Patent application number | Description | Published |
20080275437 | CONNECTOR DEVICE FOR ELECTROPHYSIOLOGY PROBE - A flexible connector for securing an ablation probe in a looped configuration around the pulmonary veins of a heart includes a flexible base member having first and second apertures dimensioned to receive the ablation probe and wherein the flexible base member is slidable along a length of the ablation probe when the ablation probe is positioned within the first and second apertures. The flexible base member further includes a third aperture dimensioned to receive a looped portion of the ablation probe. The flexible connector is advanced along the length of the ablation probe to form a crossover point with the returning portion of the ablation probe. A tether is secured to the flexible base member and is used to withdraw or remove the flexible connector. | 11-06-2008 |
20080275479 | ANASTOMOTIC SEAL LOADING TOOL - Described herein are methods and devices for loading an anastomotic seal into a delivery lumen. A loading device can fold the seal into a configuration for insertion into the delivery lumen. For example, the loading device can fold the seal into a prolate spheroidal shape. The delivery lumen can then be inserted into the loading device and mated with the folded seal. | 11-06-2008 |
20080275501 | MEDICAL DEVICE LOADING AND DELIVERY SYSTEMS AND METHODS - Described herein are systems and methods for inserting a hemostatic seal into a delivery device. One such system can include a loading tool and a delivery device configured to detachably mate with one another. The loading tool can house a hemostatic seal in its unfolded configuration and can fold the seal for delivery into the delivery device. The delivery device can then be advanced into the loading tool to insert the seal into the delivery device. | 11-06-2008 |
20080306333 | Apparatus and Method for Endoscopic Surgical Procedures - Apparatus and method for performing surgical procedures within the mediastinum and within the pericardium include an endoscopic cannula having a transparent tip, and an endoscope for introduction into the mediastinum and optionally into the pericardium via a single subxiphoid incision. A cavity may be initially dilated for advancing the endoscopic cannula using a dilating tool that exerts a lateral-expansive force against surrounding tissue for evaluating the endoscopic cannula to be introduced into the mediastinum. Other surgical instruments are positioned through the endoscopic cannula to cut a flap of the pericardium as an opening through which other surgical apparatus may be introduced. The endoscopic cannula may be swept around selected regions of the heart through an aperture near the apex of the heart to facilitate placement of epicardial tacks about regions of the heart. | 12-11-2008 |
20080306335 | Endoscopic vessel harvesting system components - Components for an endoscopic vessel harvesting system suitable for harvesting target vessels such as the saphenous vein or radial artery for cardiac artery bypass graft surgery. The main components of such systems include a vessel dissector and a vessel harvester, both of which work in conjunction with a separately provided endoscope. The vessel dissector is an elongated cannula having a blunt tip for separating layers of facial around vessels. The tip may be movable, and is typically transparent to permit viewing forward of the tip using the endoscope. Internal features of the tip may reduce glare back to the endoscope. Several devices improve visibility through the tip by reducing interference from tissue or fluid on the tip. The vessel harvester also has an elongated cannula for receiving the endoscope. Several tools within the harvester permit manipulation, severing, and sealing of vessels forward of the distal end. The tool for manipulating vessels may have a low-profile for increased visibility of operation, and may be coupled to the cannula with a damping mechanism to reduce the possibility of avulsion of the vessels. Various vessel cutting and sealing devices are provided that may accommodate various sizes of vessels and improve cutting and sealing efficacy. | 12-11-2008 |
20090023986 | Vessel Harvesting - Apparatus and method for harvesting selected vessels in the body of a patient include manual manipulation of a rigid dissecting endoscope and the reconfiguration thereof to facilitate tissue dissection and tissue dilation in the formation of an anatomical space about the vessel within which side-branch vessels may be manipulated in preparation for severance and removal of the vessel from the anatomical space. | 01-22-2009 |
20090024156 | Tissue Dissection Method - A cannula includes a tubular body and an endoscope for viewing through a transparent, blunt, tissue-separating tip substantially covering the distal end of the body. Endoscopic viewing through the tip is enhanced by inner walls that taper to a cusp adjacent the blunt tip in order to reduce visual distortion. Alternatively, a cannula includes a dissection probe and a removable or deflectable tip for exposing the probe and endoscope to facilitate viewing and the dissection of connective tissue and lateral vessels along the dissected cavity. Methods of using such cannulas produce an elongated cavity along the course of a vessel for subsequent harvesting or other treatment of the isolated vessel. Lateral branch vessels of a main vessel to be harvested are doubly clipped or otherwise doubly occluded, and then severed to isolate the main vessel for use, for example, in revascularizing the coronary artery. | 01-22-2009 |
