MEDTRONIC CRYOCATH LP Patent applications |
Patent application number | Title | Published |
20150265812 | BALLOON DESIGN TO REDUCE DISTAL LENGTH - A device and system for thermally affecting tissue that includes a balloon catheter with a reduced distal length for ease of navigation and that also includes a balloon that is more resistant to bursting and delamination. The balloon may include a proximal neck generally attached to an elongate body and a distal neck generally attached to a shaft disposed within the elongate body. The distal neck is turned inward to extend within the balloon chamber and the proximal neck may either extend within the chamber or extend proximally away from the balloon chamber. Alternatively, the device may include an inner balloon and an outer balloon, the distal necks of both being turned inward and extending within the inner balloon chamber. The proximal necks may both also be turned inward to extend within the chamber or the proximal neck of the outer balloon may extend away from the balloon chamber. | 09-24-2015 |
20150265329 | SHAPE CHANGING ABLATION BALLOON - A device, method, and system for thermally affecting tissue. The device may generally include an elongate body, an actuation element slidably disposed within the elongate body, a balloon defining an interior chamber, a proximal neck, and a distal neck, the first neck being coupled to the distal portion of the elongate body and the second neck being coupled to the distal portion of the actuation element, retraction of the actuation element within the elongate body causing the treatment element to transition from a first configuration to a second configuration. The distal neck may be located external to the interior chamber in the first configuration and within the interior chamber in the second configuration. The device may also include a fluid injection element that is transitionable to an expanded configuration when the balloon is inflated, thereby enhancing the cooling capacity of the balloon. | 09-24-2015 |
20150216589 | MEDICAL DEVICE WITH ADJUSTABLE FLEXIBILITY - A system and method for the delivery of a medical device to a treatment location. The device may include an elongate body, the elongate body including a plurality of annular segments and a jacket disposed about the plurality of annular segments and defining an interior space, and a vacuum source in fluid communication with the interior space of the jacket. When a vacuum is applied to the interior space of the jacket, the jacket may constrict about the plurality of annular elements, thereby increasing the frictional forces between the plurality of segments and between the plurality of segments and an inner surface of the jacket. | 08-06-2015 |
20150216580 | ACCESSORY TO ALLOW SENSING AT BALLOON INTERFACE - A device, system and method for temperature-based lesion formation assessment and mapping functionality using an accessory usable with an over-the-wire balloon catheter. The device may include a first annular element, a plurality of wires coupled to the first annular element, and a second annular element, the plurality of wires passing from the first annular element through the second annular element and into an elongate wire conduit coupled to the second annular element. At least one of the plurality of wires may include at least one temperature sensor and/or at least one mapping electrode. The first annular element coupled to an outer surface of a sheath. As a balloon catheter is advanced out of the sheath lumen, the distal tip of the catheter engages the second annular element and pushes the wires out of the sheath lumen, everting them over the balloon of the catheter. | 08-06-2015 |
20150196740 | BALLOON CATHETER WITH FLUID INJECTION ELEMENTS - A system and method for creating radial-linear lesions in tissue. The system includes a cryoablation device having a first balloon, a second balloon disposed about the first balloon, and one or more splines disposed between the first balloon and second balloon, each spline defining a plurality of ports. The splines may be in communication with a coolant supply, and the first balloon may be in communication with a coolant supply or non-coolant inflation fluid supply. When the first balloon is in the uninflated configuration, the splines may have a substantially linear configuration. Each of the splines may be radially oriented about an elongate shaft and transitionable between the substantially linear configuration and an arcuate configuration when the first balloon is in the inflated configuration. Coolant expelled from the splines between the first and second balloons creates an ablation pattern on the outer surface of the second balloon. | 07-16-2015 |
