Entries |
Document | Title | Date |
20080221659 | Endoscopic delivery device - An endoscopic or laparoscopic conduit delivery device ( | 09-11-2008 |
20080221660 | Platelet Gel for Treatment of Aneurysms - Methods for ameliorating stent graft migration and endoleak using treatment site-specific platelet gel compositions in combination with stent grafts are disclosed. Also disclosed are platelet gel compositions directly to treatment sites before, during or after stent graft implantation. Additional embodiments include medical devices having platelet gel coatings and/or platelet gel delivery devices useful for treating aneurysms. | 09-11-2008 |
20080228260 | Helical arm tie down - An arrangement for temporarily retaining a side arm ( | 09-18-2008 |
20080249601 | Stent/Graft Assembly - A stent/graft assembly includes a tubular graft connected in substantially end-to-end relationship with a generally tubular stent. Free ends of the stent and graft extend in opposite directions from the end-to-end connection during a pre-deployment orientation of the assembly. However, the graft is inverted during deployment so that free ends of the graft and the stent extend in substantially the same direction from the end-to-end connection in a post-deployment orientation. Thus, at least a portion of the stent is disposed within at least a portion of the graft in a post-deployment orientation of the assembly. | 10-09-2008 |
20080262594 | Stent Graft Sealing System and Method - A stent graft sealing system and method including a stent graft having a seal stent, and a tubular graft material having a central axis and a pleated seal region. The pleated seal region is supported by the seal stent and urged outward from the central axis by the seal stent. The pleated seal region has an initial deployment diameter and an extended deployment diameter. The extended deployment diameter is greater than one and one-half times the initial deployment diameter. | 10-23-2008 |
20080262595 | Methods and Apparatus for Treatment of Aneurysms Adjacent to Branch Arteries - A stent graft includes at least one aperture extending through the main body thereof, into which an extension portion may be deployed for positioning within an adjacent branch flow lumen. The extension portions include self biasing features, wherein the extension is biased into engagement with the main body to seal the interface thereof. Additionally, the extension portion may be configured for tortuous or deviated anatomy, to enable sealing of the extension portion with the body while extending the extension portion in a substantially non-radial direction from the main body. | 10-23-2008 |
20080281399 | Stent Graft With Internal Tube - A stent graft ( | 11-13-2008 |
20080288044 | Composite Stent Graft - A composite prosthesis ( | 11-20-2008 |
20080294235 | BYPASS GRAFT DEVICE AND DELIVERY SYSTEM AND METHOD - A device, system and methods for a minimally invasive bypass procedure, includes a graft having a supporting segment, an extending segment and a bypass segment. The supporting segment includes a flexible portion and a supporting member, and the extending segment includes a flexible portion and a supporting member. The extending segment has an initial configuration wherein it is unextended and a final configuration wherein it is extended proximally into the vessel. The bypass segment is positioned outside of the vessel to be treated, and the supporting segment is positioned within the vessel and distal to the incision. Once the supporting segment and the supporting member are anchored in place, the extending segment is extended proximally past the incision site. Thus, the supporting segment and the extending segment are substantially aligned, and allow for blood flow through the vessel while also providing blood flow around an obstruction via the bypass segment. | 11-27-2008 |
20080312731 | MEDICAL DEVICES - Medical devices including one or more ceramic fibers are disclosed. In some embodiments, each dimension of the ceramic fiber(s) is equal to or greater than one micron. | 12-18-2008 |
20080312732 | Fenestrated stent grafts - A stent graft ( | 12-18-2008 |
20090012597 | Universal Modular Stent Graft Assembly to Accommodate Flow to Collateral Branches - Universal modular stented graft assemblies are assembled, on site, and often in a patient's parent artery, from at least two components; a first component and a second component. The first and second components each include a window, or fenestration. The second component couples with the first component by fitting at least partially in the first component to form the universal modular stent graft assembly with an adjustable collateral opening. As the first and second components are assembled, the first and second components are adjusted relative to each other so that the first and second component windows overlap to form a collateral opening whose size is selectable, depending on the overlap, with the desired position and dimensions in the universal modular stent graft assembly. | 01-08-2009 |
20090030498 | Arteriovenous Access Valve System and Process - An arteriovenous graft system is described. The arteriovenous graft system includes an arteriovenous graft that is well suited for use during hemodialysis. In order to minimize or prevent arterial steal, at least one valve device is positioned at the arterial end of the arteriovenous graft. In one embodiment, a subcutaneous arteriovenous graft system is described. The system includes an arteriovenous graft having an arterial end and an opposite venous end with a first valve device positioned at the arterial end of the arteriovenous graft and a second valve device positioned at the venous end of the arteriovenous graft. The system also includes an actuator having an accumulator. The actuator is in communication with both the first valve device and the second valve device and is configured to cause each valve device to open or close simultaneously. The accumulator assists in maintaining a generally constant pressure when the actuator causes each valve device to close. | 01-29-2009 |
20090030499 | FLEXIBLE STRETCH STENT-GRAFT - A stent device ( | 01-29-2009 |
20090036969 | Thin-walled vascular graft - There is provided a thin-walled self-sealing vascular graft with a first tubular structure formed from ePTFE and having a wall thickness of 0.2 mm or less, and a resealable polymer layer, such as a styrene copolymer, located on one surface of said first tubular structure. A second tubular structure may also be present, so that the resealable polymer layer is disposed between said first and second tubular structure. The second tubular structure is preferably formed from a textile layer but can also be ePTFE. A method of forming such a self-sealing graft is also provided comprising the steps of wrapping unsintered ePTFE tape helically onto a mandrel such that adjacent turns of the ePTFE tape overlap; sintering the layers of tape by heating above the crystalline melting point of ePTFE to form a sintered tubular structure, and applying a resealable polymer layer to one surface of said first tubular structure. The graft can be used for replacing a defective portion of the vasculature in a patient in need thereof. | 02-05-2009 |
20090043371 | ENDOLUMINAL DEVICE INCLUDING A MECHANISM FOR PROXIMAL OR DISTAL FIXATION, AND SEALING AND METHODS OF USE THEREOF - This invention is an endoluminal device including a stent; a tubular graft supported by the stent, wherein the graft comprises a proximal opening and a distal opening; and a variable diameter ring adjacent one of said openings, wherein the variable diameter ring comprises a coiled length of wire having two ends and forming at least one winding around the tubular graft. This invention also relates to the methods of treating an aneurysm and making the endoluminal device. | 02-12-2009 |
20090048657 | Preferentially varying-density ePTFE structure - The ePTFE structure has a node and fibril micro-structure. The ePTFE structure includes first and second regions each of which has a corresponding density. The density of the first region is different from the density of the second region. | 02-19-2009 |
20090069880 | IMPLANTABLE GRAFT ASSEMBLY AND ANEURYSM TREATMENT - Disclosed is an implantable graft assembly comprising a graft secured to a expandable tubular frame, the graft only partially covering the frame and the use of the graft assembly in treating an aneurysm, especially a cerebral aneurysm. Disclosed is also a method of treating an aneurysm by deploying an implantable graft assembly. Disclosed is also the use of serous tissue for the preparation of a cerebrovascular implant, especially as a graft, especially as a component of a cerebrovascular implantable graft assembly. | 03-12-2009 |
20090076587 | Stented Vascular Graft - A vascular graft incorporating a stent into a portion of its length. While various materials may be used for the vascular graft, the graft is preferably an ePTFE graft. The stent is preferably a self-expanding stent, although it may alternatively be a balloon expandable stent. The vascular graft preferably has a continuous inner tubular liner that extends between the opposing ends of the graft and provides a continuous luminal surface for blood contact that is uninterrupted by seams or joints. The length portion of the graft that does not include the stent has a greater wall thickness than does the portion including the stent. | 03-19-2009 |
20090082844 | SYSTEM AND METHOD OF PIVOTED STENT DEPLOYMENT - The invention provides a stent-graft system comprising a graft member and a stent having a connection end interconnected with the graft member and a free end opposed thereto. A belt retaining structure is provided at the stent free end. A belt is releasably retained in the belt retaining structure and is configured to constrain the stent free end independent of the stent connection end. A method of securing at least one end of a stent-graft within a vessel is also provided. | 03-26-2009 |
20090082845 | ALIGNMENT STENT APPARATUS AND METHOD - The invention provides a stent-graft system comprising a graft member and a stent having a connection end interconnected with the graft member and a free end opposed thereto. A belt retaining structure is provided at the stent free end. A belt is releasably retained in the belt retaining structure and is configured to constrain the stent free end independent of the stent connection end. A method of securing at least one end of a stent-graft within a vessel is also provided. | 03-26-2009 |
20090082846 | ASYMMETRIC STENT APPARATUS AND METHOD - A stent-graft system comprising a graft member and a stent having a connection end interconnected with the graft member and a free end opposed thereto. The stent includes a plurality of struts extending between the connection end and the free end and at least two of the struts having different lengths such that the free end has a nonuniform profile. A method of securing at least one end of a stent-graft within a vessel is also provided. | 03-26-2009 |
20090099642 | KINK RESISTANT STENT GRAFT - A stent graft is disclosed and can include a stent and a graft engaged with the stent. The graft can include an inner surface and an outer surface. Further, at least one of the inner surface and the outer surface can include a plurality of protrusions as viewed in cross section extending through a longitudinal axis. | 04-16-2009 |
20090105804 | Medical implanting devices provided with anti-trombogenic coating and method for obtaining of such coating - A medical implantable device for deployment within a vessel of a mammal patient is disclosed. The device has at least one surface, which might come in contact with blood, said at least one surface being coated by a biocompatible anti-trombogenic coating. The anti-trombogenic coating being presented in a thermodynamic non-equilibrium labile state defined by a surface energy favorable for immobilizing of albumen thereon while preventing adhesion of thrombogenic proteins thereto. | 04-23-2009 |
20090105805 | ENDOVASCULAR GRAFT FOR PROVIDING A SEAL WITH VASCULATURE - A graft provided with a flexible sealing member to substantially prevent blood from leaking between the graft a lumen into which the graft is placed. In one embodiment, the flexible sealing member may be pressed against the vascular wall by an outwardly biased spring means attached to the sealing member. In other embodiments, the sealing member may be self-positioning upon deployment of the graft. The sealing member also may be formed into the shape of a toroid, which may be filled with thrombogenic material causing blood permeating into the toroid-shaped space to coagulate therein and hold the sealing member in place. It is also contemplated that the sealing member be formed from tufts of frayed yarn protruding circumferentially from the outer surface of the graft. A method of manufacturing such tufted yarn sealing members is also disclosed. | 04-23-2009 |
20090112305 | Stent-graft prosthesis - The invention relates to a stent-graft prosthesis with a toroidally expandable sleeve ( | 04-30-2009 |
20090125095 | FLEXIBLE STENT GRAFT - A flexible stent graft for deployment in a body vessel at a treatment site includes a tubular body, at least a first portion of which comprises a graft material and a coiled stent comprising a plurality of helical turns with spacings between the turns. The coiled stent is affixed to the graft material of the first portion. The first portion has a first portion diameter and the coiled stent has a helix diameter which is substantially the same as the first portion diameter. The coiled stent comprises a ratio of helical pitch to helix diameter of from about 1:2 to about 1:20, where the helical pitch is the spacing between adjacent turns of the coiled stent. | 05-14-2009 |
20090132022 | STENTS WITH METALLIC COVERS AND METHODS OF MAKING SAME - All metal stent grafts and covered stents having either a single structural supporting stent member with concentrically positioned graft members on the luminal and abluminal surfaces of the stent member or a single graft member with concentrically positioned structural supporting stent members on the luminal and abluminal surfaces of the graft member are provided. | 05-21-2009 |
20090138067 | Expandable supportive branched endoluminal grafts - An endoluminal graft which is both expandable and supportive is provided in a form suitable for use in a branched body vessel location. The graft expands between a first diameter and a second, larger diameter. The support component is an expandable stent endoprosthesis. A liner is applied to the endoprosthesis in the form of a compliant wall material that is porous and biocompatible in order to allow normal cellular invasion upon implantation, without stenosis, when the expandable and supportive graft is at its second diameter. The supportive endoluminal graft is preferably provided as a plurality of components that are deployed separately at the branching body vessel location, one of which has a longitudinal seam defining leg portions within which the other components fit in a telescoping manner. | 05-28-2009 |
20090138068 | SECURING RODS AND MODULAR GRAFT SYSTEMS - Modular graft systems with conjoinable grafts comprising graft material with the system comprising a first and second graft prosthesis with mating ends, securing rods attached to one of the mating ends comprising at least one spike that juts from the securing rod. The other of the mating ends is double layered with graft material for receiving at least one spike in the first layer of graft material when the mating ends are conjoined. | 05-28-2009 |
20090138069 | Implantable Frame and Valve Design - Implantable prosthetic valves comprising support frames are provided. The support frames may include a plurality of symmetrically arrayed interconnected U-shaped member structures. Preferred support frames are tubular structures enclosing a longitudinal axis and including a plurality of U-shaped member structures facing a distal or a proximal end of the support frame. Each U-shaped member structure may be connected to a single longitudinally adjacent U-shaped member facing in an opposite longitudinal direction, as well as two laterally adjacent U-shaped members. | 05-28-2009 |
20090149939 | STENT-GRAFT COMPRISING AT LEAST ONE REINFORCED HOLE - The present embodiments provide a stent-graft for use in a medical procedure that comprises a graft having at least first and second reinforced holes disposed in the graft. The first and second reinforced holes may comprise first and second grommets. In one embodiment, a first stent may be coupled to the graft using at least one suture disposed through the first and second grommets. Alternatively, a first stent may be coupled to the graft, such that the first stent itself is disposed through the first and second grommets. The grommets may comprise self-sealing properties to reduce leakage around the sutures and/or stent segments that are disposed through the grommets. | 06-11-2009 |
20090157164 | TEXTILE GRAFT FOR IN SITU FENESTRATION - The disclosure relates to an implantable woven graft for bridging a defect in a main vessel near one or more branch vessels. The graft includes a region of reduced yarn density. Reduced yarn density regions are alignable with at least one of the one or more branch vessels, and are suitable for in situ fenestration, for example by perforation. The disclosed examples are particularly suited for bridging abdominal aortic aneurysms. | 06-18-2009 |
20090171436 | GRAFTS AND STENT GRAFTS HAVING A RADIOPAQUE BEADING - A device and method provides a graft having a layer of synthetic non-metallic material including a first surface and a second surface spaced apart from the first surface. The device further includes a beading coupled to the layer and a radiopaque agent coupled to the beading. Another device and method provides a implantable prosthesis having a stent frame, a first inner layer and a second outer layer defining a central axis. The implantable prosthesis further includes a beading coupled to at least one the layers. | 07-02-2009 |
20090171437 | LOW PROFILE NON-SYMMETRICAL STENT - A stent for use in a medical procedure having opposing sets of curved apices, where the curved section of one set of apices has a radius of curvature that is greater than the curved section of the other set of apices. One or more such stents may be attached to a graft material for use in endovascular treatment of, for example, aneurysm, thoracic dissection, or other body vessel condition. | 07-02-2009 |
20090171438 | STENT HAVING LESS INVASIVE ENDS - The present examples provide a stent for use in a medical procedure that comprises at least one apex having first and second generally straight portions and a curved portion disposed between the first and second straight portions. The curved portion may comprise at least one region having a cross-sectional area that is less than a cross-sectional area of the first and second straight portions, which may facilitate compression of the stent and insertion of the stent into smaller vessels. The stent may be used alone, or in conjunction with a stent-graft, and may comprise one or more barbs configured to engage an inner wall of a vessel or duct. | 07-02-2009 |
20090177265 | LOW PROFILE MEDICAL DEVICE - The disclosure relates to an intraluminal medical device. The medical device comprises a main graft, a first extension graft, and a second extension graft. The main graft comprises a proximal end, a distal end, and a body extending between the proximal end and distal end. The distal end of the main graft comprises a first branch and a second branch, the branches extending distally from the body. The first and second extension grafts comprise at least one stent and have a body reinforcing portion and a branch reinforcing portion. The body reinforcing portions have a larger expanded dimension than the expanded dimension of the respective branch reinforcing portion. The body reinforcing portions, together, have an expanded dimension that is generally equal to the expanded dimension of the outer graft body. | 07-09-2009 |
20090177266 | METHODS, SYSTEMS AND DEVICES FOR CARDIAC VALVE REPAIR - Disclosed are methods, systems, and devices for the endovascular repair of cardiac valves, particularly the atrioventricular valves which inhibit back flow of blood from a heart ventricle during contraction. The procedures described herein can be performed with interventional tools, guides and supporting catheters and other equipment introduced to the heart chambers from the patient's arterial or venous vasculature remote from the heart. The interventional tools and other equipment may be introduced percutaneously or may be introduced via a surgical cut down, and then advanced from the remote access site through the vasculature until they reach the heart. | 07-09-2009 |
20090210048 | STENT/STENT GRAFT FOR REINFORCEMENT OF VASCULAR ABNORMALITIES AND ASSOCIATED METHOD - A stent/stent graft for reinforcement of vascular abnormalities and an associated method are provided. According to on embodiment, the stent/stent graft includes a flexible tubular structure comprising proximal and distal ends and having a heat set configuration. The tubular structure is configured to engage a lumen upstream and downstream of a vascular abnormality, such as an aneurysm, and a portion between the proximal and distal ends of the tubular structure is configured to engage the aneurysm. | 08-20-2009 |