20090043243 | METHODS AND DEVICES FOR LOADING TEMPORARY HEMOSTATIC SEALS - Disclosed herein are methods, devices, and systems for folding a sealing element. A loader can receive a substantially unfolded sealing element, which when moved through the loader is configured for receipt in an insertion instrument. For example, the sealing element can be folded into a substantially prolate spheroidal shape. The folded sealing element can then be inserted into the insertion instrument. In one aspect, the loader is adapted to allow insertion of the folded sealing element into the insertion instrument when the folded sealing element is within a channel of the loader. | 02-12-2009 |
20090093809 | DEVICES AND METHODS FOR MINIMALLY-INVASIVE SURGICAL PROCEDURES - Devices, instruments and tools for minimally invasive surgical procedures. Port devices and methods for hemostatically sealing and providing a port through a tissue wall that interfaces with a fluid containing chamber, by minimally invasive techniques. Assemblies, instruments and methods for minimally invasive access to and through a tissue wall that interfaces with a fluid containing chamber, and for visualizing same. Instruments, assemblies and methods for minimally invasive surgical procedures, including ablation. | 04-09-2009 |
20090131747 | Instrument And Method For Remotely Manipulating A Tissue Structure - A retractor and a surgical tool are positioned within a cannula, and a dissection cradle of the retractor is positioned at the distal end of the cannula. The retractor includes a dissection cradle that is resiliently supported along an axis skewed relative to the axis of the cannula. The dissection cradle, in operation, is extended to cradle the target vessel, and the retractor may be fully extended to urge the vessel away from the axis of the cannula to isolate a side branch for exposure to a surgical tool. The retractor includes a hollow support and a spray nozzle disposed in the distal end of the retractor to form an irrigation system and lens washer that can be selectively positioned to direct the spray of irrigation fluid at a remote surgical site or at an endoscopic lens. | 05-21-2009 |
20090131907 | Endoscopic Cardiac Surgery - Apparatus and surgical methods establish temporary suction attachment to a target site on the surface of a bodily organ for enhancing accurate placement of a surgical instrument maintained in alignment with the suction attachment. A suction port on the distal end of a supporting cannula provides suction attachment to facilitate accurate positioning of a needle for injection penetration of tissue at the target site on the moving surface of a beating heart. Force applied via the suction attachment to the surface of the heart promotes perpendicular orientation of the surface of the myocardium for enhanced accuracy of placement of a surgical instrument thereon. A hollow needle and a supporting channel therefor, each include a slot along an outer wall between ends thereof, are selectably rotatable to align the slots for releasing a cardiac lead from within the needle through the aligned slots. | 05-21-2009 |
20090177035 | ENDOSCOPE INSTRUMENTS SYSTEMS AND METHODS FOR CLOSED CHEST EPICARDIAL ABLATION - Endoscopic surgical instruments, lens elements and methods of treating or ablating tissue such as epicardial surfaces of cardiac tissue. An endoscopic surgical instrument includes an elongate shaft, a lens attached to the distal end of the shaft, and a coupling element extending from or attached to the lens. The distal end of the lens can protrude through the coupling element so that an ablation element, such as a flexible microwave ablation element, held by the coupling element is in the line of sight of the lens. Embodiments can be used to selectively ablate epicardial surfaces to treat atrial fibrillation and form more complete lesions around pulmonary veins without severing or penetrating a pericardial reflection near the superior vena cava. | 07-09-2009 |
20090209986 | Devices, Tools and Methods for Atrial Appendage Exclusion - Devices, tools and methods for occluding fluid flow between two walls of tissue in a patient. Two walls of tissue are compressed together with sufficient compressive force to prevent fluid flow between the two walls, while ensuring that the compressive force is not so great as to cause tissue necrosis. The devices, tools and methods may be carried out using minimally invasive surgical techniques, such as in reduced-access surgical sites. Devices, tools and methods are provided for occluding an atrial appendix. | 08-20-2009 |
20100004504 | EPICARDIAL CLIP - An epicardial clip for reshaping the annulus of the mitral valve of a heart. The epicardial clip includes a curved member having an anterior segment configured to be positioned in the transverse sinus of the heart, a posterior segment configured to be positioned on the posterior side of the heart, such as on or inferior to the atrioventricular groove, and a lateral segment extending between the anterior segment and the posterior segment. The lateral segment includes a curve such that the first end of the member is positioned at or above the plane of the mitral valve and the second end of the member is positioned at or below the plane of the mitral valve. | 01-07-2010 |