20150119868 | FEEDBACK SYSTEM FOR CRYOABLATION OF CARDIAC TISSUE - A method and system for providing lesion depth feedback during an ablation procedure. In particular, the method and system provide feedback data or information relating to lesion depth in myocardial tissue during a cryoablation procedure. A plurality of tissue temperature measurements may be transmitted from a plurality of thermocouples disposed on a cryotreatment element, which measurements may be used to determine a slope of change in temperature sensed by each thermocouple over time. The circulation of coolant through the treatment element may be adjusted when the slope changes. A change in slope may indicate that the cryoablation temperatures have passed through target myocardial tissue into non-target, non-myocardial tissue, which may result in collateral damage to structures near the heart. | 04-30-2015 |
20150057563 | METHOD OF CMAP MONITORING - A method and system for monitoring phrenic nerve function and preventing phrenic nerve injury during cardiac ablation. The system includes a pacing device operable to transmit stimulation energy to the phrenic nerve through target tissue proximate the phrenic nerve, a plurality of assessment electrodes operable to make comparisons between baseline, real-time, and predetermined threshold values for CMAP signal amplitude and amplitude over time. The processing device may be connected to an ablation console, and the processing device may interrupt or adjust an ablation procedure controlled by the ablation console and/or generate a system alert in response to one of these comparisons, if the comparison indicates phrenic nerve injury. The method includes applying stimulation energy to the phrenic nerve, recording diaphragmatic CMAP signals in response to the stimulation energy, and adjusting an ablation procedure and/or automatically generating a system alert in response to comparisons performed by the processing device. | 02-26-2015 |
20150018809 | HEATED ELECTRODES FOR CONTINUED VISUALIZATION OF PULMONARY VEIN POTENTIALS - A method and system for cryotreatment and mapping of target tissue. The cryotreatment system may include a cryotreatment catheter, a mapping catheter including one or more mapping electrodes, and one or more temperature sensors located on the mapping catheter and/or the cryotreatment catheter. The cryotreatment catheter distal tip may be short enough to allow at least one mapping electrode to be positioned proximate the cryoballoon, for example, within 6 mm or less from the cryoballoon. Energy, such as radiofrequency energy, may be delivered to one or more mapping electrodes when one or more temperature sensors indicate a temperature of approximately 0° C. or below at one or more mapping electrode in order to thaw or prevent the formation of ice on the mapping electrodes when positioned proximate a cryoballoon during a cryotreatment procedure in order to recapture cardiac signals. | 01-15-2015 |
20140358135 | METHOD AND APPARATUS FOR USING PHONOMYOGRAPHY TO PREVENT NERVE DAMAGE DURING A MEDICAL PROCEDURE - A method and system for preventing phrenic nerve injury during a cardiac ablation procedure. The method generally includes stimulating a phrenic nerve with a pacing electrode at a location proximate a target treatment location, ablating tissue at the target treatment location with a treatment element, obtaining a heart audio signal with an audio sensor positioned proximate the target treatment location, and determining whether phrenic nerve stimulation (PNS) is present based as least in part on the obtained heart audio signal. A processor may be used to compare an amplitude of the obtained heart audio signal to a predetermined threshold amplitude. The processor may determine that PNS is present if the amplitude of the obtained audio signal is greater than the threshold amplitude. If PNS is present, ablation of the tissue may continue at the current or greater energy level and/or at the current treatment location without injuring the phrenic nerve. | 12-04-2014 |
20140276710 | DEVICE AND METHOD FOR IMPROVED SAFETY AND EFFICACY FOR CRYOABLATION - A method and system for improved lesion creation. The method generally includes positioning a treatment element of a medical device proximate an area of target tissue and operating a control unit in accordance with a duty cycle, that includes at least one freeze-warm cycle, each freeze-warm cycle including: supplying coolant to the treatment element at a first flow rate that causes the treatment element to reach a first temperature, the first temperature causing ablation of the target tissue and cryoadhesion between the treatment element and target tissue, and supplying coolant to the treatment element at a second flow rate that causes the treatment element to reach a second temperature, the second temperature being higher than the first temperature and the second flow rate being lower than the first flow rate, the second temperature being above a temperature at which ablation occurs and below a temperature at which cryoadhesion is broken. | 09-18-2014 |