20090222077 | METHOD AND DEVICE FOR ATTACHING A STENT STRUCTURE TO AAA GRAFT MATERIAL - An aneurysmal repair system that utilizes a modified intraluminal scaffold apex and a delta stitch suture to secure graft material to the scaffold structure allows for no relative movement between the graft material and the scaffold structure. The absence of relative movement reduces the wear on the graft material. | 09-03-2009 |
20090222078 | Prosthesis for Implantation in Aorta and Method of Using Same - Prosthesis for implantation in the ascending aorta comprising a tubular body made of biocompatible graft material, a cuff at the proximal portion of the tubular body for biasing pressure onto a sino-tubular junction and that is configured to conform to the junction. A stent assembly can also be used to the prosthesis to bias pressure on the wall of a dissection to substantially deflate a false lumen. | 09-03-2009 |
20090240316 | Bloused Stent-Graft and Fenestration Method - A method includes deploying a bloused stent-graft into a main vessel such that a bloused section of the bloused stent-graft covers a branch vessel emanating from the main vessel. The bloused section includes loose graft cloth. A pressure differential between the main vessel and the branch vessel causes the bloused section to be forced into an ostium of the branch vessel creating a pocket aligned with the branch vessel. A distal tip of a puncture device is located in the pocket and thus aligned with the branch vessel. An outward force is applied to the puncture device to cause the distal tip of the puncture device to fenestrate the bloused section thus creating a collateral opening in the bloused section precisely aligned with the branch vessel. | 09-24-2009 |
20090248131 | Covered Stent and Method of Making Same - A covered stent comprises a substrate, a stent adapted to be placed in a lumen of a human body, where the stent has portions interwoven in the substrate, and encapsulation encapsulating the substrate and the portions of the stent interwoven in the substrate and forming a tubular graft member. | 10-01-2009 |
20090259290 | Fenestration Segment Stent-Graft and Fenestration Method - A method includes deploying a fenestration segment stent-graft into a main vessel such that a fenestration section of the fenestration segment stent-graft covers a first branch vessel emanating from the main vessel. The fenestration segment stent-graft includes a proximal section, a distal section, and the fenestration section attached to and between the proximal section and the distal section. The fenestration section has a greater resistance to tearing than the proximal section and the distal section facilitating formation of a collateral opening aligned with the branch vessel in the fenestration section. | 10-15-2009 |
20090259291 | Stent-graft and apparatus and fitting method - A stent-graft ( | 10-15-2009 |
20090264981 | METHOD OF USING OPTICAL COHERENCE TOMOGRAPHY (OCT) IN SURGERY - Methods comprising the use of optical coherence tomography to examine a harvested conduit for its suitability for grafting, to examine a candidate conduit prior to harvesting for coronary artery bypass graftings to assess the quality of an anastomosis, to assess the quality of the suturing of a small vessel or duct with a suture coated with a contrast agent, and to detect coronary artery disease in a harvested donor heart prior to transplantation. | 10-22-2009 |
20090299462 | ENDOVASCULAR GRAFT INCLUDING SUBSTRUCTURE FOR POSITIONING AND SEALING WITHIN VASCULATURE - An endovascular graft having an improved positioning mechanism capable of positioning and securing a bifurcated graft into a bifurcated vessel described. The graft can include a sleeve affixed to graft that is used in combination with a contralateral wire loop for placement of the graft within vasculature. The graft may include a structure for post deployment positioning into the bifurcated aneurysm area. Furthermore, the endovascular graft may be configured to form a sealing pocket that expands with induced fluid pressure and prevents fluid leaks at an attachment site. | 12-03-2009 |
20090306762 | Braided stent and method for its manufacture - A stent includes regions of differing numbers of braided filaments to provide different dimensions and/or properties in different regions along the stent length. The stent may include a first and second plurality of braided filaments each braided together. The second plurality of braided filaments is braided into the first plurality of braided filaments to form a region of different properties than the first. A method of constructing a braided stent includes the steps of braiding a first plurality of filaments to form the flexible portion, combining a second plurality of filaments to the first plurality of filaments, and then braiding the second plurality of filaments with the first plurality of filaments to form the more rigid region from the combination of the first and second plurality of filaments, where the second plurality of filaments is braided only in the rigid region. | 12-10-2009 |
20090306763 | LOW PROFILE NON-SYMMETRICAL BARE ALIGNMENT STENTS WITH GRAFT - A stent graft for use in a medical procedure to treat a dissection of a patient's ascending thoracic aorta. The stent graft includes bare alignment stents at least at a proximal end, and often with a stent at both ends, each stent having opposing sets of curved apices, where the curved section of one broader set of apices has a radius of curvature that is greater than the curved section of the other narrower set of apices. The proximal stent is flared in a manner such that its broad apices occupy a larger circumference around the stent than do its narrower apices, where this flared feature provides for anchoring engagement near the aortic root in a manner not interfering with the coronary arteries or the aortic valve. | 12-10-2009 |
20090306764 | Compliant Blood Vessel Graft - A graft includes a flexible, resilient, generally tubular external support and a blood vessel segment, carried within and having an ablumenal surface in contact with and supported by the tubular support, the graft being capable of resilient radial expansion in a manner mimicking the radial compliance properties of an artery. | 12-10-2009 |
20090319022 | STENT GRAFT - A stent graft ( | 12-24-2009 |
20090319023 | Stents and Stent Grafts - The subjected devices include a stent, a graft and a means for attaching the graft to the stent. One or more members are received in a permanent or temporary receptacle within the stent attach the graft to the stent. In one variation, an interference fit is employed; in another, the graft is bonded to a stent-captured member(s). | 12-24-2009 |
20100016945 | HELICAL HIGH FATIGUE STENT-GRAFT - An implantable prosthesis, including a generally tubular substrate and a continuous shape memory member disposed over the outer surface of the substrate. The shape memory member may include a series of zig-zag struts alternating between a first strut with a first length and a second strut with a second length different from the first length. A graft member may be positioned over the substrate and shape memory member. | 01-21-2010 |
20100016946 | SINGLE LAYER EPTFE AND DISCRETE BIORESORBABLE RINGS - A stent-graft, including a generally tubular vascular graft of biocompatible material, and a plurality of bio-resorbable discrete annular members spaced apart along a longitudinal axis of the vascular graft and attached thereto. | 01-21-2010 |
20100016947 | SYSTEMS AND METHODS FOR CREATING CUSTOMIZED ENDOVASCULAR STENTS AND STENT GRAFTS - A system and method are provided for making a customized stent or stent graft, including the steps of obtaining a digital image of the endoluminal shape of an artery or the blood flow channel of an aneurysm, processing the obtained image to create a three dimensional model of the shape or channel, and fabricating a scaffold around the model such that the scaffold substantially conforms to the model. | 01-21-2010 |
20100016948 | ENDOVASCULAR GRAFT - An endovascular graft, which is configured to conform to the morphology of a vessel to be treated, includes a tubular ePTFE structure; an inflatable ePTFE structure disposed over at least a portion of the ePTFE tubular structure; and an injection port in fluid communication with the inflatable ePTFE structure for inflation of the inflatable ePTFE structure with an inflation medium. The inflatable ePTFE structure may be longitudinally disposed over the tubular ePTFE structure. The ePTFE structure may be a bifurcated structure having first and second bifurcated tubular structures, where the inflatable ePTFE structure is disposed over at least a portion of the first and second bifurcated tubular structures. | 01-21-2010 |
20100023110 | Endoluminal Prosthesis - An endoluminal prosthesis is disclosed and comprises a first generally tubular stent, a second generally tubular stent, and a generally tubular graft member concentrically disposed between the first and second stents. One or more of the first and second stents may have a body portion and a flaring portion. The first and second stents each may have a recoil force such that the combined application of the first and second recoil forces secures the graft member between the first and second stents. | 01-28-2010 |
20100023111 | SURFACE MODIFICATION OF ePTFE AND IMPLANTS USING THE SAME - A method for modifying an ePTFE surface by plasma immersion ion implantation includes the steps of providing an ePTFE material in a chamber suitable for plasma treatment; providing a continuous low energy plasma discharge onto the sample; and applying negative high voltage pulses of short duration to form a high energy ion flux from the plasma discharge to generate ions which form free radials on the surface of the ePTFE material without changing the molecular and/or physical structure below the surface to define a modified ePTFE surface. The step of applying the high voltage pulses modifies the surface of the ePTFE without destroying the node and fibril structure of the ePTFE, even when the step of applying the high voltage pulses etches and/or carburizes the surface of the ePTFE. The modified surface may have a depth of about 30 nm to about 500 nm. The ions are dosed onto the ePTFE sample at concentrations or doses from about 10 | 01-28-2010 |
20100036475 | METHODS AND APPARATUS FOR EXTRALUMINAL FEMOROPOPLITEAL BYPASS GRAFT - The present invention is directed to extraluminal femoropopliteal bypass grafts and methods and instruments for inserting the same. In an embodiment, the invention includes a method for inserting a femoropopliteal bypass graft including forming a first aperture in a first wall of a first artery, forming a second aperture in a second wall of the first artery, forming an extraluminal tract between the second aperture and a second artery, forming a third aperture in the second artery, and passing the femoropopliteal bypass graft through the first and second apertures, through the extraluminal tract, and into the third aperture. In some embodiments, the invention includes a femoropopliteal bypass graft having multiple layers. In some embodiment, the invention includes instruments used for percutaneously inserting a femoropopliteal bypass graft. | 02-11-2010 |
20100036476 | Controlled and Localized Release of Retinoids to Improve Neointimal Hyperplasia - Controlled release vascular implants, such as vascular grafts, stents, wraps, and gels comprising a biocompatible polymer and all trans retinoic acid (ATRA), or its derivatives, can be used to treat, prevent, or inhibit thrombosis and/or neointimal hyperplasia which may otherwise be induced by prosthetic implantation. In particular, the implants herein can inhibit smooth muscle cell proliferation, neointimal hyperplasia, and upregulate antithrombotic genes and nitric oxide production in the vasculature. Further, the implants are capable of delivering controlled and predictable localized concentrations of ATRA. | 02-11-2010 |
20100042201 | TOTAL AORTIC ARCH RECONSTRUCTION GRAFT - A total aortic arch reconstruction graft, including
| 02-18-2010 |
20100057186 | STENT GRAFT FIXATION COUPLING - A small vessel stent graft with a fixation coupling that has a hyperboloid shape positioned at or near the proximal end of the graft. The coupling may be deployed within the fenestration of a fenestrated graft to provide multi-directional movement without compromising the integrity of the sealing zone. | 03-04-2010 |
20100063574 | COMPRESSED INNER COVERING HINGED SEGMENTED STENT-GRAFT - An implantable prosthesis including a longitudinally compressed generally tubular substrate defining a longitudinal axis, a plurality of expandable segments disposed over the substrate and spaced apart along the longitudinal axis, and a graft member positioned over the segments. The graft member may include a lattice structure. Adjacent expandable segments may be connected by one or more filaments. | 03-11-2010 |
20100063575 | MULTI-COMPONENT EXPANDABLE SUPPORTIVE BIFURCATED ENDOLUMINAL GRAFTS AND METHODS FOR USING SAME - A multiple-component expandable endoluminal system for treating a lesion at a bifurcation including a self expandable tubular root member having a side-looking engagement aperture, a self expandable tubular trunk member comprising a substantially blood impervious polymeric liner secured therealong; both having a radially compressed state adapted for percutaneous intraluminal delivery and a radially expanded state adapted for endoluminal support. | 03-11-2010 |
20100063576 | Prosthesis with Moveable Fenestration - An endoluminal prosthesis with a moveable fenestration including a tubular graft body having a proximal end, a distal end, a surface plane at least one fenestration having a perimeter disposed in a sidewall of the tubular body between the proximal end and the distal end, a first biocompatible graft material, and a second biocompatible graft material adjacent to and surrounding the perimeter of the at least one fenestration. The second biocompatible graft material has at least one characteristic different from the first biocompatible graft material and is more flexible than the first biocompatible graft material and is movable relative to the surface plane of the tubular graft body. | 03-11-2010 |
20100063577 | METHOD OF IMPLANTING A PROSTHETIC VALVE - Methods of implanting a prosthetic valve in a body vessel are provided. A first expandable frame member is delivered to and deployed at a point of treatment in a body vessel. A second expandable frame member is delivered to the point of treatment. The second expandable frame member has an attached graft member that forms a valve adapted to permit fluid flow through the body vessel in a first direction and to substantially prevent fluid flow through the body vessel in a second, opposite direction. After deployment of the first expandable frame member, the second expandable frame member is deployed at the point of treatment such that the second frame member is positioned radially inward of the first frame member within said body vessel to form a prosthetic valve. | 03-11-2010 |
20100076543 | Multi-strand helical stent - A stent including a stent wire comprising a plurality of filaments twisted into a bundle having a helix, the stent wire bent into a pattern having a plurality of substantially straight wire sections separated by a plurality of bends. The pattern of the stent wire is spirally wound about a central axis in the same direction as the helix formed by the plurality of filaments. Each of the filaments in a bend have a cylindrical cross-section where at least one of the plurality of filaments is displaced and spaced from an immediately adjacent filament in the bend. | 03-25-2010 |
20100094401 | Curvable stent-graft and apparatus and fitting method - A stent-graft ( | 04-15-2010 |
20100100168 | ILIAC LEG EXTENSION STENT GRAFT - A stent graft leg extension ( | 04-22-2010 |
20100106239 | GRAFT FABRIC CRIMPING PATTERN - A pattern of graft material that allows for radial expansion and contraction that comprises a plurality of rows of folds with an undulating configuration with at least one apex and at least one trough and the rows of folds each have a ridge and a valley therein. At least one stent with an undulating configuration can be attached to the at least one row of folds. | 04-29-2010 |
20100131040 | Apparatus and Methods for Repairing Aneurysms - An apparatus for repairing an aneurysm comprises a device having an inner graft tube and an inflatable outer balloon attached to an outer surface of the inner graft tube, and an inflatable deployment balloon. The inner graft tube is expandable within an artery to form a seal with the arterial wall above and/or below an aneurysm. The outer balloon is inflatable within the aneurysm with a rapidly settable substance to fill the aneurysm and support the device. The deployment balloon has an uninflated condition to fit within the inner graft tube and is inflatable within the inner graft tube to expand the inner graft tube within the artery and to maintain the inner graft tube expanded within the artery during inflation of the outer balloon. | 05-27-2010 |
20100131041 | Intraluminal Stent Graft - A method of making an tubular intraluminal graft in the form of a tubular diametrically adjustable stent having a tubular covering of porous expanded polytetrafluoroethylene which is less than 0.10 mm thick. The covering may be on the exterior surface of the stent, or on the interior surface of the stent, or both. The covering may be affixed to the stent by an adhesive which is preferably fluorinated ethylene propylene. | 05-27-2010 |
20100137969 | Composite Medical Textile Material and Implantable Devices Made Therefrom - An implantable composite medical device having a longitudinal length a woven textile portion having yarns interlaced in a woven pattern, a knitted textile portion having yarns interlooped in a knitted pattern. The woven and knitted portions are securably attached to one and the other to provide a composite woven and knitted textile surface along the longitudinal length of the device. The woven portion may have a permeability from about 30 to about 500 ml/min/cm | 06-03-2010 |
20100152831 | Implantable Medical Devices Having Multiblock Copolymers - Provided herein are implantable medical devices comprising a biodegradable multiblock copolymer comprising at least three blocks; wherein the at least three blocks includes at least one inner block and two end blocks; further wherein each of the at least one inner block comprises monomers selected from the group consisting of e-caprolactone, r-butylactone, trimethylene carbonate, caprolactone derivatives, P-Dioxanone, and combinations thereof; and further wherein each of the end blocks comprises monomers selected from the group consisting of l-lactide, D-lactide, glycolide, L,D-lactide, and combinations thereof. | 06-17-2010 |
20100152832 | Apparatus and Methods for Treatment of Aneurysms With Fibrin Derived Peptide B-Beta - Disclosed herein are methods and stent grafts related to the treatment of aneurysms through the local administration of at least one fibrin derived peptide B-beta. The at least one fibrin derived peptide B-beta can be locally administered by one or more of placing them directly onto a stent graft, incorporating them into a coating found on a stent graft, including them in a delivery device that is associated with a stent graft and/or injecting them through delivery and/or injection catheters at or near the time of stent graft deployment. | 06-17-2010 |
20100152833 | STENT-GRAFT WITH BIOABORBABLE STRUCTURAL SUPPORT - The invention relates to a stent-graft with a bioabsorbable structure and a permanent graft for luminal support and ‘treatment of arterial fistulas, occlusive disease, and aneurysms. The bioabsorbable structure is formed from braided filaments of materials such as PLA, PLLA, PDLA, and PGA and the graft is formed from materials such as PET, ePTFE, PCU or PU. | 06-17-2010 |
20100161025 | VARIABLE WEAVE GRAFT WITH METAL STRAND REINFORCEMENT FOR IN SITU FENESTRATION - The disclosure relates to an implantable woven graft for bridging a defect in a main vessel near one or more branch vessels. The graft includes a region of reduced density. Reduced density regions are alignable with at least one of the one or more branch vessels, and are suitable for in situ fenestration, for example by perforation. The disclosed examples are particularly suited for bridging abdominal aortic aneurysms. | 06-24-2010 |
20100161026 | LOW PROFILE NON-SYMMETRICAL STENT - A stent for use in a medical procedure having opposing sets of curved apices, where the curved section of one set of apices has a radius of curvature that is greater than the curved section of the other set of apices. One or more such stents may be attached to a graft material for use in endovascular treatment of, for example, aneurysm, thoracic dissection, or other body vessel condition. | 06-24-2010 |