20100174149 | ENDOSCOPIC INFLATABLE RETRACTION DEVICE, METHOD OF USING, AND METHOD OF MAKING - A method of providing access to tissue for a surgical instrument through a body wall is provided. The method includes providing an expandable retractor having a flexible sheath, the retractor being in a collapsed state; introducing the retractor into the body and placing the retractor adjacent the tissue; expanding the retractor; deploying the flexible sheath by engaging the flexible sheath with a tool and driving the flexible sheath through the body wall with the tool; and inserting the surgical instrument from outside the body through the flexible sheath to provide access to the tissue by the surgical instrument. | 07-08-2010 |
20100191043 | METHODS AND DEVICES FOR ISOLATING A VESSEL - A method of harvesting a target vessel includes creating a first incision, inserting a light source into a vessel through the first incision, the vessel located next to the target vessel, using the light source to illuminate a portion of the vessel, locating the target vessel from outside the vessel using the illuminated portion of the vessel, and dissecting at least a portion of the target vessel from surrounding tissue. A method that involves a target vessel includes inserting a light source into a vessel that is located next to the target vessel, providing light inside the vessel using the light source, and using light transmitted through a wall of the vessel to illuminate the target vessel or tissue next to the target vessel. | 07-29-2010 |
20100280324 | Organ Manipulator Having Suction Member Supported with Freedom to Move Relative to Its Support - An organ manipulator including at least one suction member or adhesive disk mounted to a joint providing freedom of movement of the at least one suction member or adhesive disk relative to its support. A method for retracting and maintaining an organ in a retracted position using suction (or adhesive force) so that the organ is free to move normally (e.g., to beat or undergo other limited-amplitude motion) is provided. | 11-04-2010 |
20110152918 | Reversible Vascular Filter Devices and Methods for Using Same - The present invention provides, in one embodiment, a vascular filter device for capturing dislodged blood clots within a vessel. The vascular filter device includes an expandable framework for securing the device within a vessel. The device also a pathway extending through the framework. The device further includes at least one filter in alignment with the pathway for capturing dislodged clots or emboli. In an embodiment, the filter can be given form by a material that can be easily eliminated in situ to permit reestablishment of the pathway. | 06-23-2011 |
20110152919 | Reversible Vascular Filter Devices and Methods for Using Same - The present invention provides, in one embodiment, a vascular filter device for capturing dislodged blood clots within a vessel. The vascular filter device includes an expandable framework for securing the device within a vessel. The device also includes a pathway extending through the framework. The device further includes at least one filter in alignment with the pathway for capturing dislodged clots or emboli. In an embodiment, the filter can be given form by a material that can be easily eliminated in situ to permit reestablishment of the pathway. | 06-23-2011 |
20110172584 | SYSTEMS AND METHODS FOR BARIATRIC THERAPY - The present invention provides bariatric therapy systems. One system includes a gastrointestinal implant device and a delivery mechanism therefor. The device can include a sleeve for placement into a small intestine and to minimize absorption of nutrients by its walls. An anchoring mechanism coupled to a proximal end of the sleeve and designed to be secured within the stomach can be provided. A passageway extending through the anchoring mechanism and the sleeve can also be provided, along which food can be directed from the stomach to the small intestine. The delivery mechanism can include a housing for accommodating the device, and a deploying balloon situated within the housing and which can be actuated to direct the sleeve of the device from within the housing to the site of implantation. Methods for providing bariatric therapy are also provided by the present invention. | 07-14-2011 |
20110178543 | SYSTEMS AND METHODS FOR REMOVAL OF INTRAVASCULAR LEADS - Systems and methods for extraction of implanted articles are disclosed. According to aspects illustrated herein, there is provided a system for extraction of an implanted article that includes an elongated member and a guide member disposed at a distal section of the elongated member. The guide member may define a pathway through which an implanted article can be securely received. The device can further include a dissection mechanism, coupled to the elongated member and designed to be positioned about the implanted article, for dissecting a fibrous adhesion about the implanted article. | 07-21-2011 |
20110202077 | Temporary Anastomotic Seal and Method - Forming a proximal anastomosis on an aortic wall includes method and instrumentation and apparatus for forming an aortic puncture and inserting into the vessel through the puncture a fluid-impervious sealing element with a protruding retainer. An anastomosis of a graft vessel over the puncture is partially completed with the retainer of the sealing element protruding through the partial anastomosis. The retainer facilitates removal of the sealing element from the partial anastomosis prior to completion of the procedure. | 08-18-2011 |