20140276709 | VEIN OCCLUSION ASSESSMENT USING TEMPERATURE - A medical system, comprising an ablation catheter is disclosed. The ablation catheter includes an elongate shaft with a proximal end, a distal end and a lumen disposed between the proximal end and the distal end. The ablation catheter also includes an expandable element in fluid communication with the lumen, a first temperature sensor operable to measure a first temperature; and a second temperature sensor operable to measure a second temperature. The first temperature sensor and the second temperature sensor are longitudinally separated from each other by at least a portion of the expandable element. | 09-18-2014 |
20140243642 | RETRACTABLE MAPPING JACKET - An accessory and system to provide a medical device with mapping and ablation functionality. The system may include an ablation device with a handle, a treatment element, and an elongate body. The ablation element may be located on the elongate body distal portion, and a mapping sleeve may be disposable about at least part of the distal portion of the ablation device and may include mapping electrodes disposed on the outer surface. The mapping sleeve proximal region may include a retraction element defining a proximal end and a distal end, the distal end being coupled to the proximal region of the mapping sleeve, such that retracting the retraction element toward the elongate body proximal portion pulls the mapping sleeve away from the treatment element of the ablation device. | 08-28-2014 |
20140207131 | PURGE PHASE FOR CRYOABLATION SYSTEMS - A method for purging a cryotreatment system, in particular, for clearing moisture and thus preventing ice blockages within a fluid flow path that may be formed when moisture pockets within the fluid flow path of the system are encountered by a first injection of refrigerant at the beginning of a cryotreatment procedure. The method may include injecting refrigerant from a refrigerant source into a fluid delivery conduit at a preselected pressure for a first period of time, the refrigerant flowing from the fluid delivery conduit through a fluid injection element and into a fluid recovery conduit, and evacuating refrigerant from the fluid recovery conduit by vacuum pressure generated by the vacuum pump for a second period of time. This method may be repeated for a plurality of cycles. | 07-24-2014 |
20140180278 | SYSTEM AND METHOD FOR MONITORING BIOIMPEDANCE AND RESPIRATION - A method of treating tissue is provided, including positioning a portion of a catheter in proximity to cardiac tissue; measuring an impedance value with the catheter; determining a respiratory rate based at least in part on the measured impedance value; and thermally treating the cardiac tissue with the catheter. | 06-26-2014 |
20140088580 | METHOD AND SYSTEM FOR PREVENTING NERVE INJURY DURING A MEDICAL PROCEDURE - A method of treating tissue is provided, including positioning a stimulation device proximate a phrenic nerve; stimulating the phrenic nerve with the stimulation device; measuring a physiological response to the stimulation; defining a threshold physiological response value based at least in part on the measured physiological response; positioning a thermal treatment element proximate to an arrhythmogenic cardiac tissue region; applying a thermal treatment regimen to the cardiac tissue region with the medical device; measuring a physiological parameter during the thermal treatment regimen application; and conveying the measured physiological parameter to a controller, the controller comparing the measured physiological parameter to the defined physiological response value threshold, the controller adjusting the thermal treatment regimen in response to the comparison of the measured physiological parameter to the defined physiological response value threshold. | 03-27-2014 |