20100161027 | STENT AND STENT-GRAFT HAVING ONE OR MORE CONFORMANCE STRUTS - A stent includes a main body having proximal and distal ends, and at least one conformance strut coupled to the proximal end of the main body. A portion of the at least one conformance strut extends proximal to a proximal end of a graft material in a compressed delivery configuration, and further is aligned inside the proximal end of the graft material in an expanded deployed configuration. In the deployed configuration, the proximal conformance strut may at least partially encircle the graft material just distal to the proximal end of the graft material, which may reduce the likelihood of infolding at the proximal edge of the graft material and potential endoleaks. | 06-24-2010 |
20100161028 | ENDOVASCULAR GRAFT DEVICE AND METHODS FOR ATTACHING COMPONENTS THEREOF - The present invention embodies an endovascular graft having various frame-to-main body component attachment mechanisms which provide a secured bond, reduced graft material wear, and reduced delivery profile. | 06-24-2010 |
20100174356 | STENT GRAFTS WITH BIOACTIVE COATINGS - Stent grafts are provided comprising an endoluminal stent and a graft, wherein the stent graft releases an agent which induces the in vivo adhesion of the stent graft to vessel walls, or, otherwise induces or accelerates an in vivo fibrotic reaction causing said stent graft to adhere to vessel wall. Also provided are methods for making and using such stent grafts. | 07-08-2010 |
20100185272 | ELASTIN STABILIZATION OF CONNECTIVE TISSUE - A method and product are provided for the treatment of connective tissue weakened due to destruction of tissue architecture, and in particular due to elastin degradation. The treatment agents employ certain unique properties of phenolic compounds to develop a protocol for reducing elastin degradation, such as that occurring during aneurysm formation in vasculature. According to the invention, elastin can be stabilized in vivo and destruction of connective tissue, such as that leading to life-threatening aneurysms in vasculature, can be tempered or halted all together. The treatment agents can be delivered or administered acutely or chronically according to various delivery methods, including sustained release methods incorporating perivascular or endovascular patches, use of microsphere carriers, hydrogels, or osmotic pumps. | 07-22-2010 |
20100191317 | ENDOLUMINAL IMPLANTABLE STENT-GRAFTS - An implantable endoluminal device that is fabricated from materials that present a blood or body fluid and tissue contact surface that has controlled heterogeneities in material constitution. An endoluminal stent-graft and web-stent that is made of an monolithic material deposited into a monolayer and etched into regions of structural members and web regions subtending interstitial regions between the structural members. An endoluminal graft is also provided which is made of a biocompatible metal or metal-like material. The endoluminal stent-graft is characterized by having controlled heterogeneities in the stent material along the blood flow surface of the stent and the method of fabricating the stent using vacuum deposition methods. | 07-29-2010 |
20100191318 | MEDICAL DEVICES - Medical devices, such as stents, stent-grafts, grafts, guidewires, and filters, having enhanced radiopacity are disclosed. | 07-29-2010 |
20100198329 | ENDOGRAFT DEVICES AND METHODS FOR USING THE SAME - Various endograft assemblies and methods for using the same. In at least one embodiment of an endograft assembly of the present disclosure, the endograft assembly comprises an endograft and a tube defining one or more tube openings coupled to said endograft. In another embodiment of an endograft assembly of the present disclosure, the endograft assembly comprises an endograft, a sponge sheath coupled to the endograft, and a reservoir bag coupled to the sponge sheath, said reservoir bag capable of receiving fluid from the sponge sheath. | 08-05-2010 |
20100204775 | Tissue Synthetic- Biomaterial Hybrid Medical Devices - A hybrid medical device is described having at least one synthetic biomaterial, and at least one treated biological tissue suitable for implantation attached to the biomaterial wherein the tissue provides a blood contact surface and the biomaterial provides structural support. The tissue and biomaterial are attached using a polymer and the polymer is chemically or mechanically attached to the tissue. The device may further include pharmaceutical compounds for delivery over time and radiopaque compounds for fluoroscopic visualization. In some devices the tissue may be treated to degrade over time or the tissue only partially degrades over time. The biomaterial may be polytetrafluoroethylene (PTFE). In one configuration the device is configured for use as a heart valve. | 08-12-2010 |
20100204776 | System and Method for Providing a Graft in a Vascular Environment - An apparatus is provided that includes a graft for coupling two vascular conduits within a patient. The graft includes: 1) an anchor system that forms an arc at one end of the conduits; and 2) a body element coupled to the anchor system. The anchor system comprises a biodegradable stent. In particular embodiments, portions of the graft are either self-expandable or balloon-expandable. In still other embodiments, anchor system includes NITINOL and the anchor system is substantially self-sealing at one end of the conduits. In one embodiment, the body element comprises polytetrafluoroethylene (PTFE) or expanded polytetrafluoroethylene (EPTFE). In yet other embodiments, the body element includes either a gelatinous or an elastomeric coating disposed on its surface. | 08-12-2010 |
20100217375 | Intraluminal Stent Graft - A method of making an tubular intraluminal graft in the form of a tubular diametrically adjustable stent having a tubular covering of porous expanded PTFE which is less than 0.10 mm thick. The covering may be on the exterior surface of the stent, or on the interior surface of the stent, or both. The covering may be affixed to the stent by an adhesive which is preferably fluorinated ethylene propylene. | 08-26-2010 |
20100222863 | SILK STENT GRAFTS - Silk-containing stent grafts are provided comprising an endoluminal stent and a graft, wherein the silk induces the in vivo adhesion of the stent graft to vessel walls, or, otherwise induces or accelerates an in vivo fibrotic reaction causing said stent graft to adhere to vessel wall. Also provided are methods for making and using such stent grafts. | 09-02-2010 |
20100222864 | NEUROVASCULAR STENT AND METHOD - A stent designed for catheter delivery to a target neurovascular site via a tortuous path, in a contracted state, and deployment at the target site, in an expanded state, is disclosed. The stent includes a plurality of expandable tubular members, where member is composed of a continuous wire element forming a plurality of wave segments, and segment contains a pair of opposite looped peaks having a wave shape such that the distance between adjacent sides of a wave, on proceeding from a peak toward opposite peaks, increases monotonically with an inflection point therebetween. The expandable tubular members are joined through adjacent peaks by axial connectors. Radial expansion of the stent from a contracted to expanded state is accommodated by movement of adjacent wave-segment peaks away from one another, without significant change in the axial dimension of the stent. Also disclosed are a system incorporating the stent, and a method of treating a neurovascular abnormality. | 09-02-2010 |
20100222865 | Intraluminal Stent Graft - A method of making a tubular intraluminal graft in the form of a tubular diametrically adjustable stent having a tubular covering of porous expanded PTFE which is less than 0.10 mm thick. The covering may be on the exterior surface of the stent, or on the interior surface of the stent, or both. The covering may be affixed to the stent by an adhesive which is preferably fluorinated ethylene propylene. | 09-02-2010 |
20100241213 | Impedance Pump Used in Bypass Grafts - A pump installed inside a graft in a body such as the human body to force fluid such as blood through that graft. The pump can be one which operates totally from the outside of the graft, forcing fluid through the graft without extending inside the graft. The pump can be an impedance pump, that operates based on the fluidic mismatches between the graft, and other fluid carrying vessels within the human body. | 09-23-2010 |
20100249898 | Stent Graft - A stent graft system includes a first stent graft having a first end and a second end opposing the first end. The system further includes a second stent graft in fluid communication with the first stent graft. The second stent graft defines a lumen a third end in fluid communication with the second end. The second stent graft further includes a fourth end opposing the third end, and at least a first sleeve and second sleeve extending radially therefrom and in fluid communication with the lumen, The first sleeve is radially offset from the second sleeve. Each of the first sleeve and second sleeve comprises a flexible material configured to evert between a first position such that the sleeve is positioned within the lumen and a second position such that the sleeve is positioned exterior to the lumen. The system further includes a third stent graft. | 09-30-2010 |
20100249899 | PARARENAL STENT GRAFT - A stent graft for endovascular introduction into the pararenal region of the descending aorta. The stent graft has an elongate tubular body ( | 09-30-2010 |
20100262221 | Graft with bioabsorbable support frame - The medical devices, such as stent grafts, described herein preferably include a tubular remodelable graft material attached to a support frame formed at least in part from a metallic bioabsorbable material. The remodelable graft material preferably includes an extracellular matrix material such as small intestinal submucosa (SIS). The support frame attached to the graft is preferably a bioabsorbable magnesium alloy. The devices may be implanted within a peripheral vascular body vessel from a percutaneous delivery catheter. | 10-14-2010 |
20100268318 | Prosthesis for Antegrade Deployment - An endoluminal tubular prosthesis for use in an open surgical repair comprises a tubular graft having a longitudinal axis, a first tubular section having a plurality of self-expanding stents and extending along the longitudinal axis and a second stent-less tubular section extending from the first tubular section and along the longitudinal axis. The tubular prosthesis can include a plurality of tubular branching members branching therefrom for treating branched arteries without obstructing them, such as the branches from the aortic arch. | 10-21-2010 |
20100268319 | Mobile External Coupling for Branch Vessel Connection - An endovascular prosthesis includes a tubular body and a flexible springy mobile external coupling. The tubular body includes a graft material and stents coupled thereto with a forms a lumen therethrough. The mobile external coupling extends outwardly from the tubular body. The mobile external coupling includes a graft material and is generally frustoconically shaped. The mobile external coupling includes a base coupled to the tubular body, a top spaced from the tubular body, and a coupling lumen disposed between the base and the top, wherein the coupling lumen is in flow communication with the body lumen. A helically shaped stent may be coupled to the coupling graft material to make it flexible and springy. | 10-21-2010 |
20100268320 | Endovascular Implant Having an Integral Graft Component and Method of Manufacture - A covered stent including an endovascular implant having a polymeric stent structure with an integrally formed membrane-like graft component, also referred to as a stent-graft, and methods of manufacturing the one-piece stent-graft by an injection molding process. A molding system for creating the polymeric stent structure is injected with a melt stream of moldable material that is forced between a parting line of the molding system to create a thin, flexible membrane-like structure within the open areas or interstitial spaces of the molded stent structure. The stent-graft so created is a one-piece, unified structure molded from a polymeric material in a single manufacturing step. | 10-21-2010 |
20100274345 | Self-Flaring Active Fixation Element for a Stent Graft - A stent graft includes a stent graft material of tubular shape and annular shaped stent elements coupled to the stent graft material. The stent graft further includes hooked fixation elements, having hook-end portions and coupling-end, circumferentially spaced about an annular shaped spring attachment element, and coupled to the stent graft at apexes of the spring attachment element. Before deployment the hook-end portions of the apexes of the attachment element and the hooked fixation elements attached thereto are compressed within the space bounded by the interior and exterior sides of the spring attachment element and angled laser cut strut inner surfaces under each apex of the spring attachment element are cut at an angle to cause apex and hook rotation at expansion and deployment. At deployment, the apex and hook-end portions rotate outwardly from the stent graft, partially penetrating the body vessel walls in which the stent graft is deployed and actively fixing the stent graft at the position of deployment. | 10-28-2010 |
20100280590 | STENT ATTACHMENT FOR ENDOVASCULAR ANEURYSM REPAIR - The technology described herein relates to a stent graft and a method of making the stent wherein the stent comprises interconnected struts and is connected to the graft material by applying at least one band of polymer so as to cover at least a portion of at least some of the struts. A stent supported area is created by the stent's attachment to the graft material and the at least one band of polymer is applied so as to leave the majority of the stent supported area uncovered by the at least one band of polymer. | 11-04-2010 |
20100286757 | STENT GRAFT - A stent graft | 11-11-2010 |
20100292774 | Extra-Vascular Wrapping for Treating Aneurysmatic Aorta in Conjunction with Endovascular Stent-Graft and Methods Thereof - A system for treating an aneurysmatic abdominal aorta, comprising (a) an extra-vascular wrapping (EVW) comprising (i) at least one medical textile member adapted to at least partially encircle a segment of aorta in proximity to the renal arteries, and (ii) a structural member, wherein EVW is adapted for laparoscopic delivery, and (b) an endovascular stent-graft (ESG) comprising (i) a compressible structural member, and (ii) a substantially fluid impervious fluid flow guide (FFG) attached thereto. Also described is an extra-vascular ring (EVR) adapted to encircle the neck of an aortic aneurysm. Further described are methods for treating an abdominal aortic aneurysm, comprising laparoscopically delivering the extra-vascular wrapping (EVW) and endovascularly placing an endovascular stent-graft (ESG). Also described are methods to treat a type I endoleak. | 11-18-2010 |
20100292775 | STENT/GRAFT ASSEMBLY - A stent/graft assembly includes a tubular graft connected in substantially end-to-end relationship with a generally tubular stent. Free ends of the stent and graft extend in opposite directions from the end-to-end connection during a pre-deployment orientation of the assembly. However, the graft is inverted during deployment so that free ends of the graft and the stent extend in substantially the same direction from the end-to-end connection in a post-deployment orientation. Thus, at least a portion of the stent is disposed within at least a portion of the graft in a post-deployment orientation of the assembly. | 11-18-2010 |
20100298924 | Vascular Graft - A tubular graft ( | 11-25-2010 |
20100305682 | SPECIALLY CONFIGURED AND SURFACE MODIFIED MEDICAL DEVICE WITH CERTAIN DESIGN FEATURES THAT UTILIZE THE INTRINSIC PROPERTIES OF TUNGSTEN, ZIRCONIUM, TANTALUM AND/OR NIOBIUM - Medical devices having special geometrical design features and possible surface modifications and can be comprised of niobium, tantalum, zirconium and/or tungsten alloy which is useful in treating a body passageway. | 12-02-2010 |
20100305683 | MEDICAL DEVICES COMPRISING A CO-POLYMER OF A MODIFIED POLYAMIDE AND A POLYCARBONATE - The present invention refers to medical devices comprising a modified Co-Polymer or to the modified Co-Polymer itself having high flexibility and high stress resistance, especially tensile strength or tear resistance, in addition to the good physical characteristics of a Block-Co-Polymers of a polyamide and a polycarbonate, either polycarbonate diol or polycarbonate diamine. | 12-02-2010 |
20100318175 | VASCULAR GRAFT PROSTHESIS WITH SELECTIVE FLOW REDUCTION - A vascular graft prosthesis comprising a tubular member having a luminal wall defining a lumen and an inner luminal diameter; and means for non-invasively constricting at least a portion of the luminal wall to reduce the inner luminal diameter and reduce a volumetric flow rate through the tubular member at the site of implantation of the vascular graft prosthesis, and during normal operating conditions, the means for constricting being operable to therefore facilitate an increase in a volumetric flow rate through the target limb to treat various symptoms manifesting themselves as a result of the implanted graft prosthesis, such as those resulting from an arteriovenous graft access and indicative of Steal syndrome. | 12-16-2010 |
20100318176 | ENHANCED SYSTEMS PROCESSES AND ASSOCIATED METHODS FOR LASER TRIMMING OF GRAFTS - A novel enhanced process for laser trimming of grafts includes to heat polish the ends. Both heat polish and vapor polish are known processes in plastic processing. When PTFE is used as a graft or covering material, a problem occurs, time and temperature required will distort the ptfe material in the covering of stent graft, A simple solution is the “wetting” of the ends with and aqueous solution of FEP or PFA. A temperature lower than the melt point of PTFE would be used leaving the graft or covering in tact and unharmed. An aqueous solution of PTFE could also work provided conduction or ironing occurred. | 12-16-2010 |
20100318177 | TWISTED ANCHORING BARB FOR STENT OF ABDOMINAL AORTIC ANEURYSM (AAA) DEVICE - A stent is provided for an endoprosthesis having a main body portion and two leg portions, particularly suitable for treatment of an abdominal aortic aneurism. The stent includes barbs that are twisted and shaped set to point radially outward. Each barb, as formed, points substantially perpendicular relative to the longitudinal axis of the stent, even when in a non-deployed configuration. The motion to move the barb into a deployed configuration for gripping tissue is a twisting motion which moves the barb from being substantially aligned with the circumference of the stent to extending radially outwards from the stent. | 12-16-2010 |
20100324650 | HELICAL STENT GRAFT - In vivo failure of a helical stent graft is addressed by provision of reinforcing material for the graft material in at least two (preferably three) separate sections, each section comprising a continuous integral piece of material, wherein each section of reinforcing material is in the form of a helix with a longitudinal axis substantially parallel to the longitudinal axis of the tube. Thus leaks caused by unravelling of the reinforcing material are mitigated. | 12-23-2010 |
20100331957 | IMPLANTABLE MEDICAL DEVICE - The invention provides an implantable medical device comprising a fibrous polymer body comprising a plurality of electrospun poly(urethane) fibers, a support filament wrapped around the body, an outer layer around the filament for adhering the filament to the body, the outer layer comprising a plurality of electrospun poly(urethane) fibers, and a polymer primer coating at least the fibers of the body. The polymer primer comprises poly(lactide) and is attached to a heparin residue through a link. | 12-30-2010 |
20110009946 | SELF ADJUSTING VENOUS EQUALIZING GRAFT AND ENDOTHELIAL LINING THEREFOR - An improved vascular graft having increased patency is disclosed herein. The graft may comprise a central or other stenosis. In addition, in some embodiments, the graft may comprise an internal reservoir and a collapsible portion configured to self-adjust the stenosis based on blood flow pressure. The graft may comprise an endothelial lining, one or more drug eluting materials, or both to increase patency by respectively reducing clots and preventing unwanted cellular or fibrin growth. The endothelial lining may be formed from one or more endothelial cells artificially grown or harvested from a patient's vascular system. | 01-13-2011 |
20110009947 | ENDOTHELIAL SCAFFOLD GRAFT AND METHOD THEREFOR - An endothelial scaffold may used to form a graft with an endothelial lining or endothelium. The scaffold allows a natural vessel or other endothelial lumen to line a channel of the scaffold to provide an endothelial layer which enhances blood flow through the channel. The channel may have a narrowed section to provide a stenosis. One or more conduits may extend from an exterior portion of the scaffold to an inner surface of the channel. Air may be withdrawn from between the natural vessel and inner surface of the channel via the conduits to cause the endothelial lumen to conform to the inner surface of the channel. A valve may be used to prevent air from reentering the conduits. The graft, including the endothelial lumen, may be implanted into a patient. | 01-13-2011 |