20110202082 | TISSUE DISSECTOR APPARATUS AND METHOD - Surgical apparatus and method includes a cannula that houses an endoscope and supports a dilating element near a distal end of the cannula. The dilating element has a dimension which is greater than the diameter of the cannula for enlarging a surgical cavity in tissue as the cannula is advanced through tissue at a surgical site to provide working space adjacent a target vessel within which surgical instruments may be conveniently manipulated. The dilating element of oval sided shape permits surrounding tissue to be pushed away or otherwise displaced away from the target vessel atraumatically. A locking mechanism is disposed on the cannula, which accepts a succession of mating dilating elements of progressively larger dimensions for successive insertion and enlargement of a surgical cavity as required. In one embodiment, the dilating element is made of rigid plastic, and in another embodiment, the dilating element is made of resilient material that may be confined within a retractable sheath which, in the extended position, encases and compresses the dilating element to a smaller dimension and which, in a retracted position, allows the dilating element to resiliently expand and enlarge the surgical cavity. | 08-18-2011 |
20110213290 | Systems and Methods for Removing Undesirable Material Within a Circulatory System - A system for removing undesirable material from vessels and from chambers within the heart is provided. The system includes a suction cannula for removing the undesirable material from a site of interest within a patient. A filter device may be provided for capturing the undesirable material and removing it from the fluid flow. The system also includes pump for generating the necessary suction force through the suction cannula to dislodge the undesirable material from the site of interest and for generating a sufficient driving force to direct the fluid flow downstream within the system. The system further includes a reinfusion cannula for introducing fluid removed from the site of interest back into a patient. A method for removing undesirable material from vessels and from heart chambers is also provided. | 09-01-2011 |
20110213296 | Blower Instrument, Apparatus and Methods of Using - A surgical blower for providing a directed stream to clear a surgical site, that can be used in multiple different use modes. In one use mode, the surgical blower is handheld by a user during operation. In another mode, a distal end portion of the blower is fixed to a foot of a stabilizer instrument and the handle of the blower is handheld. In another mode, a distal end portion of the blower is fixed to a foot of a stabilizer instrument and the handle of the blower is fixed to a stationary object such as a sternal retractor. In another mode, the distal end of the blower is free and the handle of the blower is fixed to a stationary object. An apparatus including a blower and a stabilizer is provided. Methods of using the blower as well as the apparatus are also provided. | 09-01-2011 |
20110213398 | Systems and Methods for Removal of Intravascular Leads - Systems and methods for extraction of implanted articles are disclosed. According to aspects illustrated herein, there is provided a system for extraction of an implanted article that includes an elongated member, guide member disposed at a distal section of the elongated member and having a pathway in substantially parallel relationship to the elongated member, through which pathway an implanted article can be accommodated, and a cutting mechanism, situated between the distal section of the elongated member and the guide member, for severing a fibrous adhesion about the implanted article to allow the implanted article to be extracted. | 09-01-2011 |
20110213413 | ANEURYSM SENSING DEVICES AND DELIVERY SYSTEMS - A system for gaining access to an interventional site within vasculature through a vessel wall or other structure such as that of a medical device. An apparatus is provided to accomplish a sealed worksite as are sensor delivery systems including sealable sensor devices that are adapted to be placed at the interventional site. | 09-01-2011 |
20110213469 | Systems and Methods for Bariatric Therapy - The present invention provides bariatric therapy systems. One system includes a gastrointestinal implant device and a delivery mechanism therefor. The device can include a sleeve for placement into a small intestine and to minimize absorption of nutrients by its walls. An anchoring mechanism coupled to a proximal end of the sleeve and designed to be secured within the stomach can be provided. A passageway extending through the anchoring mechanism and the sleeve can also be provided, along which food can be directed from the stomach to the small intestine. The delivery mechanism can include a housing for accommodating the device, and a deploying balloon situated within the housing and which can be actuated to direct the sleeve of the device from within the housing to the site of implantation. Methods for providing bariatric therapy are also provided by the present invention. | 09-01-2011 |
20110224715 | Reversible Vascular Filter Devices and Methods for Using Same - The present invention provides, in one embodiment, a vascular filter device for capturing dislodged blood clots within a vessel. The vascular filter device includes an expandable framework for securing the device within a vessel. The device also includes a pathway extending through the framework. The device further includes at least one filter in alignment with the pathway for capturing dislodged clots or emboli. In an embodiment, the filter can be given form by a material that can be easily eliminated in situ to permit reestablishment of the pathway. | 09-15-2011 |