20140031804 | DEVICE AND METHOD FOR ABLATING TISSUE - A method and system for ablating a tissue region. In an exemplary embodiment, the method includes positioning a medical device including a deformable and helical distal portion in contact with a tissue region, the a helical distal portion including a plurality of turns each having a diameter, the diameter of each turn being greater than the diameter of the next distal turn, compressing the helical distal portion against the tissue region, deforming the distal portion into a substantially concentric spiral, and activating one or more treatment elements and ablating the target tissue. The method may further include advancing the uncompressed helical distal portion into a hollow anatomical feature, such as a pulmonary vein, and activating one or more treatment elements and ablating the target tissue. | 01-30-2014 |
20130288218 | CARDIAC MODEL FOR SIMULATING MEDICAL PROCEDURES - A resilient model of a heart's atria and associated vasculature is disclosed. The model is generated from CT scans of patients' with varying cardiac anatomies. The model is connected to a temperature-controlled fluid reservoir and a pump that periodically circulates fluid through the cardiac model. The model provides a visual indication of temperature change. The model may be used to simulate endocardial procedures such as pulmonary vein isolation for treatment of atrial fibrillation. | 10-31-2013 |
20130281997 | METHOD FOR TREATMENT OF VT USING ABLATION - A method and system for treating ventricular tachycardia (VT) by ablating scarred myocardial tissue containing a reentrant VT circuit. The method generally includes measuring electrical activity at a plurality of sites within a heart, identifying an area of scarred myocardial tissue based at least in part on the electrical activity measurements, and ablating substantially all of the scarred area. The system generally includes a medical device having a distal end, a plurality of electrical conduction sensors coupled to the distal end, and a console in communication with the distal end of the device, the console including a computer with display. The computer may be programmed to identify optimal ablation sites within a target tissue and the location of an isthmus associated with a reentrant VT circuit within a target tissue, the identifications being based at least in part on the measurements of the electrical conduction sensors. | 10-24-2013 |
20130218151 | COMPLIANT BALLOON CATHETER - A catheter includes a first expandable membrane having a first pressurization limit and a second expandable membrane, having a second pressurization limit, wherein the second pressurization limit is greater than the first pressurization limit, the first expandable membrane defines a cooling chamber, the second expandable membrane being disposed around the first expandable membrane to define an junction therebetween. The catheter includes a coolant injection lumen in fluid communication with the at least one fluid inlet port and the cooling chamber, and a primary coolant return lumen in fluid communication with the at least one fluid outlet port and the cooling chamber. The coolant injection tube, the cooling chamber, and the primary coolant return lumen define a first fluid pathway. The catheter further includes a secondary coolant return lumen in fluid communication with the at least one fluid outlet port and the junction. The junction and the secondary coolant return lumen define a second fluid pathway. The catheter provides a fail-safe feature by selecting the appropriate first and second pressurization limits for the first and second expandable membranes. | 08-22-2013 |
20130197501 | CRYOGENIC MEDICAL SYSTEM AND METHOD WITH STABILIZER - A system and method is disclosed for cryogenic medical treatment, having a stabilizer for a reservoir of cryogenic fluid. Accordingly, the stabilizer allows the reservoir some limited range of motion to enhance accuracy of a load sensor engaged by the reservoir, and to resist tipping or other undesirable movement by the reservoir. The stabilizer may allow the reservoir a range of vertical movement, and may limit the reservoir to a range of positions or alignments relative to the load sensor. Additional configurations are disclosed, providing stabilizers of various types and features. | 08-01-2013 |
20130197499 | BALLOON DESIGN TO ENHANCE COOLING UNIFORMITY - A device, system, and method for enhancing cooling uniformity and efficiency of cryogenic fluids and providing a treatment element the shape of which can be adjusted for multiple purposes. The device may include a balloon catheter and fluid dispersion element, the fluid dispersion element directing the flow of coolant from a fluid injection element the interior wall of the balloon. The method of changing the shape of the treatment element may include retracting and extending a shaft to which the distal neck of a balloon is coupled, so that the balloon goes from a first shape to a second shape. | 08-01-2013 |