20110015719 | STENT-GRAFT WITH ADJUSTABLE LENGTH - A stent-graft comprising a stent and a graft having a supported portion lining or covering at least a portion of the stent, and an unsupported portion extending proximally beyond the proximal end of the stent. The stent-graft may have a length corresponding to at least a mean standard length from a standard incision point to a distal-most portion of a standard lumen into which the distal end of the stent is adapted to be deployed, with the unsupported portion of the graft extending beyond the mean standard length by an amount equal to at least two, if not three or more, standard deviations of the mean standard length. A method for deploying the stent-graft comprises making an incision in a wall of the lumen, introducing and deploying the stent-graft in the lumen so that the proximal end extends beyond the incision, and attaching the graft to a lumen by anastamosis. | 01-20-2011 |
20110022153 | STENT GRAFT - Some embodiments are directed to a stent graft comprising a first stent graft having a first stent, a first inner graft supported by the first stent, a second inner graft supported by the first stent, and an outer graft. The second inner graft can be spaced apart from the first inner graft along the length of the first stent so that a portion of the first stent is not covered by either the first inner graft or the second inner graft. A first portion and a second portion of the outer graft can be attached to the first stent, the outer graft being unsupported by the stent between the first and second portions so as to form a fillable space between the outer graft, the first inner graft, and the second inner graft. Some embodiments further comprise a second stent graft deployable within the inside of the first stent graft to sealingly cover the uncovered portion of the first stent. | 01-27-2011 |
20110022154 | ENDOLUMINAL PROSTHETIC CONDUIT SYSTEMS AND METHOD OF COUPLING - A modular prosthetic conduit system such as a stent or stent graft system tailored for the repair of aneurysms or other compromised vessel walls. The stent or stent graft system incorporates various means to interlock the multiple modular components used in the repair procedure. The present invention further provides a modular stent graft system tailored for the repair of aneurysms or other compromised vessel walls that cross or are adjacent to a branch or bifurcation in a vessel. | 01-27-2011 |
20110040367 | Low Profile Prosthesis - A prosthesis comprises a tubular graft and a bare spring connected in non-overlapping relation thereto through a plurality of straps adhered to the graft and extending around portions of the bare spring. | 02-17-2011 |
20110040368 | MEDICAL DEVICE AND METHOD OF MANUFACTURING SAME | 02-17-2011 |
20110040369 | Implantable Medical Device - A stent graft ( | 02-17-2011 |
20110046713 | ATRAUMATIC VASCULAR GRAFT REMOVAL SHEATH - The present invention comprises articles and methods for atraumatic removal of a chronically implanted medical device, such as a vascular graft. Specifically, the invention comprises a thin, lubricious and durable tubular cover that aids in protecting the indwelling implant during implantation while also acting as an atraumatic removal aid. | 02-24-2011 |
20110046714 | VESSEL PROSTHESIS, PARTICULARLY FOR THE REPLACEMENT OF AORTA SEGMENTS NEAR THE HEART - The invention relates to a vessel prosthesis, particularly for the replacement of aorta segments near the heart, in the form of a pleated flexible tube with folds ( | 02-24-2011 |
20110054588 | VASCULAR GRAFTS DERIVED FROM ACELLULAR TISSUE MATRICES - A vascular graft for treatment of diseased or damaged blood vessels is disclosed. The graft comprises a sheet of acellular tissue matrix with an intact basement membrane. The graft is formed by wrapping the sheet into a tube and securing the edges of the sheet together. The acellular tissue matrix facilitates tissue ingrowth and remodeling of the graft with host cells. | 03-03-2011 |
20110087318 | BIFURCATED HIGHLY CONFORMABLE MEDICAL DEVICE BRANCH ACCESS - The present invention comprises a highly conformable stent graft with an optional portal for a side branch device. Said stent graft comprises a graft being supported by a stent, wherein said stent comprises undulations each which comprise apices in opposing first and second directions and a tape member attached to said stent and to said graft such that the tape member edge is aligned to the edge of the apices in the first direction of the each of the undulations, thus confining the apices in the first direction of the undulations to the graft and wherein the apices in the second direction of the undulation are not confined relative to the graft; wherein said graft forms unidirectional pleats where longitudinally compressed and wherein said apices in the first direction of said undulation is positioned under an adjacent pleat when compressed. The invention also discloses and claims methods of making and using said highly conformable stent graft and method of making the optional portal. | 04-14-2011 |
20110093057 | Mitigating Thrombus Formation On Medical Devices By Influencing pH Microenvironment Near The Surface - The present disclosure provides treatments of medical devices which inhibit thrombus formation. At least a portion of a substrate of a medical device includes a surface possessing a functionality and/or surface charge adapted to modulate the pH of the surface of the medical device, as well as the pH microenvironment near the surface of a medical device. | 04-21-2011 |
20110098799 | Stent Combined with a Biological Scaffold Seeded With Endothelial Cells - Disclosed herein are implantable medical device, and in particular, vascular stent having a biocompatible scaffold seeded with endothelial cells. The stent can provide structural support to maintain the openness of a vessel lumen following angioplasty while the biological scaffold seeded with endothelial cells can provide a new, healthy blood vessel wall. | 04-28-2011 |
20110137404 | INFLATABLE POROUS IMPLANTS AND METHODS FOR DRUG DELIVERY - The present invention provides inflatable porous implants, such as grafts, stent-grafts, and bladders, as well as methods and kits for drug delivery. In particular, the grafts and stent-grafts of the present invention provide for the delivery of a therapeutic agent into a flow conduit in the body. The inflatable porous implants provide for direct delivery of larger, more precise dosages of drugs over longer administration periods into the body. Moreover, these inflatable porous implants are often flexible when inserted and have a low profile delivery configuration for easy placement. The implants of the present invention further provide a mechanical or structural function in addition to drug delivery in a single integrated structure. | 06-09-2011 |
20110160838 | ENDOPROSTHESIS CONTAINING MULTI-PHASE FERROUS STEEL - An endoprosthesis fabricated from multi-phase ferrous steel. Endoprostheses can include a variety of devices such as staples, orthodontic wires, heart valves, filter devices, and stents, many of which devices are diametrically expandable devices. Multi-phase ferrous steels include dual phase steels and transformation induced plasticity steels (TRIP steels). | 06-30-2011 |
20110166637 | SELF CONSTRAINING RADIALLY EXPANDABLE MEDICAL DEVICES - The current invention comprises tubes that can be constrained and expanded by either axial or torsional strain. By torsionally displacing the tube in a direction counter to the biased helices and angularly displacing the lower angle helix to an angle equal to, but opposite, the starting angle, the tube is expanded diametrically with no significant change in length after expansion of the tube. These tubes find utility in medical and non medical applications. | 07-07-2011 |
20110190868 | RADIOPAQUE REINFORCING MEMBER - A reinforcement member ( | 08-04-2011 |
20110208288 | STENTS AND STENT GRAFTS - Elastic compressible stents have a plurality of proximal and distal apices joined by struts that are essentially straight. The stent can have a polygonal cross-sectional shape, such as a dodecahedron shape. Elastic compressible stents can be made by a method that includes winding stent wire around an outer surface of a longitudinal axis of a polygonal cross-sectional shaped mandrel into a desired shape that is polygonal in an elevation orthogonal to the longitudinal axis. The stent can be formed by setting the wound stent wire in the desired polygonal final shape. The polygonal cross-sectional shape mandrel can be a mandrel having a multi-sided outer surface. Stents can include graft material attached to the stent. | 08-25-2011 |
20110264192 | CURVE FORMING STENT GRAFT - A curve forming stent graft for curved vessels such as the thoracic arch. The stent graft has a tubular body zig zag self expanding stents fastened to and supporting the tubular body. The zig zag self expanding stents comprising struts and points between adjacent struts thereby defining proximal end points and distal end points. A temporary diameter constriction arrangement associated with the least some of the plurality of zig zag self expanding stents comprises a pair of adjacent distal end points being releasably retained adjacent each other whereby at rest the tubular body of the stent graft is in a substantially sawtooth form and when released in a curved configuration a distal end point of a stent overlaps a proximal end point of a distally adjacent stent to facilitate curvature of the stent graft in a curved vessel. | 10-27-2011 |
20110276122 | STENT | 11-10-2011 |
20110288627 | Stent graft with integral side arm - A fenestrated stent graft with a tubular side arm extending there from in which the side arm can be turned inside out to extend into the stent graft during deployment of the stent graft and extended out during deployment. Also disclosed is a deployment device for such a side arm stent graft which has a deployment catheter and a side arm guide, the side arm guide is releasably fastened at a proximal end to the branch tube and is able to be moved independently of the deployment catheter such that the branch tube can be extended from the tubular body of the stent graft while it is fastened onto the side arm guide. The side arm guide can be formed from a side arm catheter and a side arm guide wire carried in the side arm catheter. | 11-24-2011 |
20120029611 | Stent Graft System and Method of Use - A stent graft system and method of use including a stent graft system with a first stent graft component and a second stent graft component. A first tubular graft of the first stent graft component has an integral first body and first leg, with the first body defining a first crown opening and a first substantially elliptical opening. The second body of the second stent graft component is disposed in the first body of the first stent graft component with the second leg of the second stent graft component disposed through the first substantially elliptical opening of the first stent graft component with the perimeter of the first elliptical opening of the first stent graft component in contact with the second body of the second stent graft component. | 02-02-2012 |
20120041539 | PROTEIN BIOMATERIAL AND BIOCOACERVATE VESSEL GRAFT SYSTEMS AND METHODS OF MAKING AND USING THEREOF - The present invention relates to protein biocoacervates and biomaterials vessel graft systems used in cardiovascular applications and other medical applications, the components utilized in the vessel graft systems and the methods of making and using such systems. More specifically the present invention relates to protein biocoacervates and biomaterials vessel graft systems used in various medical applications and/or the devices used in such vessel graft systems including, but not limited to, vessel grafts as drug delivery devices for the controlled release of pharmacologically active agents, tubular grafts, vascular grafts, protein biomaterial sutures and biomeshes, protein biomaterial adhesives and glues, and other biocompatible biocoacervate or biomaterial devices used in the vessel graft systems of the present invention. | 02-16-2012 |
20120046728 | PROSTHESIS HAVING PIVOTING FENESTRATION - The present disclosure relates to an endoluminal prosthesis, such as a stent graft that includes one or more fenestrations to accommodate endovascular disease, such as an aneurysm in cases where one or more side branches is involved. In one aspect, the prosthesis includes fenestrations that are pivotable to accommodate the dynamic geometry of the aortic branches. | 02-23-2012 |
20120065721 | THERMOPLASTIC FLUOROPOLYMER-COATED MEDICAL DEVICES - A medical device provided with at least a partial surface coating of a thermoplastic copolymer of tetrafluoroethylene and perfluoroalkylvinylether that is free of cross-linking monomers and curing agents. The fluoropolymer coating is preferably an amorphous thermoplastic, is highly inert and biocompatible, has elastomeric characteristics that provide desirable mechanical properties such as good flexibility and durability. These characteristics allow the coating to be considered “functionally transparent” because it withstands mechanical deformations required for the assembly, deployment, expansion, and placement of medical devices, without any adverse effect on the mechanical and biological functionality of the coated device. Further, its inertness, derived from the perfluorocarbon structure, contributes to its functionally transparent nature. The coating can be provided with various liquid or solid additives, can be loaded with large quantities of additives including a wide range of therapeutic agents, and has excellent drug elution characteristics when elutable additives are used. | 03-15-2012 |
20120083870 | SYSTEM AND METHOD OF PIVOTED STENT DEPLOYMENT - The invention provides a stent-graft system comprising a graft member and a stent having a connection end interconnected with the graft member and a free end opposed thereto. A belt retaining structure is provided at the stent free end. A belt is releasably retained in the belt retaining structure and is configured to constrain the stent free end independent of the stent connection end. A method of securing at least one end of a stent-graft within a vessel is also provided. | 04-05-2012 |
20120116495 | Compliant Venous Graft - A venous graft for replacement of a section of an artery and methods of making the graft. The graft comprises a flexible, resilient, generally tubular external support and a vein segment carried within and having an ablumenal surface in contact with and supported by the tubular support, the venous graft being capable of resilient radial expansion in a manner mimicking the radial compliance properties of an artery. | 05-10-2012 |
20120123518 | Flow-Deflecting Medical Device - The disclosure relates to a flow-deflecting medical device comprising a support structure and two flow-deflecting members attached to the support structure. The first flow-deflecting member is movable to a position in which it contacts and substantially seals against the second flow-deflecting member. | 05-17-2012 |
20120130476 | LOW PROFILE SUPPORT FRAME AND RELATED INTRALUMINAL MEDICAL DEVICES - A low profile support frame for use as an or in an expandable intraluminal medical device includes first and second wire members that define arcuate paths having opposing curves. Connectors join the wire members, and barbs can be disposed on the connectors. The support frame has radially compressed and radially expanded configurations. When the support frame is in the radially expanded configuration, substantially no portion of the support frame is disposed on a first transverse axis of the frame opposite one end of the frame and substantially no portion of the frame is disposed on a second transverse axis of the frame opposite the other end of the frame. The support frame can be used as an intraluminal medical device by itself or as a component in a medical device that includes other components, such as a stent, prosthetic valve, occluder, or filter. | 05-24-2012 |
20120143305 | VASCULAR REPAIR DEVICES - A vascular repair device includes a tubular graft body and a structural framework having at least two stents. A first stent of the stents is connected to the tubular graft body along an entirety of the first stent and a second of the stents includes a periodically changing shape that defines proximal apices having a first radii of curvature and distal apices having a second radii of curvature that is less than the first radii of curvature. The second stent is connected to the tubular graft body at the distal apices. | 06-07-2012 |
20120143306 | Removable Stent-Graft - A stent-graft including a helically-wound stent component provided with a covering of graft material. It is removable from the site of implantation by gripping an end of the helically-wound stent component with a retrieval device and applying tension to the stent component. The use of such a retrieval device allows the stent-graft to be removed remotely, such as via a catheter inserted into the body at a different location from the implantation site. The design of the stent-graft is such that the stent component is extended axially while the adjacent portion of the graft separates between windings of the stent component. The axial extension of the stent component, with portions of the graft still joined to the stent component, allows the device to be unravelled and removed through a catheter of diameter adequately small to be inserted into the body cavity that contained the stent-graft. | 06-07-2012 |
20120158121 | HYBRID TYPE A DISSECTION DEVICE - A hybrid stent graft device for treatment of a Type A dissection having a first tubular portion for placement into the ascending aorta and a second tubular portion for extending around the thoracic arch and down the descending aorta is disclosed. The first tubular portion is connectable to the aorta between the sinotubular junction and the brachiocephalic artery so that it essentially replaces the ascending aorta. A temporary bypass tube allows perfusion during an operation. The second tubular portion has an elongate recess outside of the second tubular portion and an aperture defining a fluid flow path into the recess. The recess is intended to engage an outer curve of the thoracic arch to enable blood flow into the arteries of the thoracic arch. An introduction device in combination with the hybrid stent graft described above is also disclosed. | 06-21-2012 |
20120165917 | STENT GRAFT - Some embodiments are directed to a stent graft comprising a first stent graft having a first and a second stent and a first and a second inner graft supported by the first stent, and an outer graft. The second inner graft can be spaced apart from the first inner graft so that a portion of the first stent is not covered by either the first inner graft or the second inner graft. A first and second portion of the outer graft can be attached to the first stent, the outer graft being unsupported by the stent between the first and second portions so as to form a fillable space between the outer graft, the first inner graft, and the second inner graft. Some embodiments further comprise a second stent graft deployable within the inside of the first stent graft to sealingly cover the uncovered portion of the first stent. | 06-28-2012 |
20120179235 | COMPOSITE STENT GRAFTS FOR IN SITU ASSEMBLY AND RELATED METHODS - Composite stent grafts can include separate components that are capable of being repositioned relative to each other in situ. In some examples, a stent and a graft that are attached to each other in an insertion package do not overlap each other. The graft and stent are moved relative to each other in situ. | 07-12-2012 |
20120179236 | SIDEPORT ENGAGEMENT AND SEALING MECHANISM FOR ENDOLUMINAL STENT-GRAFTS - An endovascular prosthesis ( | 07-12-2012 |
20120185033 | CHARGED GRAFTS AND METHODS FOR USING THEM - A system for preventing thrombosis in an implantable medical device includes an implantable medical device sized for implantation at least partially within a patient's body. The device includes an at least partially electrically conductive portion that is disposed within a patient's body upon implantation, an electrode coupled to the electrically conductive portion of the device; and a power source coupled to the electrode. The power source provides a negative electric charge to the at least partially electrically conductive portion for an indefinite period of time. The device may be configured to resist thrombosis, infection, and/or undesired tissue growth via the charged conductive portion once implanted. Exemplary embodiments of the implantable medical device include a hemodialysis vasculature graft, a dialysis catheter, a coronary artery, and a heart valve. | 07-19-2012 |
20120197382 | ENDOLUMINAL PROSTHESIS COMPRISING A VALVE REPLACEMENT AND AT LEAST ONE FENESTRATION - An endoluminal prosthesis comprises a graft having a tubular body comprising proximal and distal ends, and a valve replacement disposed between the proximal and distal ends of the graft. At least one stent is coupled to the graft and has a contracted delivery state and an expanded state for maintaining patency within a portion of the graft. At least one fenestration is disposed in a sidewall of the graft at a location distal to the valve replacement. In one embodiment, the at least one fenestration is pivotable in any direction away from an axis perpendicular to a longitudinal axis of the prosthesis. | 08-02-2012 |