20120010463 | INSTRUMENT AND METHOD FOR REMOTELY MANIPULATING A TISSUE STRUCTURE - A retractor and a surgical tool are posittioned within a cannula, and a dissection cradle of the retractor is positioned at the distal end of the cannula. The retractor includes a dissection cradle that is resiliently supported along an axis skewed relative to the axis of the cannula. The dissection cradle, in operation, is extended to cradle the target vessel, and the retractor may be fully extended to urge the vessel away from the axis of the cannula to isolate a side branch for exposure to a surgical tool. The retractor includes a hollow support and a spray nozzle disposed in the distal end of the retractor to form an irrigation system and lens washer that can be selectively positioned to direct the spray of irrigation fluid at a remote surgical site or at an endoscopic lens. | 01-12-2012 |
20120109144 | Systems and Methods for Tissue or Organ Removal - A system for tissue or organ removal is provided. The system has an outer bag having an exit end, and an inner bag situated within the outer bag and having an opening capable of receiving an organ or tissue. The inner bag may be sealed to the exit end of the outer bag about its opening. A fluid-tight space may be situated between the outer bag and the inner bag. The space may be designed to accommodate positive pressure which can act on the inner bag to cause the inner bag to evert and expel the organ or tissue. The system may also include an organ receiving component for receiving the organ as it is expelled. Methods for tissue or organ removal is also provided. | 05-03-2012 |
20120143225 | ENDOSCOPIC FASCIAL CLOSURE DEVICES AND METHODS FOR USING SAME - A system is disclosed including a first expandable anchor and a second expandable anchors. The anchors may be delivered to opposing sides of a fascial opening and expanding to a predetermined size to secure the anchor at the site of delivery. A strap, designed to pull the anchors together, may extend from the first anchor to the second anchor. Upon deployment, a tension force may be exerted on the strap in order to pull the anchors toward one another and close the fascial opening. Methods and apparatus for closing the fascial opening are also disclosed. | 06-07-2012 |
20120149983 | ENDOSCOPIC CANNULA AND METHODS OF USING THE SAME - The present disclosure provides methods and systems for endoscopic visualization inside the human body and performing clinical procedures under endoscopic guidance. In one embodiment, an endoscopic cannula of the present disclosure may include an elongated body having a channel along which an endoscope can be advanced. The cannula further includes a tip about a distal end of the elongated body, which can be inflated from a substantially firm collapsed state to an expanded state. The cannula also includes a tube situated within the channel and attached at its distal end to a distal region of the tip to permit forward advancement of the tube along with the tip when the tip is expanded. The tube in combination with the channel form a working conduit for passing surgical instruments beyond the tip. | 06-14-2012 |
20120150110 | CATHETER WITH VESSEL LINING AND METHODS FOR USING SAME - A system for providing access across a site of obstruction is provided. The system may include a sleeve, having a distal portion that can move from an inverted position to an everted position. A balloon situated within the sleeve can be extended so as to evert sleeve. A pathway can extend across a juncture between the distal portion and the remaining portion of the sleeve so as to provide access across the site of obstruction. A method for providing access across the site of obstruction is also provided. | 06-14-2012 |
20120150193 | SYSTEM AND METHODS FOR HYSTEROSCOPIC TUBULAR LIGATION - A system for tubular ligation is disclosed. The system may include an anchor designed to advance into a channel and engage the walls of the channel. The anchor may have mechanisms that allow it to securely attach to walls of the channel and pull the channel. The system may also include a body for placement adjacent to the channel to align the anchor with the channel. The anchor and body may be arranged so that subsequent retreat of the anchor toward the body pulls and inverts a portion of the channel. The system may also include an occlusion mechanism for placement about the inverted portion of the channel to seal the channel. The occlusion mechanism may be configured to bias between an open state for placement on the body, and a compressed state for sealing the channel. A method for tubular ligation is also disclosed. | 06-14-2012 |
20120157760 | Tissue Restraining Devices and Methods of Use - Tissue restraining systems and devices as well as methods of using these devices are disclosed herein. According to aspects illustrated herein, there is provided a tissue restraining device that may include a first anchor having one or more contact points along a portion of the first anchor in a spaced relation to one another. The tissue restraining device may also include a second anchor for placement in a substantially opposing relation to the first anchor. A restraining matrix may extend from the contact points of the first anchor to the second anchor. | 06-21-2012 |
