communication between two anatomical compartments through at least one anatomical wall, wherein said connector is adapted to receive a flow regulating device, a connector, a flow regulating device and an insertion device. | 12-29-2016 |
20160375187 | VENTRICULAR ASSIST DEVICES HAVING A HOLLOW ROTOR AND METHODS OF USE - Blood pumps for ventricular assist devices employ a hollow rotor to impel blood through the blood pump. A blood pump includes a housing having a housing inlet, a housing outlet, and a housing blood flow channel through which the housing inlet and the housing outlet are in fluid communication. A motor stator is disposed around the housing blood flow channel and operable to generate a rotating magnetic field. A hollow rotor is disposed within the housing blood flow channel and rotated via the rotating magnetic field. The hollow rotor has a rotor circumferential wall enclosing a rotor blood flow channel. The hollow rotor has at least one rotor blade extending inwardly from the rotor circumferential wall. The at least one rotor blade is configured to impel blood through the rotor blood flow channel when the hollow rotor is rotated via the rotating magnetic field. | 12-29-2016 |
20170232168 | PUMP AND METHOD FOR MIXED FLOW BLOOD PUMPING | 08-17-2017 |
20170232169 | GUIDE FEATURES FOR PERCUTANEOUS CATHETER PUMP | 08-17-2017 |
20170232172 | SYSTEM FOR PRODUCING CONTINUOUS MECHANICAL ENERGY TO TREAT HEART FAILURE WITHOUT THE USE OF EXTERNAL ENERGY SOURCE | 08-17-2017 |
20180021497 | VENTRICULAR ASSIST DEVICES AND INTEGRATED SENSORS THEREOF | 01-25-2018 |
20180021498 | TET SYSTEM FOR IMPLANTED MEDICAL DEVICE | 01-25-2018 |
20190143016 | CANNULA ASSEMBLY | 05-16-2019 |
20190143018 | INTRAVASCULAR FLUID MOVEMENT DEVICES, SYSTEMS, AND METHODS OF USE | 05-16-2019 |
20190143019 | VENTRICULAR ASSIST DEVICE STENT, VENTRICULAR ASSIST DEVICE, AND RELATED METHODS THEREOF | 05-16-2019 |
20190143020 | VENTRICULAR ASSIST DEVICE | 05-16-2019 |
20190143021 | ORGAN RESTRAINT FOR INFLAMMATION REDUCTION AND ATRIAL FIBRILLATION PREVENTION | 05-16-2019 |
20190143075 | CURVED CATHETER | 05-16-2019 |
20220134080 | DISTAL BEARING SUPPORT - In various embodiments, a catheter pump is disclosed herein. The catheter pump can include an elongated catheter body having a distal portion including an expandable cannula having an inlet and an outlet. The expandable cannula can have a delivery profile and an operational profile larger than the delivery profile. An impeller assembly can include an impeller shaft, and an impeller body can include one or more blades. The impeller blades can draw blood into the cannula when rotated. Further, an expandable support can have a mounting portion disposed on the impeller shaft distal of the impeller body and a cannula contact portion for reducing a change in tip gap due to bending of the cannula. The cannula contact portion can be disposed distal of the mounting portion. | 05-05-2022 |
20220134084 | IMPLANTABLE BLOOD PUMP FOR ASSISTING A HEART FUNCTION - The present application relates to an implantable blood pump for assisting a heart function. The blood pump comprises a heat source and a wall that delimits a flow cannel. In addition, the blood pump comprises a heat distributor for distributing heat generated by the heat source to a surface of the wall. In order to transfer heat from the heat source to the blood conveyed in the flow channel, the heat distributor is thermally conductively connected to the heat source and thermally conductively connected to the opposite face of the wall from the flow channel. | 05-05-2022 |