20130197497 | BALLOON CATHETER - A medical device including a catheter body defining a proximal portion and a distal portion. An expandable element is included defining a proximal end and a distal end, the proximal end being coupled to the distal portion of the catheter body. A tip element coupled to the distal end of the expandable element is included, the tip element including a shaft slideably receivable within a portion of the catheter body. A tensioning element coupled to the shaft and disposed within the expandable element is included, the tensioning element being engageable with the distal end of the catheter body and biasing the expandable element toward a pre-determined longitudinal position. An electrode array defining a substantially closed loop affixed to and extending from the tip element is also included. | 08-01-2013 |
20130197496 | CRYO SENSITIZING AGENTS FOR THE ENHANCEMENT OF CRYOTHERAPY - A method and device for treating tissue with temperature-sensitizing adjuvants to enhance the effects of ablation therapy. The method may comprise identifying tissue to receive ablation therapy, treating the tissue with a temperature-sensitizing agent, and activating an ablation therapy device proximate the treated tissue. The device may comprise a cryo-sensitizing adjuvant operable in association with a cryotherapy device, the cryo-sensitizing adjuvant enhancing the effectiveness of tissue destruction upon application of temperatures below 0° C. | 08-01-2013 |
20130172866 | METHOD AND APPARATUS FOR INFLATING AND DEFLATING BALLOON CATHETERS - A system and method for controlling the inflation, ablation, and deflation of a balloon catheter. The system includes a balloon catheter, a console, a pressurized gas or liquid inflation source, and an umbilical system to deliver pressurized coolant to the balloon catheter. The system may include controller that monitors the amount of pressure and volume within the balloon catheter. During inflation, the pressure and/or volume of fluid within the balloon is maintained at a target amount in order to provide sufficient mechanized pressure against the desired target region. The system limits the inflation pressure such that a safe quantity of gas would be released should a leak occur. If the amount falls below a certain threshold level, gas or fluid egress is presumed and the inflation process is halted. | 07-04-2013 |
20130165927 | SURGICAL CLAMP HAVING TREATMENT ELEMENTS - A medical device is provided having a means for actuating a pair of opposing jaw members. The jaw members are movable relative to one another from a first position, wherein the jaw members are disposed in a spaced apart relation relative to one another, to a second position, wherein the jaw members cooperate to grasp tissue therebetween. An ablation tool is connected to at least one of the jaws members, such that the jaw members are capable of conducting ablation energy through the tissue grasped therebetween. | 06-27-2013 |
20130110148 | SYSTEMS AND METHODS FOR CRYOADHESIVE TRANSSEPTAL PUNCTURES | 05-02-2013 |
20130110100 | SYSTEMS AND METHODS FOR VARIABLE INJECTION FLOW | 05-02-2013 |
20130110099 | SYSTEMS AND METHODS FOR VARIABLE INJECTION FLOW | 05-02-2013 |
20130110098 | CRYOGENIC BALLOON DEVICE WITH RADIOFREQUENCY TIP | 05-02-2013 |
20130109994 | METHOD FOR MONITORING PHRENIC NERVE FUNCTION | 05-02-2013 |
20130104993 | SYSTEMS AND METHODS FOR VARIABLE INJECTION FLOW | 05-02-2013 |
20130018369 | SYSTEMS AND METHODS FOR TREATMENT IN PROXIMITY TO SENSITIVE TISSUE STRUCTURESAANM MIHALIK; Teresa AnnAACI EncinitasAAST CAAACO USAAGP MIHALIK; Teresa Ann Encinitas CA US - A method of treating a target tissue including positioning a treatment element of a medical device adjacent the target tissue; setting a first target temperature of the treatment element; operating the treatment element to reach the first target temperature; thermally treating the target tissue with the treatment element; monitoring a physiological parameter; setting a second target temperature of the treatment element based on the monitored physiological parameter; and operating the treatment element to reach the second target temperature. | 01-17-2013 |
20120271291 | FLUID CONTROL SYSTEM FOR A MEDICAL DEVICE - The present invention provides a medical device having an elongate body with both a proximal end and a distal end, wherein the elongate body defines an intake lumen and an exhaust lumen. The medical device also has a first pliable element defining a cooling chamber disposed at a point along the elongate body, with the cooling chamber being in fluid communication with the intake lumen and the exhaust lumen. A second pliable element is provided which at least partially encloses the first pliable element, thereby defining a junction between the first and second pliable element. A check valve is included which is in fluid communication with the junction between the first pliable element and second pliable element, the valve further being in fluid communication with the exhaust lumen. Additionally, the medical device may include sensors or other monitoring means in fluid communication with the junction and the cooling chamber. | 10-25-2012 |