20120191012 | Controllable Stiffness Guidewire - Controllable stiffness guidewires and methods of using such guidewires are disclosed. According to aspects illustrated herein, there is provided a controllable stiffness guidewire that includes a substantially flexible core wire having a distal section and a proximal section. A plurality of beads may be slidably disposed between the distal section and the proximal section of the core wire. In an embodiment, the beads may be contiguous with one another. The guidewire may further include an actuator designed to compress the beads against one another along the core wire. By compressing the beads against one another, the stiffness of the core wire, and thus the guidewire, can be variably increased between substantially flexible and substantially rigid. | 07-26-2012 |
20120323314 | EPICARDIAL CLIP - An epicardial clip for reshaping the annulus of the mitral valve of a heart includes a curved member having an anterior segment configured to be positioned in the transverse sinus of the heart, a posterior segment configured to be positioned on the posterior side of the heart, such as on or inferior to the atrioventricular groove, and a lateral segment extending between the anterior segment and the posterior segment. The lateral segment includes a curve such that the first end of the member is positioned at or above the plane of the mitral valve and the second end of the member is positioned at or below the plane of the mitral valve. | 12-20-2012 |
20130072758 | VESSEL RETRACTOR - A retractor and a surgical tool are positioned within a cannula, and a dissection cradle of the retractor is positioned at the distal end of the cannula. The retractor includes a first portion with an axis approximately parallel to the axis of the cannula and a second portion with an axis that can be skewed relative to the axis of the cannula. The dissection cradle is located at the distal end of the second portion of the retractor, and may include two substantially parallel, spaced legs with the retractor shaped in a loop between and in a plane skewed relative to the axes of the legs, and with the loop directed away from the surgical tool. Thus, in operation, a surgeon locates a vessel and side branch of interest and extends the retractor to cradle the vessel in the dissection cradle. Once cradled, the retractor may be deflected to urge the vessel away from the axis of the cannula to isolate the side branch for exposure to the surgical tool. Removable, transparent tips are selectively positioned at the distal end of the cannula for performing dissection and transection via a single cannula. Additionally, the tips are configured to align the apices of the tips with the central axis of the endoscope to maximize the visual field through the tips via the endoscope. Wing-like protrusions on an alternate tip for the cannula facilitate tissue dissection in forming a tunnel in tissue along a target vessel. Swept back forward edges on the wing-like protrusions promote easy tissue dissection using reduced force to advance the cannula and alternate tip through tissue surrounding the target vessel. | 03-21-2013 |
20130165746 | Unitary Endoscopic Vessel Harvesting Devices - Unitary surgical devices are disclosed. Such devices may include an elongated body extending between a proximal end and a distal end, and having one or more lumens extending through the elongated body and a tip disposed at the distal end of the elongated body. The harvesting device may further include a first gripping element disposed about the dissection tip and a second gripping element disposed about the dissection tip distally of the first gripping member. The second gripping member may be moveable with respect to the first gripping member for capturing a blood vessel between the first gripping member and the second gripping member. The blood vessel captured between first gripping member and the second gripping member may then be sealed and, subsequently, severed by a cauterizing element disposed between the first gripping member and the second gripping member. | 06-27-2013 |
20130165955 | ENDOSCOPIC FASCIAL CLOSURE SYSTEMS AND METHODS FOR USING SAME - A system for closure of a fascial opening is disclosed. The system may include a first capture device for pulling one end of a suture through fascial tissue on one side of a fascial opening, and a second capture device for pulling an opposing end of the suture through the fascial tissue on an opposite side of the fascial opening. A trapping device for locating and engaging the first capture device can be used, prior to the capture device being pulled through the fascial tissue, so that the trapping device can subsequently pull the suture to facilitate closure of the fascial opening. Methods and apparatuses for closure of a fascial opening are also disclosed. | 06-27-2013 |
20130178849 | DEVICES AND METHODS FOR MINIMALLY-INVASIVE SURGICAL PROCEDURES - Devices, instruments and tools for minimally invasive surgical procedures. Port devices and methods for hemostatically sealing and providing a port through a tissue wall that interfaces with a fluid containing chamber, by minimally invasive techniques. Assemblies, instruments and methods for minimally invasive access to and through a tissue wall that interfaces with a fluid containing chamber, and for visualizing same. Instruments, assemblies and methods for minimally invasive surgical procedures, including ablation. | 07-11-2013 |