20120197383 | THORACIC STENT GRAFT WITH GUIDE ARRANGEMENT - A stent graft ( | 08-02-2012 |
20120209369 | FENESTRATED ENDOGRAFT - A fenestrated endograft having an expandable stent frame and a lumen is described herein. The stent frame has a proximal end portion, a distal end portion, and a central portion. The central portion may include a fabric that has an aperture partially surrounded by part of the expandable stent frame. The lumen extends through the proximal end portion, the central portion, and the distal end portion. The stent frame is radially expandable from a collapsed configuration to an expanded configuration. The central portion is coupled to a fabric, which extends about a perimeter of the central portion. The fabric has an aperture with a cross-sectional dimension that is substantially equal to a cross-sectional dimension of an outer cross-sectional dimension of the distal end portion. The central portion has a curved elongate member, which includes a curved segment extending around at least one-fourth of a perimeter of the aperture. | 08-16-2012 |
20120215298 | PROSTHESIS AND METHOD OF MANUFACTURING THE SAME - A prosthesis ( | 08-23-2012 |
20120221096 | PROSTHESIS HAVING PIVOTING FENESTRATION - The present disclosure relates to an endoluminal prosthesis, such as a stent graft that includes one or more fenestrations to accommodate endovascular disease, such as an aneurysm in cases where one or more side branches is involved. In one aspect, the prosthesis includes fenestrations that are pivotable to accommodate the dynamic geometry of the aortic branches. In another aspect, the pivotable fenestrations include a first perimeter, a band of flexible material attached and surrounding the first perimeter, and a second perimeter attached to and surrounding the band of flexible material. The first perimeter, band of flexible material, and second perimeter have a geometric shape. | 08-30-2012 |
20120226344 | STENT GRAFTS - Provided is a stent graft that has superior prevention of endoleakage due to being resistant to creasing, and has superior prevention of graft migration as a result of promoting cell infiltration into gaps among microfibers in a dispersed state and forming an integrated structure with the cells in the landing zone of the stent. The stent graft according to the present invention is a stent graft comprising a stent graft fabric that has microfiber bundles consisting essentially of microfilaments having a filament linear density of 0.5 dtex or less, and said microfiber bundles having a total linear density of 10 to 60 dtex/120 to 3000 filaments, for the warp and/or weft, and in which the porosity of the microfiber bundles is 30% to 95%, wherein said stent graft has said stent graft fabric being located in at least 1 cm range from the central end. | 09-06-2012 |
20120239131 | METHODS AND APPARATUS FOR TREATMENT OF ANEURYSMAL TISSUE - Methods and apparatus for aiding aneurysm repair are provided. Such apparatus is constructed to support or bolster the aneurysmal site and supply a therapeutic agent to aid in healing the surrounding aneurysmal tissue. | 09-20-2012 |
20120245672 | Endovascular Grafts and Methods of Use - Endoluminal grafts include an endoluminal graft body and at least one vessel ingrowth component affixed to the endoluminal graft body. Endoluminal grafts can include luminal fabric and stent components that are longitudinally extendable from a first, collapsed configuration to a second, extended configuration. Endoluminal grafts can include at least one stent fixed with a proximal portion of a graft body that also includes a distal portion or a proximal portion of an endoluminal graft body retractable over at least a portion of the remaining graft body. Endoluminal grafts can be employed in methods of delivering stent grafts in patients at an aneurysm site. | 09-27-2012 |
20120277848 | STENT AND STENT-GRAFT DESIGNS - The present embodiments provide stents and stent-grafts for use in medical procedures. In one embodiment, a stent comprises a series of proximal apices, a series of distal apices, and at least one imaging element. A distal region of the stent, including the series of distal apices and a first suture bore, overlaps with the graft material, while a proximal region of the stent, including the series of proximal apices and at least one barb, is disposed proximally beyond the graft material. In an alternative embodiment, a stent-graft comprises a graft, a first stent and a second stent, in which a series of proximal apices of the first stent are each disposed distal to the proximal end of the graft, and a series of proximal apices of the second stent are each disposed proximally beyond the proximal end of the graft. | 11-01-2012 |
20120290068 | STEERABLE ILIAC BRANCH DEVICE - A prosthesis may be used for treatment of an aneurysmal body vessel. The prosthesis may include a prosthetic trunk and a prosthetic branch. The prosthetic trunk may include a graft body, an open first end, an open second end, and a trunk lumen extending therebetween. The prosthetic branch may include a graft body, an open first end, an open second end, and a branch lumen extending therebetween. The first end of the prosthetic branch may be attached to the prosthetic trunk, and the branch lumen may be in fluid communication with the trunk lumen. The prosthetic branch may be movable in relation to the prosthetic trunk between neutral, right biased, and left biased configurations. First and second releasable steering members may be associated with the respective first and second biased configurations and may cooperatively retain the prosthetic branch in the neutral configuration. | 11-15-2012 |
20120290069 | PARAPLEGIA PREVENTION VALVE FOR STENT GRAFTS - A stent graft defining a main lumen bounded by a wall of graft material is disclosed. The stent graft has a valve portion between proximal and distal portions. The valve portion is formed by a wall portion having a part-circumferential double layer portion comprising an inner underlap portion and an outer overlap portion, the double layer portion forming a passageway parallel to the main lumen. The passageway has an entrance mouth and an exit mouth. The passageway has an open condition where the underlap and overlap portions are spaced apart to form a vent lumen. The wall portion is broken by a narrow cut. The cut is openable by relative radial movement between its edges. This allows re-perfusion of an aneurism and perfusion of blood from within the lumen out towards blood vessels such as intercostals and can assist in minimising the chance of paraplegia. | 11-15-2012 |
20120296414 | THORACIC AORTA STENT GRAFT - A stent graft for placement in the thoracic arch of a patient has a tubular body defining a main lumen therethrough, a plurality of zig zag stents along the tubular body, each of the stents comprising a plurality of struts and bends, the bends being between adjacent struts. At least a first stent and an adjacent second stent having at least a pair of adjacent bends on the first stent aligned with an adjacent pair of bends on the second stent, whereby a first pair of adjacent struts of the first stent and a second pair of adjacent struts of the second adjacent stent together define a diamond shape region. A recess is within the diamond shaped region with the recess extending into the lumen of the tubular body. A fenestration extending into the tubular body within the recess in the diamond shaped region and a graft tube leading from the fenestration into the main lumen. There can be one, two or three diamond shaped regions, recesses, fenestrations and graft tubes Proximally of the or each diamond shaped region the tubular body has a first diameter, distally of the diamond shaped region the tubular body has a second diameter and in the region of the tubular body around the diamond shaped region the tubular body has a third diameter, the first diameter being greater than the second diameter and both the first and second diameter being greater than the third diameter whereby a central region is defined which will allow circumferential blood flow during an operation out of the graft tube into the recess and then into the central region. | 11-22-2012 |
20120310326 | INTERIOR LINER FOR TUBES, PIPES, AND BLOOD CONDUITS - A tube which circumferentially distends from its initial circumference upon the application of a circumferentially distending force such as applied by an internal pressure, and which exhibits minimal recoil following the removal of the circumferentially distending force. The tube preferably has a second circumference larger than the initial circumference which remains substantially unchanged by further increasing force once it has been achieved. Because of the distensible circumference and minimal recoil of the tube, the tube is useful as a liner for pipes and vessels and particularly for pipes and vessels having irregular internal surfaces to which the tube can smoothly conform. The tube is preferably made from porous PTFE with thin walls, in which form it is particularly useful as a liner for both living and prosthetic blood vessels and to line anastomoses between living and prosthetic blood vessels. | 12-06-2012 |
20120323303 | PARAPLEGIA PREVENTION STENT GRAFT - A stent graft ( | 12-20-2012 |
20120330402 | HELICAL STENT - A helical stent is provided that is wound in a zig-zag pattern along a pitch angle with respect to a plane transverse to the axis of the stent. A bisecting line extending through a bend and between two adjacent angular struts is also angled with respect to the longitudinal axis of the stent. | 12-27-2012 |
20130013050 | MULTI-COMPONENT STENT-GRAFT SYSTEM FOR IMPLANTATION IN A BLOOD VESSEL WITH MULTIPLE BRANCHES - A multi-component stent-graft system ( | 01-10-2013 |
20130013051 | ENDOVASCULAR STENT-GRAFT SYSTEM WITH FENESTRATED AND CROSSING STENT-GRAFTS - An endovascular stent-graft system ( | 01-10-2013 |
20130013052 | PROSTHESIS COUPLING DEVICE AND METHOD - A coupling device is formed of a double tubing of a substantially non-porous membrane material, typically a conventional graft material, that is of inner and outer layers of membrane material. The inner and outer layers are coupled by bridging rings which allow the layers to be spaced from one another in use. Attached to the inner and outer layers are first and second stents. The stent is located on the inside of the double tubing, while the stent is located on the outside of the double tubing. The device can expand in effect to ‘bulge’ and thus to fill the gaps to the vessel wall and to the stent-graft sections. The device can provide reliable coupling of stent-grafts in vessels of varying diameter or in vessels inflicted with one or more aneurysms. | 01-10-2013 |
20130013053 | Thoracic Stent Graft - A thoracic arch stent graft ( | 01-10-2013 |
20130030515 | GRAFT INCLUDING EXPANDABLE MATERIALS - A graft for facilitating treatment of a deformity in a blood vessel wall includes a tubular body defining a first end and an opposing second end. At least a portion of the tubular body includes a super-absorbent material integrated into the tubular body and configured to expand upon exposure to moisture. | 01-31-2013 |
20130035752 | Dialysis Arterial-Venous Graft - This disclosure relates to an improved arterial-venous graft. In one embodiment, an arterial-venous stent-graft can comprise a tube comprising a first section and a second section, said first section comprising at least fifty percent of said tube. Additionally, the arterial-venous stent-graft can comprise a stent surrounding all of said first section. Additionally, this disclosure relates to a method for placing an arterial-venous stent-graft in a body. Specifically, the method comprises placing an arterial-venous stent-graft in a subcutaneous tunnel, placing a portion of said arterial-venous stent-graft in a vein, wherein said first portion comprises a stent that covers said portion and covers at least fifty percent of said stent-graft, and connecting a second portion of said arterial-venous stent-graft to an artery, further wherein second portion of said arterial-venous stent-graft comprises no stent. | 02-07-2013 |
20130041452 | BASE FABRIC FOR STENT GRAFT, AND STENT GRAFT - A base fabric for a stent graft is a woven fabric constituted by a fiber having a total fineness of 1 to 40 decitex and a single yarn fineness of 0.1 to 2.0 decitex and has a yarn density of 150 strands/2.54 cm or more in both longitudinal direction and lateral direction, a thickness of 1 to 90 μm, and a tensile strength of 50.0 N/cm or more in both longitudinal direction and lateral direction. According to the present invention, the base fabric for a stent graft having thinness, high strength, low permeability, durability, and flexibility can be obtained. | 02-14-2013 |
20130060319 | STENT/GRAFT ASSEMBLY - A stent/graft assembly includes a tubular graft connected in substantially end-to-end relationship with a generally tubular stent. Free ends of the stent and graft extend in opposite directions from the end-to-end connection during a pre-deployment orientation of the assembly. However, the graft is inverted during deployment so that free ends of the graft and the stent extend in substantially the same direction from the end-to-end connection in a post-deployment orientation. Thus, at least a portion of the stent is disposed within at least a portion of the graft in a post-deployment orientation of the assembly. | 03-07-2013 |
20130073027 | STENT GRAFT WITH FLANGED CONTRALATERAL GATE FOR ENDOVASCULAR ANEURYSM REPAIR - A stent graft is disclosed. The stent graft includes a body portion having a sidewall and an opening at the top. The top of the sidewall is configured and arranged to engage a wall of an aorta above an aneurysmal site of a patient. An ipsilateral limb descends from the body portion. The ipsilateral limb is configured and arranged to descend into one of an iliac arteries. The stent graft further includes a contralateral gate that has a flared opening. The contralateral gate is configured and arranged to align with the other of the iliac arteries. | 03-21-2013 |
20130090717 | NON-WOVEN MAT AND METHOD OF PRODUCING SAME - A mat having a highly uniform porosity distribution is produced by consolidating 15 or more layers of melt blown webs (or the like) having different orientations. Control over the porosity is provided by using webs that exhibit a narrow, unimodal distribution of fiber diameters over the bulk of its distribution, such as in the top 80%. A compliance of the mats can be chosen by selecting a number and orientation of the webs. It is thus possible to produce mats that are good candidates for vascular grafts, for example. The uniformity of the porosity within the range of 6 μm to 30 μm permits seeding of the vascular graft with endothelial and smooth muscle cells. The mats have the demonstrated ability to retain, and support growth of, smooth muscle cells and endothelial cells. | 04-11-2013 |
20130096665 | VASCULAR GRAFT HAVING LIMITED END STRUCTURE - The vascular graft is located within a lumen of a vessel. The vascular graft includes a tubular structure and an attachment ring connected thereto. A stent attachment structure is connected to the attachment ring. The stent attachment structure is connected to an inner surface of the vessel to secure the location of the vascular graft within the lumen. The vascular graft is made according to a method in which the end of the tubular structure is folded over the attachment ring. Alternatively, the vascular graft has circumferential slits near the end thereof. Strap structures extend through the slits and are folded for connection to the stent attachment structure. The vascular graft is made according to a method in which the strap structures are inserted through the slits and folded for connection to the stent attachment structure. | 04-18-2013 |
20130103135 | FENESTRATED INFLATABLE GRAFT - The endovascular graft includes a tubular structure having a first end and a second end. The tubular structure has a wall which defines a lumen between the first and second ends. A fenestration is located between the first and second ends to extend through the wall of the tubular structure. A sealing ring is circumferentially disposed within or on, including without limitation secured to, the tubular structure. The sealing ring is adjacent to the fenestration. The sealing ring may be inflatable. | 04-25-2013 |
20130123900 | IMPLANT ASSEMBLY WITH TACTILE INDICATOR - The present disclosure describes an assembly comprising an expandable device, a restraining member wrapped circumferentially around the device, a coupling member releasably securing the restraining member, and at least one tactile indicator located on the assembly at a desired point of partial deployment, along with a method for partially deploying the expandable device in a patient. During partial deployment of the expandable device, the coupling member is tensioned and displaced from outside the patient by a clinician, and upon reaching the tactile indicator, a change in tension on the coupling member is felt my the clinician performing the procedure. | 05-16-2013 |
20130131779 | SILANE BONDED MEDICAL DEVICES AND METHOD OF MAKING SAME - A method for bonding a graft material to a support element employing a silane coupling agent, and a medical device obtainable by said method. A medical device including a graft material bound to a support element by a plurality of silane linkages is also described. | 05-23-2013 |
20130131780 | Lattice - The invention relates to medical devices and methods of using them. The devices are prostheses which can be percutaneously deliverable with (or on) an endovascular catheter or via other surgical or other techniques and then expanded. The prostheses are configured to have a lattice resistant to dilation and creep, which is defined by a plurality of openings. The prosthesis may also optionally have a stent disposed proximal to the lattice. In exemplary embodiments, the fluoropolymer is expanded polytetrafluoroethylene. The composite materials exhibit high elongation while substantially retaining the strength properties of the fluoropolymer membrane. In at least one embodiment, the lattice is made of a composite material that includes a least one fluoropolymer membrane including serpentine fibrils and an elastomer. A lattice including a generally tubular member formed of a composite material including a least one fluoropolymer membrane containing serpentine fibrils and an elastomer is also provided. | 05-23-2013 |
20130150946 | FENESTRATED STENT GRAFTS - A stent graft ( | 06-13-2013 |
20130158649 | BIOLOGICAL STENT-GRAFT - A biological stent-graft and a method of making the same wherein a stent is surgically implanted in the lumen of an artery of a mammal, harvesting the stent-graft precursor after the stent has been incorporated into artery wall, fixing the harvested stent-graft precursor, and washing the same to yield a biological stent-graft. | 06-20-2013 |
20130166015 | HYBRID AORTIC ARCH REPLACEMENT - A hybrid prosthesis may include a distal graft portion including a tubular main body including a biocompatible material and a support structure. The distal graft portion may have proximal and distal ends and a main lumen extending therebetween. A tubular branch may extend from the main body of the distal graft portion and may have a branch lumen in fluid communication with the main lumen of the distal graft portion. The proximal graft portion may include a tubular body including a biocompatible material. The body of the proximal graft portion may be unstented and may have proximal and distal ends and a lumen extending therebetween. The distal end of the proximal graft portion may be attached to the proximal end of the distal graft portion. The lumen of the proximal graft portion may be in fluid communication with the main lumen of the distal graft portion. | 06-27-2013 |
20130166016 | EXPANDABLE STENT WITH WRINKLE-FREE ELASTOMERIC COVER - An improved stent-graft device is provided that delivers a smooth flow surface over a range of operative expanded diameters by applying a unique cover material to the stent through a technique that allows the cover to become wrinkle-free prior to reaching fully deployed diameter. The unique cover material then allows the device to continue to expand to a fully deployed diameter while maintaining a smooth and coherent flow surface throughout this additional expansion. Employed with a self-expanding device, when the device is unconstrained from a compacted diameter it will self-expand up to a fully deployed diameter with the graft being substantially wrinkle-free over diameters ranging from about 30-50% to 100% of the fully deployed diameter. Preferably, the graft component comprises an elastomeric material, such as silicone, polyurethane, or a copolymer of PAVE-TFE. | 06-27-2013 |