20120165802 | METHOD AND SYSTEM TO PREVENT COMPLETE OBSTRUCTION IN CATHETER IN CASE OF A KINK - A medical device comprising a shaft having a kink radius; a tube disposed within the shaft; a fluid source in fluid communication with the tube; an elongate member disposed within the tube, and the elongate member imparting a kink radius on the tube, the imparted kink radius of the tube being larger than the kink radius of the shaft. | 06-28-2012 |
20120109119 | COMPATIBLE CRYOGENIC COOLING SYSTEM - A method of operating a medical system, including coupling a medical system to an outlet of a fluid distribution network having a plurality of fluid outlets in a patient treatment center; delivering fluid from the outlet to the medical system; compressing the delivered fluid with the medical system; decreasing the moisture content of the delivered fluid with the medical system; cooling the fluid with the medical system; delivering the fluid from the medical system to a medical device; and removing the fluid from medical device with the medical system. | 05-03-2012 |
20120101485 | BALLOON CATHETER WITH DEFORMABLE FLUID DELIVERY CONDUIT - A medical device, including an elongate body having a proximal portion and a distal portion; a shaft at least partially disposed within the elongate body; an expandable element at the distal portion of the elongate body; and a fluid delivery conduit defining a deflectable segment movably coupled to the shaft, the deflectable segment being transitionable from a substantially linear configuration to a substantially curvilinear configuration. | 04-26-2012 |
20120065631 | CATHETER WITH CRYOGENIC AND ELECTRICAL HEATING ABLATION - A catheter includes a cryoablation tip with an electrically-driven ablation assembly for heating tissue. The cryoablation tip may be implemented with a cooling chamber through which a controllably injected coolant circulates to lower the tip temperature, and having an RF electrode at its distal end. The RF electrode may be operated to warm cryogenically-cooled tissue, or the coolant may be controlled to conductively cool the tissue in coordination with an RF treatment regimen. | 03-15-2012 |
20120035601 | CRYOGENIC MEDICAL MAPPING AND TREATMENT DEVICE - A medical device and method are provided for mapping and therapeutic treatment, which may include a source of cryogenic fluid, a balloon or other expandable member in fluid communication with the source of cryogenic fluid, and a plurality of electrodes on the expandable member. The medical device may include a catheter or elongate body, and the electrodes may take the form of longitudinal strips. The expandable member may take the form of an inner and outer balloon, and the electrodes may be on the outer balloon. The electrodes may be on a proximal or distal conical portion of the expandable member, or both. An electrical insulator may be provided covering a portion of the electrodes. | 02-09-2012 |
20120029495 | ENDOLUMINAL ABLATION CRYOBALLOON AND METHOD - A method of ablating tissue is provided, including positioning an expandable element of a catheter in a blood vessel; inflating the expandable element with a volume of refrigerant to substantially occlude the blood vessel; measuring the volume of refrigerant used to inflate the expandable element; correlating the measured volume to an inflated dimension of the expandable element; defining at least one of a target pressure within the expandable element and a target flow rate for refrigerant delivery to the expandable element based at least in part on the inflated dimension; regulating refrigerant delivery to the expandable element to attain the at least one defined target pressure within the expandable element or defined target flow rate for fluid delivery to the expandable element; and ablating at least a portion of the blood vessel with the expandable element. | 02-02-2012 |
20120029494 | DEVICE AND METHOD FOR PULMONARY VEIN ISOLATION - An intravascular catheter is provided, including a flexible elongate body; an expandable element positioned on the elongate body; a substantially linear thermal segment located distally of the expandable element; a first fluid flow path in fluid communication with the expandable element; and a second fluid flow path in fluid communication with the substantially linear thermal segment. | 02-02-2012 |