20130197299 | Unitary Endoscopic Vessel Harvesting Devices - Unitary surgical devices for tissue harvesting are disclosed. Such devices may include an elongated body extending between a proximal end and a distal end, and having one or more lumens extending through the elongated body and a tip disposed at the distal end of the elongated body. The harvesting device may further include a first gripping element disposed about the dissection tip and a second gripping element disposed about the dissection tip distally of the first gripping member. The second gripping member may be moveable with respect to the first gripping member for capturing a blood vessel between the first gripping member and the second gripping member. The blood vessel captured between first gripping member and the second gripping member may then be sealed and, subsequently, severed by a cauterizing element disposed between the first gripping member and the second gripping member. | 08-01-2013 |
20130274786 | TISSUE DISSECTOR APPARATUS AND METHOD - Surgical apparatus and method includes a cannula that houses an endoscope and supports a dilating element near a distal end of the cannula. The dilating element has a dimension which is greater than the diameter of the cannula for enlarging a surgical cavity in tissue as the cannula is advanced through tissue at a surgical site to provide working space adjacent a target vessel within which surgical instruments may be conveniently manipulated. The dilating element of oval sided shape permits surrounding tissue to be pushed away or otherwise displaced away from the target vessel atraumatically. A locking mechanism is disposed on the cannula, which accepts a succession of mating dilating elements of progressively larger dimensions for successive insertion and enlargement of a surgical cavity as required. In one embodiment, the dilating element is made of rigid plastic, and in another embodiment, the dilating element is made of resilient material that may be confined within a retractable sheath which, in the extended position, encases and compresses the dilating element to a smaller dimension and which, in a retracted position, allows the dilating element to resiliently expand and enlarge the surgical cavity. | 10-17-2013 |
20140012083 | Endoscopic Cannulas and Methods of Using the Same - Endoscopic cannulas and methods of their use are disclosed. In some embodiments, an endoscopic cannula may include an elongated body having a proximal end and a distal end. A viewing channel and a working channel may extend through the elongated body. The viewing channel can be configured for passing therethrough an endoscope to the distal end of the elongated body for viewing outside the elongated body, while the working channel can be configured for passing therethrough an injection needle distally of the elongated body. The cannula may also include a suction pod disposed on a bottom surface of the elongated member, the suction pod being in communication with a suction channel extending through the elongated body to create suction between the suction pod and a tissue surface to temporary attach the elongated body to the tissue surface. | 01-09-2014 |
20140012178 | Systems and Methods for Bariatric Therapy - The present invention provides bariatric therapy systems. One system includes a gastrointestinal implant device and a delivery mechanism therefor. The device can include a sleeve for placement into a small intestine and to minimize absorption of nutrients by its walls. An anchoring mechanism coupled to a proximal end of the sleeve and designed to be secured within the stomach can be provided. A passageway extending through the anchoring mechanism and the sleeve can also be provided, along which food can be directed from the stomach to the small intestine. The delivery mechanism can include a housing for accommodating the device, and a deploying balloon situated within the housing and which can be actuated to direct the sleeve of the device from within the housing to the site of implantation. Methods for providing bariatric therapy are also provided by the present invention. | 01-09-2014 |
20140018748 | BLOWER INSTRUMENT, APPARATUS AND METHODS OF USING - A surgical blower for providing a directed stream to clear a surgical site, that can be used in multiple different use modes. In one use mode, the surgical blower is handheld by a user during operation. In another mode, a distal end portion of the blower is fixed to a foot of a stabilizer instrument and the handle of the blower is handheld. In another mode, a distal end portion of the blower is fixed to a foot of a stabilizer instrument and the handle of the blower is fixed to a stationary object such as a sternal retractor. In another mode, the distal end of the blower is free and the handle of the blower is fixed to a stationary object. An apparatus including a blower and a stabilizer is provided. Methods of using the blower as well as the apparatus are also provided. | 01-16-2014 |
20140024991 | Devices for Bariatric Therapy - The present invention provides bariatric therapy systems. One system includes a gastrointestinal implant device and a delivery mechanism therefor. The device can include a sleeve for placement into a small intestine and to minimize absorption of nutrients by its walls. An anchoring mechanism coupled to a proximal end of the sleeve and designed to be secured within the stomach can be provided. A passageway extending through the anchoring mechanism and the sleeve can also be provided, along which food can be directed from the stomach to the small intestine. The delivery mechanism can include a housing for accommodating the device, and a deploying balloon situated within the housing and which can be actuated to direct the sleeve of the device from within the housing to the site of implantation. Methods for providing bariatric therapy are also provided by the present invention. | 01-23-2014 |