20130172980 | IMPLANTABLE PRODUCT WITH IMPROVED AQUEOUS INTERFACE CHARACTERISTICS AND METHODS FOR MAKING AND USING THE SAME - An implantable medical device including a porous membrane that is treated with a hydrophilic substance to obtain rapid optimum visualization using technology for viewing inside of a mammalian body. These technologies include ultrasound echocardiography and video imaging such as that used during laparoscopic procedures. | 07-04-2013 |
20130184807 | Articles Including Expanded Polytetrafluoroethylene Membranes with Serpentine Fibrils and Having a Discontinuous Fluoropolymer Layer Thereon - Articles comprising an expanded polytetrafluoroethylene membrane having serpentine fibrils and having a discontinuous coating of a fluoropolymer thereon are provided. The fluoropolymer may be located at least partially in the pores of the expanded fluoropolymer membrane. In exemplary embodiments, the fluoropolymer is fluorinated ethylene propylene. The application of a tensile force at least partially straightens the serpentine fibrils, thereby elongating the article. The expanded polytetrafluoroethylene membrane may include a microstructure of substantially only fibrils. The articles can be elongated to a predetermined point at which further elongation is inhibited by a dramatic increase in stiffness. In one embodiment, the articles are used to form a covered stent device that requires little force to distend in the radial direction to a first diameter but is highly resistant to further distension to a second diameter (stop point). A large increase in diameter can advantageously be achieved prior to reaching the stop point. | 07-18-2013 |
20130204347 | LATTICE - The invention relates to medical devices and methods of using them. The devices are prostheses which can be percutaneously deliverable with (or on) an endovascular catheter or via other surgical or other techniques and then expanded. The prostheses are configured to have a lattice resistant to dilation and creep, which is defined by a plurality of openings. The prosthesis may also optionally have a stent disposed proximal to the lattice. In exemplary embodiments, the fluoropolymer is expanded polytetrafluoroethylene. The composite materials exhibit high elongation while substantially retaining the strength properties of the fluoropolymer membrane. In at least one embodiment, the lattice is made of a composite material that includes a least one fluoropolymer membrane including serpentine fibrils and an elastomer. A lattice including a generally tubular member formed of a composite material including a least one fluoropolymer membrane containing serpentine fibrils and an elastomer is also provided. | 08-08-2013 |
20130218257 | MEDICAL DEVICE DELIVERY SYSTEM AND DEPLOYMENT METHOD - An aortic stent-graft may include a tubular graft extending from a proximal end to a distal end, the graft comprising a proximal sealing portion and an intermediate portion, wherein a proximal end of the intermediate portion abuts the distal end of the proximal sealing portion. At least one sealing stent may be attached to the proximal sealing portion. A first fenestration window is disposed in the intermediate portion. The first fenestration window has a length determined by the equation L=1.23*D−24 millimeters, where L is the length of the first fenestration window. D is between about 24 millimeters and 45 millimeters. | 08-22-2013 |
20130231732 | Implantable Graft Assembly and Aneurysm Treatment - Disclosed is a method of treating an aneurysm by deploying an implantable graft assembly. | 09-05-2013 |
20130261731 | Curved Stent Graft Assembly - A stent graft assembly comprises a graft of flexible material supported by a stent frame that is configured to be deformable between an expanded state and a radially collapsed state. The graft of flexible material has the shape of a tube that is curved along a longitudinal axis of the tube when the graft is in an expanded, undeformed state. The stent graft assembly is deformable into a state in which the graft is deformed into the shape of a tube that is straight. The stent graft assembly may be designed for treatment of a thoracic aorta aneurysm. | 10-03-2013 |
20130268052 | Stent Graft Apparatus and Method - An apparatus and associated surgical method for repairing abdominal aortic aneurysms is disclosed. The apparatus includes first and second stent grafts made from a metal form structure in combination with a flexible fabric, and a flexible guidewire detachably attached to the first stent graft. The first stent graft has an upper tubular body which defines an inlet, and a lower bifurcation which includes a first tubular leg defining a first outlet, and a second tubular leg defining a second outlet. The method includes advancing the first stent graft through one iliac artery and deploying it in the aorta, advancing a guidewire engagement device distally through the other iliac artery and pulling the flexible guidewire into the other iliac artery, advancing a guide catheter over the flexible guidewire into the second tubular leg of the first stent graft, replacing the flexible guide wire with a stiffer guide wire through the guide catheter, and advancing a catheter delivery system provided with a second stent graft over the stiffer guide wire into the second tubular leg of the first stent graft. | 10-10-2013 |
20130274861 | Debranching Stent Graft Limb and Methods for Use - A debranching stent graft limb and methods for its use, where the limb comprises, a main body stent graft limb with a bifurcation defining a first and second leg, the main body stent graft limb has a distal end and a proximal end, the main body stent graft limb has a diameter at the proximal end in the range from about 14-18 mm, the first leg has a diameter ranging from about 8-12 mm, the second leg has a diameter ranging from about 6-10 mm, and the distance from the proximal end of the main body to the distal end of the first leg and the second leg is in the range from about 70-90 mm, and the diameter of the first leg is about 2 mm greater than the diameter of the second leg. | 10-17-2013 |
20130282102 | MULTI-LEAFLET COUPLING FOR BRANCH VESSEL CONNECTION - A prosthesis includes a tubular body of a graft material, a plurality of stents coupled to the tubular body, and a coupling. The coupling has a plurality of overlapping leaflets successively coupled to the tubular body around an opening formed in the graft material. The leaflets in a non-deployed configuration lay flush with the graft material of the tubular body and partially cover the opening, and the leaflets in a deployed configuration extend radially outward from the graft material of the tubular body. Delivery and deployment of a branch vessel prosthesis through the opening causes the leaflets to transform from the non-deployed configuration to the deployed configuration, and causes a diameter or width of a passageway defined by the leaflets to increase. Leaflet material properties, as well as size, shape, and sewing patterns on adjacent leaflets may be varied in order to vary the flexibility and/or orientation of the coupling. | 10-24-2013 |
20130289700 | STOPPER TO PREVENT GRAFT MATERIAL SLIPPAGE IN A CLOSED WEB STENT-GRAFT - A stent-graft has a closed web configuration in which end stent crowns or apexes do not extend beyond an end of a tubular graft. In order to permit interaction of the endmost crowns with tip capture fingers or prongs of a delivery system, the graft covers the endmost crowns but the endmost crowns are not coupled to the graft material and thus free to interact with the delivery system. In order to prevent slippage of the graft material at the endmost crowns and secure the longitudinal position of the graft material, one of a pair of stoppers is coupled on each of the opposing struts between which the unattached endmost crown is formed. In an embodiment, the stoppers are cylindrical tubes of a radiopaque material having a longitudinally-extending slit in a wall thereof. | 10-31-2013 |
20130289701 | STENT-GRAFT PROSTHESIS FOR PLACEMENT IN THE ABDOMINAL AORTA - A self-expanding main vessel stent-graft includes a trunk portion configured for placement within the abdominal aorta and a bifurcated portion configured for placement above the aortic bifurcation of the common iliac arteries. The trunk portion includes a proximal end section having an anchor stent and a seal stent that accommodates a scallop or open-top fenestration; a suprarenal body section having at least one stent of variable stiffness to accommodate branch vessel prosthesis deployed alongside the main vessel stent-graft; a branch connection section having opposing couplings for connecting the main vessel stent-graft to branch vessel prostheses deployed within the renal arteries; an infrarenal body section having at least one stent of uniform stiffness; and a transition section for transitioning into the bifurcated portion. The main vessel stent-graft is configured to treat short-neck infrarenal, juxtarenal, and/or suprarenal aneurysms in a wide range of patient anatomies. | 10-31-2013 |
20130289702 | STENT-GRAFT PROSTHESIS FOR PLACEMENT IN THE ABDOMINAL AORTA - A self-expanding main vessel stent-graft includes a trunk portion configured for placement within the abdominal aorta and a bifurcated portion configured for placement above the aortic bifurcation of the common iliac arteries. The trunk portion includes a proximal end section having an anchor stent and a seal stent that accommodates a scallop or open-top fenestration; a suprarenal body section having at least one stent of variable stiffness to accommodate branch vessel prosthesis deployed alongside the main vessel stent-graft; a branch connection section having opposing couplings for connecting the main vessel stent-graft to branch vessel prostheses deployed within the renal arteries; an infrarenal body section having at least one stent of uniform stiffness; and a transition section for transitioning into the bifurcated portion. The main vessel stent-graft is configured to treat short-neck infrarenal, juxtarenal, and/or suprarenal aneurysms in a wide range of patient anatomies. | 10-31-2013 |
20130297004 | STENT/GRAFT ASSEMBLY - A stent/graft assembly includes a tubular graft connected in substantially end-to-end relationship with a generally tubular stent. Free ends of the stent and graft extend in opposite directions from the end-to-end connection during a pre-deployment orientation of the assembly. However, the graft is inverted during deployment so that free ends of the graft and the stent extend in substantially the same direction from the end-to-end connection in a post-deployment orientation. Thus, at least a portion of the stent is disposed within at least a portion of the graft in a post-deployment orientation of the assembly. | 11-07-2013 |
20130297005 | EXTRA-VASCULAR WRAPPING FOR TREATING ENDOLEAK - A method is provided that includes identifying an aortic endoleak in a human subject implanted with an endovascular stent-graft in an aneurysmatic aorta. An extra-vascular ring is positioned at least partially encircling a segment of the aneurysmatic aorta in which the endovascular stent-graft has been implanted. | 11-07-2013 |
20130304190 | CLOSURE DEVICE - Described here are devices and methods for closing one or more vascular openings. The devices may include a stent graft comprising a stent framework and a graft material at least partially covering the stent framework. The stent framework may comprise one or more axial segments, and at least one of the axial segments may comprise an access port through which a catheter or treatment device may enter the stent graft. The methods may comprise occluding blood flow upstream of a vascular opening, and delivering a closure device to block, cover, or seal the vascular opening. | 11-14-2013 |
20130317595 | STENT GRAFT - The invention relates to a stent graft comprising a stent ( | 11-28-2013 |
20140005764 | SEALING MECHANISM FOR EXPANDABLE VASCULAR DEVICE | 01-02-2014 |
20140005765 | ENDOLUMINAL PROSTHETIC CONDUIT SYSTEMS AND METHOD OF COUPLING | 01-02-2014 |
20140018902 | TAILOR-MADE STENT GRAFT AND PROCEDURE FOR MINIMALLY INVASIVE ANEURYSM REPAIR WITH NOVEL TAILOR-MADE BALLOON, NOVEL GUIDEWIRE, AND NOVEL CAPSULATED BIOGLUE - An individually tailored endovascular stent graft device and procedure is for performing a no-cut repair of different aneurysm types: ascending, descending, arch, abdominal and cerebral aneurysms. Many aneurysm types can thus be treated without the need for open heart surgery. The stent may be biomaterial based (collagen-based in the preferred embodiment). No shape-memory metals need be used therefore allowing better implantation flexibility and better patient recovery. The stent may be fixated in the designated treatment area by remotely activating individually capsulated bicomponent biological glue by UV light/ultrasound means, wherein each component of the glue is coated separately. Further presented is a method for calculating stent graft implantation path by determining the sequence of implantation points through computer simulation means, wherein the implantation is done by discrete pulses. | 01-16-2014 |
20140025156 | PREFORM PRODUCED BY ELECTROSPINNING, METHOD FOR PRODUCING THE SAME AND USE OF SUCH A PREFORM - The invention relates to a method for producing a preform by means of an electrospinning process. The present invention also relates to the use of the present preform as a substrate for growing human or animal tissue thereon. The present invention furthermore relates to a method for growing human or animal tissue on a substrate, wherein the present preform is used as the substrate. | 01-23-2014 |
20140039601 | STENT AND STENT-GRAFT DESIGNS - The present embodiments provide stents and stent-grafts for use in medical procedures. In one embodiment, a stent comprises a series of proximal apices, a series of distal apices, and at least one imaging element. A first suture bore is disposed in a surface of the stent at a location distal to the imaging element, and is adapted to receive a suture for coupling a portion of the stent to a graft material. A distal region of the stent, including the series of distal apices and the first suture bore, overlaps with the graft material, while a proximal region of the stent, including the series of proximal apices and at least one barb, is disposed proximally beyond the graft material. In an alternative embodiment, a stent-graft comprises a graft, a first stent and a second stent, in which a series of proximal apices of the first stent are each disposed distal to the proximal end of the graft, and a series of proximal apices of the second stent are each disposed proximally beyond the proximal end of the graft. | 02-06-2014 |
20140052236 | REDUCED-STRAIN EXTRA- VASCULAR RING FOR TREATING AORTIC ANEURYSM - Apparatus ( | 02-20-2014 |
20140058498 | IMPLANT COMPRISING A NON-WOVEN FABRIC - The invention relates to a membrane implant for the treatment of vascular malformations, said implant being implantable by endovascular methods into the vessel to be treated, wherein the membrane implant consists of an expandable stent ( | 02-27-2014 |
20140074218 | IMPLANT DEPLOYMENT APPARATUS - A delivery system including a restraining member maintains a collapsed implant in its collapsed state for delivery through a small passageway to a desired site in a mammalian body. Once the implant is positioned at the desired site, the restraining member is released so that the stent may expand or be expanded to its expanded state. In a preferred embodiment, the restraining member comprises a sheet of material that surrounds at least a portion of the collapsed stent. Portions of the restraining member are releasably coupled to one another with a low profile thread-like member or suture. | 03-13-2014 |
20140088687 | VASCULAR ENDOPROSTHESIS - The invention relates to a vascular endoprosthesis including a device for preventing any endoleak after an angioplasty. The invention more particularly but not restrictively relates to a vascular endoprosthesis for a patient suffering from an abdominal aortic aneurysm. | 03-27-2014 |
20140100648 | Multi-Layer Vascular Prosthesis - A vascular prosthesis comprising a tubular support structure having an outer surface and an internal lumen therethrough, the support structure comprising a base material, which can comprise natural or synthetic materials, the internal lumen surface including an extracellular matrix (ECM) layer that includes at least one ECM material, wherein, when said vascular prosthesis is deployed proximate damaged cardiovascular tissue, the prosthesis induces modulated healing of the damaged tissue. In some embodiments, the support member outer surface also includes an ECM layer. | 04-10-2014 |
20140114393 | STENT ELEMENT - There is provided a stent element comprising a central portion with two arms extending therefrom, optionally in a V-shaped or Y-shaped configuration. The arms of the stent-element are resiliently deformable to facilitate packing and suitable material for forming the stent-element is nitinol or PEEK. The stent element can be used to stabilise two adjacent ring stents on a stent graft by attachment to the graft material between the ring stents, for example by sewing. The stent element stabilises the ring stent without risk of fracture. A stent graft having two ring stents and the stent element located between the ring stents is also described. | 04-24-2014 |
20140121756 | STENT WITH VARYING CROSS-SECTION - The present disclosure describes methods and apparatus for endoluminal devices, such as stents, that have components with varying cross-sections at various points about the length of the endoluminal device, with various benefits resulting therefrom. | 05-01-2014 |
20140121757 | MULTI-LEVEL SUTURE ATTACHMENTS FOR COUPLING A STENT TO GRAFT MATERIAL - The present embodiments provide stent-grafts. In one embodiment, a stent has proximal and distal ends, a plurality of strut segments disposed between the proximal and distal ends that enable expansion of the stent from a compressed state to a deployed state, and a series of distal apices disposed at the distal end of the stent. At least a portion of a first distal apex overlaps with graft material. First and second sutures are each coupled between a portion of the first distal apex and the graft material. The first and second sutures are positioned at different longitudinal zones that lack an axial overlap with one another. | 05-01-2014 |
20140135897 | Elastic Stent Graft - A stent graft including (1) a stent having a wall having at least one opening, an outer surface, and an inner surface and (2) a covering of a composite material having a least one expanded fluoropolymer membrane and an elastomer is provided. The cover can be used to cover the outer and/or the inner surface of the stent. The expanded fluoropolymer membrane contains serpentine fibrils. In exemplary embodiments, the fluoropolymer is polytetrafluoroethylene. The composite material may be axially and/or circumferentially wrapped around the stent. The composite material is fold-free throughout its operating diameter range and exhibits a sharp increase in stiffness at a predetermined diameter. The stent graft can be designed to have a stop point in either a radial or axial direction. The stent graft can advantageously be implanted undersized with respect to a nominal diameter without having material infolding. | 05-15-2014 |
20140135898 | IMPERMEABLE GRAFT FABRIC COATING AND METHODS - Composite grafts and implantable medical devices include a polymeric layer and a non-porous silicone coating that includes a two-part dispersion of silicone material in an organic solvent. The polymeric layer has a first surface and a second surface, where the first surface and the second surface are positioned on opposite sides of the polymeric layer, and where the first surface is the blood-contacting surface and the second surface is the tissue-contacting surface. The non-porous silicone coating includes a two-part dispersion of silicone material in an organic solvent. The silicone coating is disposed on at least the first surface of the polymeric layer such that the at least first surface or a portion thereof has a substantially reduced permeability or is entirely impermeable. The coating does not substantially increase the thickness of the medical device and reduces the surface friction of the medical device while making the graft layer impermeable to fluids. Methods of making the implantable medical device and methods of repairing or treating a defective vessel in an individual, including treating AAA and thoracic aneurysm, are also provided. | 05-15-2014 |
20140135899 | ASYMMETRIC STENT APPARATUS AND METHOD - A stent-graft system comprising a graft member and a stent having a connection end interconnected with the graft member and a free end opposed thereto. The stent includes a plurality of struts extending between the connection end and the free end and at least two of the struts having different lengths such that the free end has a nonuniform profile. A method of securing at least one end of a stent-graft within a vessel is also provided. | 05-15-2014 |