20120010605 | CRYOSURGICAL CATHETER - A cryogenic catheter includes an outer flexible member having at least one cryogenic fluid path through the flexible member. The at least one fluid path is defined by a plurality of flexible members disposed within the outer flexible member. | 01-12-2012 |
20110196359 | CATHETER WITH CRYOGENIC AND ELECTRICAL HEATING ABLATION - A catheter includes a cryoablation tip with an electrically-driven ablation assembly for heating tissue. The cryoablation tip may be implemented with a cooling chamber through which a controllably injected coolant circulates to lower the tip temperature, and having an RF electrode at its distal end. The RF electrode may be operated to warm cryogenically-cooled tissue, or the coolant may be controlled to conductively cool the tissue in coordination with an RF treatment regimen. | 08-11-2011 |
20110190750 | MULTIFUNCTIONAL ABLATION DEVICE - An intravascular catheter is provided, including a flexible elongate body; an expandable element positioned on the elongate body; a substantially linear thermal segment located proximally of the expandable element, the thermal segment defining a first flexibility, where the thermal segment is positioned between two portions of the catheter body each including a flexibility less than that of the thermal segment; a first fluid flow path in fluid communication with the expandable element; and a second fluid flow path in fluid communication with the thermal segment. | 08-04-2011 |
20110184400 | TRIPLE BALLOON CATHETER - The present invention advantageously provides a method and system for cryogenically ablating large areas of tissue within the left atrium. In an exemplary embodiment a cryotherapy device includes a catheter body, a proximal end and a distal end; a first lumen; a second lumen; and an ablation element expandable from a first diameter to a second diameter, the ablation element having a surface portion that conforms to the uneven surface topography of the cardiac tissue. The ablation element can include one or more deformable balloon and/or flexible elements. The surface of the balloon can further be shaped by regulation of pressure within the one or more balloons. In an exemplary method, a tissue ablation device is provided and tissue in the left atrium is ablated with the device, whereby the ablation is created by freezing tissue. | 07-28-2011 |
20110184399 | PARTIALLY COMPLIANT BALLOON DEVICE - A medical device is provided, having an elongate body defining a distal portion and a proximal portion; a first expandable member disposed on the distal portion of the elongate body and defining a cooling chamber therein, the first expandable member having a first rigidity; a second expandable member disposed around the first expandable member to define an interstitial region therebetween, where the second expandable member has a second rigidity less than the first rigidity; a gel disposed within the interstitial region; a coolant flow path in fluid communication with the cooling chamber; and a cryogenic coolant source in fluid communication with the coolant flow path. | 07-28-2011 |
20110184398 | CRYOBALLOON REFRIGERANT DISPERSION CONTROL - A catheter based medical device including controlled refrigerant dispersion is disclosed. The device includes a fluid injection tube that carries refrigerant from a coolant supply to the distal portion of the device. An open distal end or one or more orifices may be provided on the injection tube for the refrigerant to be expelled into an expandable chamber such as a balloon disposed on the distal portion of the catheter. The dispersion of the refrigerant from the injection tube may be controlled or manipulable to direct the refrigerant to one or more target locations. | 07-28-2011 |
20110144637 | Vein Occlusion Devices and Methods for Catheter-Based Ablation - Medical devices and methods for deriving an indication of occlusion of a blood vessel from one or more physiologic sensor are disclosed. The physiological parameters contemplated for implementation in accordance with embodiments of the disclosure may include pressure, flow, force, temperature, or tension. | 06-16-2011 |