20140066961 | Catheter with Vessel Lining and Methods for Using Same - A system for providing access across a site of obstruction is provided. The system may include a sleeve, having a distal portion that can move from an inverted position to an everted position. A balloon situated within the sleeve can be extended so as to evert sleeve. A pathway can extend across a juncture between the distal portion and the remaining portion of the sleeve so as to provide access across the site of obstruction. A method for providing access across the site of obstruction is also provided. | 03-06-2014 |
20140107664 | SYSTEMS AND METHODS FOR REMOVAL OF INTRAVASCULAR LEADS - Systems and methods for extraction of implanted articles are disclosed. According to aspects illustrated herein, there is provided a system for extraction of an implanted article that includes an elongated member, guide member disposed at a distal section of the elongated member and having a pathway in substantially parallel relationship to the elongated member, through which pathway an implanted article can be accommodated, and a cutting mechanism, situated between the distal section of the elongated member and the guide member, for severing a fibrous adhesion about the implanted article to allow the implanted article to be extracted. | 04-17-2014 |
20140172084 | Epicardial Clip - An epicardial clip for reshaping the annulus of the mitral valve of a heart. The epicardial clip includes a curved member having an anterior segment configured to be positioned in the transverse sinus of the heart, a posterior segment configured to be positioned on the posterior side of the heart, such as on or inferior to the atrioventricular groove, and a lateral segment extending between the anterior segment and the posterior segment. The lateral segment includes a curve such that the first end of the member is positioned at or above the plane of the mitral valve and the second end of the member is positioned at or below the plane of the mitral valve. | 06-19-2014 |
20140180188 | SYSTEMS AND METHODS FOR BARIATRIC THERAPY - The present invention provides bariatric therapy systems. One system includes a gastrointestinal implant device and a delivery mechanism therefor. The device can include a sleeve for placement into a small intestine and to minimize absorption of nutrients by its walls. An anchoring mechanism coupled to a proximal end of the sleeve and designed to be secured within the stomach can be provided. A passageway extending through the anchoring mechanism and the sleeve can also be provided, along which food can be directed from the stomach to the small intestine. The delivery mechanism can include a housing for accommodating the device, and a deploying balloon situated within the housing and which can be actuated to direct the sleeve of the device from within the housing to the site of implantation. Methods for providing bariatric therapy are also provided by the present invention. | 06-26-2014 |
20140296847 | Unitary Endoscopic Vessel Harvesting Devices - Unitary endoscopic vessel harvesting devices are disclosed. In some embodiments, such devices comprise an elongated body having a proximal end and a distal end, a tip disposed at the distal end of the elongated body; and a cutting unit having a first cutting portion and a second cutting portion, the first cutting portion and the second cutting portion being moveable in a longitudinal direction relative to the elongated body to capture a blood vessel between the first cutting portion and the second cutting portion, and being rotatable relative to one another circumferentially about the tip to cut the captured blood vessel. | 10-02-2014 |
20140343367 | VESSEL RETRACTOR - A surgical apparatus includes an elongated cannula having an external sidewall surface and a lumen extending between a cannula proximal regional and a cannula distal region, the cannula is further configured to receive an endoscope, and has a handle located at the cannula proximal region, a first wire extending from the cannula distal region and adapted to slide longitudinally with respect to the cannula in both a distal and proximal direction via a control at the handle, and a ring connected to the first wire. The ring has a curved surface with concavity hollowed towards a region of the cannula configured to receive the endoscope. | 11-20-2014 |
20140343593 | Catheter with Vessel Lining and Methods for Using Same - Systems for providing access across a site of obstruction and methods for manufacturing and using such systems. Such systems may include a sleeve having an inflation lumen; a bushing disposed in a distal section of the sleeve; and an everting member coupled to the sleeve with the bushing, the everting member being movable from an inverted position inside the sleeve to an everted position outside the sleeve in response to an increase in pressure in the inflation lumen. | 11-20-2014 |
20150088187 | Catheter with Vessel Lining and Methods for Using Same - A system for providing access across a site of obstruction is provided. The system may include a sleeve, having a distal portion that can move from an inverted position to an everted position. A balloon situated within the sleeve can be extended so as to evert sleeve. A pathway can extend across a juncture between the distal portion and the remaining portion of the sleeve so as to provide access across the site of obstruction. A method for providing access across the site of obstruction is also provided. | 03-26-2015 |