20140148895 | ASSEMBLY OF STENT GRAFTS WITH DIAMETER REDUCING TIES - A temporary diameter reduction constraint arrangement for a stent graft is disclosed. The arrangement comprises: primary and secondary release wires extending along the graft; a plurality of loops of thread, each loop engaged with either the primary or secondary wire and engaged around a portion of the graft circumferentially spaced away from its release wire, and drawn tight to reduce the diameter of the graft; an end constraint arrangement comprising four of the plurality of loops of thread arranged into a first and second pairs engaged with respective primary and secondary wires; and an intermediate constraint arrangement comprising a fifth and sixth of the plurality of loops of thread arranged into a third pair, the third pair engaged with the primary release wire, the primary release wire deviating towards the secondary release wire so as to locate the intermediate constraint arrangement substantially in-line with the end constraint arrangement. | 05-29-2014 |
20140155983 | METHOD AND APPARATUS FOR EFFECTING AN AORTIC VALVE BYPASS, INCLUDING THE PROVISION AND USE OF A T-STENT FOR EFFECTING A DISTAL ANASTOMOSIS FOR THE SAME - A connector for joining first and second hollow structures, comprising a fluid-constraining tube having a fluid-constraining neck extending therefrom, wherein the tube and the neck each comprise a lumen having first and second openings, the neck being joined to the tube such that fluid entering the first opening of the tube can exit the second opening of the tube, and fluid entering the first opening of the neck can exit the second opening of the tube; at least the portions of the tube adjacent to the first and second openings of the tube being biased radially outwardly so that they normally assume a radially-expanded configuration, but being capable of being restrained in a radially-contracted configuration, wherein the tube is sized so that, when it is in its radially-expanded configuration, it has an outer diameter which is larger than the inner diameter of the second hollow structure. | 06-05-2014 |
20140155984 | DEVICES AND METHODS FOR TREATMENT OF ABDOMINAL AORTIC ANEURYSM - Devices and methods for treating aneurysms, such as abdominal aortic aneurysms (“AAA”) generally include one or more stent-graft devices. Some embodiments include self-expanding and/or balloon-expandable stent components and one or more graft components coupled with the stent components. Using various combinations of self-expanding stent members, balloon-expandable stent members, graft members, and/or anchoring members enhances the anchoring abilities of a stent-graft device to prevent leakage around it, and may further allow the device to be adjusted after placement at a site for treatment. Some embodiments further include a skirt graft member for further prevention of leakage and/or device slippage. | 06-05-2014 |
20140172070 | CARDIAC VALVE REPAIR SYSTEM AND METHODS OF USE - Methods and apparatus are provided for repairing or replacing a defective cardiac valve including an anchor having a double helix configured to engage the cardiac valve leaflets of a diseased or defective cardiac valve, and a replacement valve body disposed in an expandable stent configured to be disposed within the anchor so that the anchor limits expansion of the expandable stent. The expandable stent of the replacement valve body may be self-expanding or mechanically expanded, e.g., using a balloon catheter or catheter-based mandrel and the valve body may be formed of animal tissue or a synthetic fabric. | 06-19-2014 |
20140180390 | STENT DESIGNS FOR REDUCED INFOLDING OF GRAFT MATERIAL - A stent-graft comprises a substantially tubular graft material, and a stent coupled to the graft material. The stent has proximal and distal ends and further has compressed and deployed states. The proximal end is disposed proximally beyond a proximal edge of the graft material, and the distal end has at least one portion overlapping with the proximal edge of the graft material. In one example, the stent comprises at least one distal apex having a bifurcation extending into first and second leg regions. A distal end of the first leg region is positioned to overlap the graft material at a location circumferentially spaced apart from a location at which a distal end of the second leg region overlaps the graft material in the deployed state. | 06-26-2014 |
20140200651 | PARARENAL STENT GRAFT - A stent graft and a stent graft system having a scallop at the proximal end of the stent graft and extending below the proximal edge, the scallop having two substantially longitudinally extending opposing side edges and a substantially laterally extending bottom edge parallel to the proximal edge of the stent graft and extending between the two substantially longitudinally extending opposing side edges to define a scallop parameter. The stent graft and stent graft system include side arms extending externally from the stent graft at an acute angle to the body of the stent graft with an open end of the side arms extending toward the proximal end of the stent graft. | 07-17-2014 |
20140236280 | ATTACHMENT OF STENT TO GRAFT FABRIC WITH AN ANCHORING MACHINE STITCHING - The invention relates to stent-grafts having a continuous anchoring machine stitching and methods of attachment of a stent to the graft material. The continuous anchoring machine stitching includes a series of loop points used to attach the stent to the graft material. | 08-21-2014 |
20140243951 | TAPERED STENT AND FLEXIBLE PROSTHESIS - The disclosure relates to a tapered stent and flexible prosthesis. The stent has a first longitudinal region and a second longitudinal region. The second region is substantially parallel to and spaced axially apart from the first region. A plurality of struts is disposed intermediate the first region and the second region and circumferentially connects the first region and the second region. The first region has a longitudinal length that is greater than the second region longitudinal length. The struts have varying longitudinal lengths that gradually decrease from the first region to the second region. The flexible prosthesis comprises at least two alternating tapered stents. | 08-28-2014 |
20140277368 | PROSTHESIS COMPRISING A COILED STENT AND METHOD OF USE THEREOF - The present invention is directed to a prosthesis and method for treating, repairing, and/or replacing an abdominal aortic aneurysm. The prosthesis includes a coiled stent comprised of shape memory material having first and second anchoring zones and an intermediate zone. The prosthesis also includes graft material engaging at least a portion of the stent. During delivery of the prosthesis, the stent is in a substantially straight longitudinal configuration, and after delivery of the prosthesis the stent is returned to a coiled configuration. The diameter of the prosthesis may be adjusted by controlling the degree to which the stent is coiled. | 09-18-2014 |
20140277369 | ENDOVASCULAR STENT GRAFT WITH SELF-CLOSING PERFUSION BRANCH - A prosthesis having a tubular body of a biocompatible graft material having a proximal end, a distal end, a lumen therethrough, and a sidewall. The prosthesis includes at least one perfusion branch extending from the sidewall of the tubular body and having a proximal end, a distal end, and a lumen therethrough, where the lumen of the perfusion branch is in temporary fluid communication with the lumen of the tubular body. The perfusion branch comprises a self-sealing component, that after predetermined period of time precludes fluid flow out of the distal end of the perfusion branch. | 09-18-2014 |
20140277370 | LOW PROFILE NON-SYMMETRICAL STENT - A stent for use in a medical procedure having opposing sets of curved apices, where the curved section of one set of apices has a radius of curvature that is greater than the curved section of the other set of apices. One or more such stents may be attached to a graft material for use in endovascular treatment of, for example, aneurysm, thoracic dissection, or other body vessel condition. | 09-18-2014 |
20140288631 | LOCAL VASCULAR DELIVERY OF TRICHOSTATIN A ALONE OR IN COMBINATION WITH SIROLIMUS TO PREVENT RESTENOSIS FOLLOWING VASCULAR INJURY - Medical devices, and in particular implantable medical devices, may be coated with any number of biocompatible materials. Therapeutic drugs, agents or compounds may be mixed with the biocompatible materials and affixed to at least a portion of the medical device. These therapeutic drugs, agents or compounds may also further reduce a biological organism's reaction to the introduction of the medical device to the organism. In addition, these therapeutic drugs, agents and/or compounds may be utilized to promote healing, including the formation of blood clots. Also, the devices may be modified to promote endothelialization. Various materials and coating methodologies may be utilized to maintain the drugs, agents or compounds on the medical device until delivered and positioned. In addition, various polymer combinations may be utilized to control the elution rates of the therapeutic drugs, agents and/or compounds from the implantable medical devices. | 09-25-2014 |
20140288632 | Graft Device with Adhered Fiber Matrix - A graft device including a tubular member and a fiber matrix surrounding the tubular member for a mammalian patient is disclosed. At least a portion of the fiber matrix is adhered to the tubular member. Methods and systems used in creating a graft device are also provided. | 09-25-2014 |
20140296963 | MODULAR STENT GRAFTING METHODS AND APPARATUS - The present disclosure provides a modular stent assembly for deployment within a lumen. The assembly may include primary and secondary stent portions. Each stent portion includes a sheet having an incomplete annular profile. The sheet includes a graft material disposed on a wire matrix. Each stent portion further includes an aperture positioned in the sheet, and first and second side walls. The first side wall extends between the aperture and a first longitudinal edge of the sheet. The second side wall extends between the aperture and a second longitudinal edge of the sheet, which is spaced apart from the first edge. The stent portions mate to define an interior space in which is positioned an expandable securement stent. An outer wall of the securement stent is sized to compress the side walls of the stent portions between the body of the securement stent and a wall defining the lumen. | 10-02-2014 |
20140296964 | PROSTHESIS HAVING PIVOTING FENESTRATION - The present disclosure relates to an endoluminal prosthesis, such as a stent graft that includes one or more fenestrations to accommodate endovascular disease, such as an aneurysm in cases where one or more side branches is involved. In one aspect, the prosthesis includes fenestrations that are pivotable to accommodate the dynamic geometry of the aortic branches. | 10-02-2014 |
20140303713 | Tubular Graft - A tubular graft comprising an internal helical formation which imparts helical flow on fluid passing through the tubular graft. One end of the tubular graft is tapered from an inner base to an outer tip. | 10-09-2014 |
20140303714 | Selective Adherence of Stent-Graft Coverings - An endoluminal prosthesis including a radially expandable support member having interior and exterior surfaces and a wall with openings, a first covering member including a biocompatible polymer material at least partially positioned against the interior surface, and a second covering member including a biocompatible polymer material at least partially positioned against the exterior surface. The first covering member attaches to the second covering member at predetermined bonding locations within less than all of the openings thereby leaving unbonded regions. | 10-09-2014 |
20140309723 | STENT WITH SHEATH AND METAL WIRE - A stent assembly includes a stent and a fiber mesh sleeve covering the stent. A wire runs along the stent over the sleeve and fastened to the stent at multiple points so as to attach the sleeve to the stent. | 10-16-2014 |
20140324154 | STENT-GRAFTS WITH POST-DEPLOYMENT VARIABLE RADIAL DISPLACEMENT - An endovascular stent-graft includes a generally tubular body configured to assume a radially-compressed delivery state and a radially-expanded deployment state. The body includes a flexible stent member, and a tubular fluid flow guide attached to the stent member. The body includes a compliance-restoration body portion extending axially along a portion of the body, and including portions of the stent member and fluid flow guide. When the body is in the radially-expanded deployment state, the compliance-restoration body portion characterized by a greatest diastolic outer radius when the body is internally pressurized by fluid having a pressure of 80 mmHg, and radially expandable to a greatest systolic outer radius when the body is internally pressurized by fluid having a pressure of 120 mmHg. The greatest systolic outer radius (R | 10-30-2014 |
20140324155 | BLOOD PERFUSION DEVICE DELIVERY SYSTEM - A delivery system deploys a prosthesis for open surgical repair of a body vessel. The system includes a sleeve to retain segments of a prosthesis in a compressed configuration and retraction members. The sleeve has outer segments associated with each end of the prosthesis. Retraction of the retraction members removes the outer segments of the sleeve from the prosthesis outer ends to allow for expansion of the outer ends of the prosthesis in an outside-in direction. The system can include a handle and an actuation member movably attached to the handle. The actuation member is coupled to the sleeve outer segments so that movement of the actuation member corresponds to removal of the sleeve. The system can include elements to retain the sleeve outer segments to the actuation member and to redirect the retraction members to a direction different from the axis of the prosthesis. | 10-30-2014 |
20140336746 | MODULAR STENT GRAFT - The present invention relates to a modular stent graft which is designed for introduction into a blood vessel in a patient and which has a stent connected by means of a graft material; the stent graft has a first stent graft module having a body, a proximal end and a distal end, as well as at least three tubular arms extending longitudinally in the distal direction from the distal end of the first stent graft module, said arms being integrally connected to the body of the first stent graft module; in addition, a second stent graft module is provided which has a second body, a proximal end and a distal end, as well as at least three tubular arms extending longitudinally in the proximal direction from the proximal end of the second stent graft module, said arms being integrally formed with the body of the second stent graft module; in the assembled state a modular stent graft is formed, the modules of which are situated in the same blood vessel. | 11-13-2014 |
20140343661 | PROCESS FOR MEDICAL COMPONENTS AND USES THEREOF - The invention relates to a process for making a medical component such as a medical implant for example a graft or stent-graft, said medical component comprising ultra high molecular weight polyethylene (UHMWPE) fibers, a medical component obtainable by said process as well as uses of said process and medical component. | 11-20-2014 |
20140343662 | Method and Device for Producing a Bioartificial Tissue Construct - The tissue construct with viable cells in an extracellular matrix made of fibrin is produced with a special method, in which a matrix material and cells are shaped into a hollow body, in particular a tubular hollow body, by means of a rotational casting method in a hollow mould ( | 11-20-2014 |
20140350656 | SYSTEM AND METHOD OF PIVOTED STENT DEPLOYMENT - The invention provides a stent-graft system comprising a graft member and a stent having a connection end interconnected with the graft member and a free end opposed thereto. A belt retaining structure is provided at the stent free end. A belt is releasably retained in the belt retaining structure and is configured to constrain the stent free end independent of the stent connection end. A method of securing at least one end of a stent-graft within a vessel is also provided. | 11-27-2014 |
20140358216 | STENT GRAFT - Some embodiments are directed to a stent graft comprising a first stent graft having a first and a second stent and a first and a second inner graft supported by the first stent, and an outer graft. The second inner graft can be spaced apart from the first inner graft so that a portion of the first stent is not covered by either the first inner graft or the second inner graft. A first and second portion of the outer graft can be attached to the first stent, the outer graft being unsupported by the stent between the first and second portions so as to form a fillable space between the outer graft, the first inner graft, and the second inner graft. Some embodiments further comprise a second stent graft deployable within the inside of the first stent graft to sealingly cover the uncovered portion of the first stent. | 12-04-2014 |
20140371840 | GRADED COMPLIANT ENDOGRAFT AND METHOD OF CONSTRUCTING THE SAME - An implantable endograft device having a graded compliance. The endograft contains at least two portions having different compliance values. In some configurations, the endograft has three, a proximal end portion, a distal end portion, and a central portion, with the proximal and distal end portions having a higher compliance than the central portion. The difference in compliance can be achieved, for example, by using wire struts of different gauges, varying the spacing of the struts in the different portions, varying the geometry of the struts, using struts of different alloys, or using struts of differing elasticity. | 12-18-2014 |
20150012080 | ENDOVASCULAR GRAFT HAVING A CANNULATION POCKET - A stent graft for placement in a lumen of a patient is disclosed. The stent graft comprises: a main tubular body of a biocompatible graft material having a main lumen, the main tubular body having a proximal end and a distal end; a side arm extending from the main tubular body, the side arm having a side arm lumen, the side arm lumen being in fluid communication with the main lumen through a side arm opening in the main tubular body; and a cannulation pocket. The pocket comprises: an exit aperture positioned opposite the side arm opening; an entry aperture longitudinally spaced from the entry aperture in a direction toward the distal end of the main tubular body; and a wall, the wall laterally spaced from the main lumen so as to provide a guide surface for a cannula fed through the entry aperture. | 01-08-2015 |
20150012081 | Apparatus and Methods for Repairing Aneurysms | 01-08-2015 |
20150018931 | STENT GRAFT ASSEMBLY AND METHOD - A graft device can include a graft component and an expandable component that has a longitudinal axis and a coupling portion. The coupling portion has a surface extending radially relative to the longitudinal axis. The graft component also has a portion that is coupled to the surface of the expandable component for securing the graft component relative to the expandable component. For example, the graft component portion can be frictionally engaged between the surface and a member positioned against the expandable component. | 01-15-2015 |
20150018932 | ILIAC STENT GRAFT - An iliac artery stent graft has a substantially inverted Y shape comprising a second arm terminating in a second end, and first and third arms terminating respectively in a first end and a third end. Each of the arms comprising a tubular graft of biocompatible graft material and the three arms joined being at a junction to allow fluid flow from the second arm into the first and third arms. In use the first end is deployed within the common iliac artery extending towards the external iliac artery, the second end is deployed within the common iliac artery extending towards the iliac bifurcation and the third end is within the common iliac artery and extends towards the internal iliac artery. Each of the three arms are mutually at an angle of approximately 120 degrees to each other. In use the first and second legs form a U shape to allow a deployment device to be smoothly deployed. | 01-15-2015 |
20150032199 | NON-THROMBOGENIC STENT JACKET - Disclosed is the use of serous tissue, such as pericardium, as a component of intracorporeal implants. Particularly, disclosed is a jacketed stent assembly comprising an expandable stent provided with a jacket of processed serous tissue which, in some embodiments, is impregnated with a therapeutic or diagnostic agent. In a preferred embodiment, the jacket of the expandable stent is formed of pericardial tissue, preferably bovine or porcine pericardial tissue. | 01-29-2015 |
20150045872 | LUMBAR OSTIA OCCLUSION DEVICES AND METHODS OF DEPLOYING THE SAME - A lumbar occluding device or patch is disclosed for reducing Type II endoleaks in connection with endovascular aneurysm repair (EVAR) of aortic aneurisms. The lumbar occluding patch can be applied to a vessel wall and, more particularly, the posterior wall of the aortic artery in the location of the abdominal aneurysm to block or occlude an array of lumbar artery ostia concurrent with or following a stent graft deployment in an EVAR procedure. | 02-12-2015 |