20110098761 | METHOD AND SYSTEM FOR PREVENTING NERVE INJURY DURING A MEDICAL PROCEDURE - A method of treating tissue is provided, including positioning a stimulation device proximate a phrenic nerve; stimulating the phrenic nerve with the stimulation device; measuring a physiological response to the stimulation; defining a threshold physiological response value based at least in part on the measured physiological response; positioning a thermal treatment element proximate to an arrhythmogenic cardiac tissue region; applying a thermal treatment regimen to the cardiac tissue region with the medical device; measuring a physiological parameter during the thermal treatment regimen application; and conveying the measured physiological parameter to a controller, the controller comparing the measured physiological parameter to the defined physiological response value threshold, the controller adjusting the thermal treatment regimen in response to the comparison of the measured physiological parameter to the defined physiological response value threshold. | 04-28-2011 |
20110092967 | DEFLATION MECHANISM FOR A MEDICAL DEVICE - A method and system for delivering coolant to a medical device having an expandable element, a guidewire lumen movable within the medical device, and an actuator element coupled to the guidewire lumen for manipulation of longitudinal movement thereof is provided, including transferring a fluid from a console to the medical device to inflate the expandable element; manipulating the actuator element, and initiating a predetermined fluid control sequence of the console in response to the manipulation of the actuator element. | 04-21-2011 |
20100286677 | CRYOSURGICAL CATHETER - A cryogenic catheter includes an outer flexible member having at least one cryogenic fluid path through the flexible member. The at least one fluid path is defined by a plurality of flexible members disposed within the outer flexible member. | 11-11-2010 |
20100286676 | CRYOSURGICAL CATHETER - A cryogenic catheter includes an outer flexible member having at least one cryogenic fluid path through the flexible member. The at least one fluid path is defined by a plurality of flexible members disposed within the outer flexible member. | 11-11-2010 |
20100211056 | COMPLIANT BALLOON CATHETER - A catheter includes a first expandable membrane having a first pressurization limit and a second expandable membrane, having a second pressurization limit, wherein the second pressurization limit is greater than the first pressurization limit, the first expandable membrane defines a cooling chamber, the second expandable membrane being disposed around the first expandable membrane to define an junction therebetween. The catheter includes a coolant injection lumen in fluid communication with the at least one fluid inlet port and the cooling chamber, and a primary coolant return lumen in fluid communication with the at least one fluid outlet port and the cooling chamber. The coolant injection tube, the cooling chamber, and the primary coolant return lumen define a first fluid pathway. The catheter further includes a secondary coolant return lumen in fluid communication with the at least one fluid outlet port and the junction. The junction and the secondary coolant return lumen define a second fluid pathway. The catheter provides a fail-safe feature by selecting the appropriate first and second pressurization limits for the first and second expandable membranes. | 08-19-2010 |
20100204687 | MESH LEAK DETECTION SYSTEM FOR A MEDICAL DEVICE - The present invention provides a surgical device including an elongate body defining a fluid flow path therethrough. An expandable element may be coupled to the elongate body and placed in fluid communication with the fluid flow path. Moreover, the surgical device may include a first leak detection element at least partially surrounding a portion of the expandable element, and a second leak detection element may be provided in fluid communication with the fluid flow path. In addition, a console may be provided, where the console may be in communication with the first and second leak detection elements. Further, a supply of cryogenic fluid as well as a vacuum source may be provided in fluid communication with the fluid flow path. | 08-12-2010 |
20100114269 | VARIABLE GEOMETRY BALLOON CATHETER AND METHOD - A medical device is provided that may include a catheter body having proximal and distal portions, a fluid injection lumen disposed within elongate body, and a guidewire lumen disposed within the elongate body. A tip portion defining a cavity in fluid communication with the fluid injection lumen may be coupled to the distal end of the guidewire lumen, and an expandable element may be coupled to the distal portion of the catheter body and to the tip portion, such that the expandable element is in fluid communication with the fluid injection lumen. A shaping element may at least partially surround the expandable element, where the shaping element is configurable in a first geometric configuration and a second geometric configuration. | 05-06-2010 |