20150045873 | Articles Including Expanded Polytetrafluoroethylene Membranes with Serpentine Fibrils and Having a Discontinuous Fluoropolymer Layer Thereon - Articles comprising an expanded polytetrafluoroethylene membrane having serpentine fibrils and having a discontinuous coating of a fluoropolymer thereon are provided. The fluoropolymer may be located at least partially in the pores of the expanded fluoropolymer membrane. In exemplary embodiments, the fluoropolymer is fluorinated ethylene propylene. The application of a tensile force at least partially straightens the serpentine fibrils, thereby elongating the article. The expanded polytetrafluoroethylene membrane may include a microstructure of substantially only fibrils. The articles can be elongated to a predetermined point at which further elongation is inhibited by a dramatic increase in stiffness. In one embodiment, the articles are used to form a covered stent device that requires little force to distend in the radial direction to a first diameter but is highly resistant to further distension to a second diameter (stop point). A large increase in diameter can advantageously be achieved prior to reaching the stop point. | 02-12-2015 |
20150051692 | ASSEMBLY FOR TREATING BRANCHED VESSELS - This invention relates generally to an endoluminal prosthesis, and more particularly, to a stent graft assembly and method for treating branched vessels. The assembly comprises a first prosthesis having an overall shortened length comprising a main body formed of biocompatible graft material having a tapered proximal end. A bifurcated portion extends distally from the main body. The bifurcated portion comprises a first tubular portion defining a first lumen and a second tubular portion defining a second lumen. The assembly further comprises a second prosthesis having a tubular body of biocompatible graft material with a flared distal end portion. The flared distal end portion of the second prosthesis is configured to sealingly engage with the tapered main body of the first prosthesis. | 02-19-2015 |
20150051693 | Anti-migration Micropatterned Stent Coating - An endoprosthesis has an expanded state and a contracted state, the endoprosthesis includes a stent having an inner surface defining a lumen, having an outer surface, and defining a plurality of apertures through the outer surface, wherein the apertures are arranged in a micropattern; and a coating (e.g., polymeric coating) attached to the outer surface of the stent. The coating includes a base and a tissue engagement portion including a second surface facing outwardly from the stent, the tissue engagement portion including a structure that defines a plurality of holes extending inwardly from the second surface toward the base. The holes are arranged in a micropattern. When the endoprosthesis is expanded to the expanded state in a lumen defined by a vessel wall, the structure applies a force that may reduce stent migration by creating an interlock between the vessel wall and the endoprosthesis. | 02-19-2015 |
20150066133 | Intraluminal Prostheses Having Polymeric Material With Selectively Modified Crystallinity - Methods of manufacturing polymeric intraluminal prostheses include annealing the polymeric material to selectively modify the crystallinity thereof. Annealing may be utilized to selectively modify various properties of the polymeric material of an intraluminal prosthesis, including: selectively increasing the modulus of the polymeric material; selectively increasing the hoop strength of the intraluminal prosthesis; selectively modifying the elution rate (increase or decrease) of a pharmacological agent subsequently disposed on or within the annealed polymeric material; selectively increasing/decreasing stress in the intraluminal prosthesis; and selectively modifying the polymeric material such that it erodes at a different rate. | 03-05-2015 |
20150073529 | STENT WITH ANTI-MIGRATION CONNECTORS - An endoprosthesis, such as a stent, having anti-migration features. The endoprosthesis includes an expandable tubular framework including a plurality of strut rows and a plurality of connectors extending across interstices between adjacent strut rows and interconnecting adjacent strut rows. The strut rows have an outer diameter in an expanded state and the connectors extend radially outward beyond the outer diameter of the strut rows in the expanded state. The connectors are configured to engage a wall of a body lumen in the expanded state to inhibit migration of the endoprosthesis in the body lumen. The endoprosthesis may include a polymeric cover covering the strut rows and spanning the interstices between adjacent strut rows, while a space between the connectors and the strut rows to which the connectors are interconnected with is devoid of the polymeric cover to permit tissue ingrowth around the connectors. | 03-12-2015 |
20150081010 | Reinforced Vascular Prostheses - Vascular grafts for treating, reconstructing and replacing damaged or diseased cardiovascular vessels that are formed from decellularized extracellular matrix (ECM). The vascular grafts include structural reinforcement means, such as a strand of wound biodegradable polymeric material disposed proximate the outer surface of the graft. | 03-19-2015 |
20150088243 | STENTED VASCULAR GRAFT - A vascular graft incorporating a stent into a portion of its length. While various materials may be used for the vascular graft, the graft is preferably an ePTFE graft. The stent is preferably a self-expanding stent, although it may alternatively be a balloon expandable stent. The vascular graft preferably has a continuous inner tubular liner that extends between the opposing ends of the graft and provides a continuous luminal surface for blood contact that is uninterrupted by seams or joints. The length portion of the graft that does not include the stent has a greater wall thickness than does the portion including the stent. | 03-26-2015 |
20150094796 | Reinforced Vascular Prostheses - Vascular grafts for treating, reconstructing and replacing damaged or diseased cardiovascular vessels that are formed from decellularized extracellular matrix (ECM). The vascular grafts include outer or outer and inner coatings that provide structural reinforcement. | 04-02-2015 |
20150100114 | DEVICE FOR ENDOVASCULAR AORTIC REPAIR AND METHOD OF USING THE SAME - A device and method for endovascular repair of a patient's aorta is disclosed. The device includes a frame component that has a balloon-expandable frame and a self-expanding frame secured to the balloon-expandable frame. The device also includes a valve element positioned at the proximal end of the frame component. The device may include another prosthetic component that may be secured to the frame component. The prosthetic component may include at least one conduit configured to receive a covered stent. | 04-09-2015 |
20150105850 | VARIABLE DEPRESSION STENTS (VDS) AND BILLOWING GRAFT ASSEMBLIES - A stent assembly includes support rings each having interconnected circumferentially alternating inner prongs and outer prongs. The inner prongs define an inner diameter around a longitudinal axis. The outer prongs define an outer diameter greater than the inner diameter. A graft engages the support rings and follows a waving peripheral path. The graft may be a billowing graft. A second graft may surround the first graft such that tunnels are defined between the first graft and second graft. A method of making a stent assembly includes diametrically expanding the support rings onto a mandrel, engaging a graft with the support rings, and removing the support rings and graft from the mandrel permitting the stent assembly to contract to a neutral state. | 04-16-2015 |
20150105851 | MULTI-COMPONENT STENT-GRAFT SYSTEM FOR IMPLANTATION IN A BLOOD VESSEL WITH MULTIPLE BRANCHES - A multi-component stent-graft system includes a first stent-graft, and second, third, and fourth branching stent-grafts. The first stent-graft is shaped so as to define, when in a radially-expanded state, proximal and distal superior first lateral openings facing in a first radial direction, and a distal inferior first lateral opening facing a second radial direction generally opposite the first radial direction. The second, third, and fourth branching stent-grafts are configured assume radially-expanded states, wherein the first, the second, the third, and the fourth stent-grafts are configured such that the branching stent-grafts form respective blood-impervious seals with the first stent-graft around the distal inferior first lateral opening, the distal superior first lateral opening, and the proximal superior first lateral opening, respectively, when the branching stent-grafts are disposed therethrough, respectively, and the first, the second, the third, and the fourth stent-grafts are in their radially-expanded states. | 04-16-2015 |
20150112419 | Laminous Vascular Constructs Combining Cell Sheet Engineering And Electrospinning Technologies - Vascular scaffolds and methods of fabricating the same are disclosed for tissue engineering of vascular constructs. By combining electrospun matrices with cell sheet technologies, vascular constructs with more mature cell layers can be obtained for reconstruction of blood vessels, heart valves and the like. A engineered smooth muscle cell sheet, wrapped around an electrospun vascular scaffold, is able to provide a mature SMC layer that expresses strong cell-to-cell junction markers and contractile proteins. In addition, preconditioning of the cell sheet covered vascular scaffold maintained cell viability and infiltration into the scaffold. | 04-23-2015 |
20150112420 | FENESTRATED STENT GRAFTS - A stent graft ( | 04-23-2015 |
20150119970 | VALVED STENT, BASE MATERIAL FOR FORMING VALVED STENT, AND METHOD FOR PRODUCING VALVED STENT - The present invention provides a valved stent that can provide a valve function without blocking a branch blood vessel, and also can provide a valve function with minimum covering of blood vessel tissue in a stent indwelling section. Specifically, a cylindrical stent body | 04-30-2015 |
20150119971 | STENT-MESH ASSEMBLY AND METHODS - A method of affixing a stent jacket to a stent, comprising aligning the stent jacket coaxially with the stent, placing a portion of the stent within a portion of the stent jacket, wherein a central axis of the stent is aligned with a central axis of the stent jacket, and affixing the stent jacket to the stent with a plurality of stitches, wherein the plurality of stitches form a plurality of consecutive loops that pass through one or more holes in the stent jacket and through an outer surface of the stent. | 04-30-2015 |
20150127085 | ENDOVASCULAR DEVICES WITH AXIAL PERTURBATIONS - Endovascular devices are provided. The endovascular devices include a conformable scaffold with one or more outpocketings. The outpocketing in the endovascular device creates a corresponding outpocketing of a vessel wall, thereby altering local fluid dynamics. | 05-07-2015 |
20150127086 | STENT GRAFT - The stent graft ( | 05-07-2015 |
20150127087 | METHOD OF MANUFACTURING STENT ATTACHED TO ARTIFICIAL BLOOD VESSEL AND STENT ATTACHED TO ARTIFICIAL BLOOD VESSEL MANUFACTURED BY THE SAME - A stent may be inserted and placed in a lesion portion that is being stenosed or has been stenosed in a blood vessel or a lumen in the body to expand the lesion portion that is being stenosed or has been stenosed. Further, the stent and the artificial blood vessel layers are integrally formed with each other without floating between the stent and the artificial blood vessel layers. Accordingly, foods or other contents travelling through the pathway of a lumen in the body or blood in the vessel may be prevented from contacting the lesion portion, and the progress of the stenosis of the lesion portion may be prevented that may occur as the lesion portion grows toward the inside of the hollow cylindrical body of the stent. | 05-07-2015 |
20150134043 | SELF CONSTRAINING RADIALLY EXPANDABLE MEDICAL DEVICES - The current invention comprises tubes that can be constrained and expanded by either axial or torsional strain. By torsionally displacing the tube in a direction counter to the biased helices and angularly displacing the lower angle helix to an angle equal to, but opposite, the starting angle, the tube is expanded diametrically with no significant change in length after expansion of the tube. These tubes find utility in medical and non medical applications. | 05-14-2015 |
20150305852 | THORACIC AORTA STENT GRAFT WITH ACCESS REGION - A stent graft ( | 10-29-2015 |
20150320542 | COMPOSITE LUMEN WITH REINFORCING TEXTILE AND MATRIX - A composite hollow lumen and a method for producing the lumen are provided. The lumen includes a tubular textile formed of yarns having a first tensile strength and a matrix material in which the tubular textile is embedded to form a conduit having a bore and a sidewall substantially impermeable to liquid. The matrix material has a second tensile strength that is lower than the first tensile strength. The method for producing a composite lumen includes selecting yarns having a first tensile strength, selecting an elastomeric matrix material having a second tensile strength that is lower that the first tensile strength, forming a tubular textile of the yarns, and embedding the tubular textile in the matrix material to form a conduit having a bore and conduit walls that are substantially impermeable to liquid. The elastomeric matrix material is a biodegradable or bioresorbable polyester. | 11-12-2015 |
20150328025 | COMPLIANT IMPLANTABLE MEDICAL DEVICES AND METHODS OF MAKING SAME - Implantable medical grafts fabricated of metallic or pseudometallic films of biocompatible materials having a plurality of microperforations passing through the film in a pattern that imparts fabric-like qualities to the graft or permits the geometric deformation of the graft. The implantable graft is preferably fabricated by vacuum deposition of metallic and/or pseudometallic materials into either single or multi-layered structures with the plurality of microperforations either being formed during deposition or after deposition by selective removal of sections of the deposited film. The implantable medical grafts are suitable for use as endoluminal or surgical grafts and may be used as vascular grafts, stent-grafts, skin grafts, shunts, bone grafts, surgical patches, non-vascular conduits, valvular leaflets, filters, occlusion membranes, artificial sphincters, tendons and ligaments. | 11-19-2015 |
20150328026 | DEVICE AND METHOD FOR INCREASING FLOW THROUGH THE LEFT ATRIAL APPENDAGE - Methods and devices for increasing flow in the left atrial appendage (LAA) include a conduit directing blood flow from a pulmonary artery into the LAA and/or a conduit drawing blood from the LAA by a Bernoulli effect. In one embodiment, a method comprises implanting a conduit in a pulmonary vein, expanding an inlet portion such that the conduit becomes anchored within the vein and directs blood through an outlet portion of the conduit into or toward the left atrial appendage. | 11-19-2015 |
20150335290 | STENT GRAFT MONITORING ASSEMBLY AND METHOD OF USE THEREOF - Assemblies are provided for positioning within a lumen comprising a stent graft; and a sensor positioned on the stent graft. Within certain aspects the sensors are wireless sensors, and include for example one or more fluid pressure sensors, contact sensors, position sensors, pulse pressure sensors, blood volume sensors, blood flow sensors, chemistry sensors (e.g., for blood and/or other fluids), metabolic sensors (e.g., for blood and/or other fluids), mechanical stress sensors and/or temperature sensors. | 11-26-2015 |
20150366653 | SUTURE TO BE USED IN PRODUCING MEDICAL INSTRUMENT PROVIDED WITH SUTURED PART, METHOD FOR USING SAME AND MEDICAL INSTRUMENT SEWN USING SAME - A suture to be used in producing a medical instrument provided with a sutured site such as a stent graft, an artificial blood vessel or an artificial heart valve, namely, a suture for sewing a medical instrument. The suture comprises two components, i.e., a high melting-point component and a low-melting point component, the difference between the melting points of components being 30° C. or more and the low-melting point component is exposed on the suture surface entirely along the length direction. The suture is, for example, a multifilament yarn comprising a combination of a high melting-point filament ( | 12-24-2015 |
20150366686 | APPARATUS AND METHODS FOR BIDIRECTIONAL HYPERELASTIC STENT COVERS - An apparatus and method for a micro-patterned thin film Nitinol (TFN) that is used as a cover for an expandable stent structure, and has elongation/expansion properties that are configured to match the elongation/expansion properties of the expandable stent structure is presented. | 12-24-2015 |
20150374485 | TARGETED PERFORATIONS IN ENDOVASCULAR DEVICE - Various embodiments for an endovascular device (and variations thereof) that prevents focalized edge (or end) restenosis. In particular, these improvements would mitigate or prevent focalized restenosis at the ends of the device. The designed-in restenotic regions would be circumferentially and axially distributed so that graft patency is not compromised. | 12-31-2015 |
20150374487 | BRANCHED VESSEL ENDOLUMINAL DEVICE - An endoluminal prosthesis comprises a prosthetic trunk having a trunk lumen and a trunk wall, a first prosthetic branch having a first branch lumen and a branch wall, and a second prosthetic branch having a second branch lumen. The first branch lumen and the second branch lumen are both in fluid communication with the trunk lumen through the trunk wall and the second branch lumen is in fluid communication with the first branch lumen through the branch wall. Additional devices, systems, and methods are disclosed. | 12-31-2015 |
20150374517 | ENDOPROSTHESIS ANCHORING AND SEALING - Described are various embodiments of an improved endoprosthesis that includes a generally cylindrical graft portion that extends along a longitudinal axis to define a flow passage and a plurality of stent hoops. The plurality of stent hoops are connected to the graft portion and disposed in a spaced apart relationship along the longitudinal axis. There is at least a first suture disposed along on the outer surface of the main body. The first suture connects at least two of the spaced apart stent hoops together. The first suture also includes unidirectional barbs (or multidirectional barbs) configured to reduce movement of the main body with respect to a direction of blood flow in an artery. | 12-31-2015 |
20160015536 | BRANCHED STENT GRAFT, DELIVERY SYSTEM COMPRISING SAME AND METHOD OF FABRICATING SAME - A branched stent graft, a convey system comprising thereof and manufacturing method thereof, the branched stent graft includes a main body ( | 01-21-2016 |
20160022407 | Prosthetic Vascular Conduits for Cardiovascular Structures - Vascular grafts for reconstructing and/or replacing damaged or diseased cardiovascular vessels that are formed from decellularized fetal small intestine. In some aspects, the vascular grafts include structural reinforcement means, such as a biodegradable polymeric braided structure, disposed proximate the outer surface | 01-28-2016 |
20160022410 | ADVANCED ENDOVASCULAR GRAFT - This invention is a system for the treatment of body passageways; in particular, vessels with vascular disease. The system includes an endovascular graft with a low-profile delivery configuration and a deployed configuration in which it conforms to the morphology of the vessel or body passageway to be treated as well as various connector members and stents. The graft is made from an inflatable graft body section and may be bifurcated. One or more inflatable cuffs may be disposed at either end of the graft body section. At least one inflatable channel is disposed between and in fluid communication with the inflatable cuffs. | 01-28-2016 |
20160022412 | LOW PROFILE NON-SYMMETRICAL STENT - A stent for use in a medical procedure having opposing sets of curved apices, where the curved section of one set of apices has a radius of curvature that is greater than the curved section of the other set of apices. One or more such stents may be attached to a graft material for use in endovascular treatment of, for example, aneurysm, thoracic dissection, or other body vessel condition. | 01-28-2016 |
20160022413 | LOCKING MECHANISM FOR SECURING THE INTERFACE BETWEEN STENT GRAFTS - A modular stent graft system and methods of assembly are disclosed. The stent graft assembly comprises a first stent graft having an interface region at its distal end and a first locking stent secured to an internal surface of the interface region. A second stent graft having an interface region at its proximal end is configured to at least partially overlap with the interface region at the distal end of the first stent graft. The second stent graft comprises a second locking stent secured to an external surface of the interface region. The first and second locking stents are configured to be engaged such that the second locking stent is nested between the first locking stent and an internal surface of the interface region of the first stent graft thereby interlocking the first and second stent grafts to each other. | 01-28-2016 |
20160030155 | Aneurysm Graft With Stabilization - The present invention provides methods and apparatus for the endoluminal positioning of an intraluminal prosthesis at a target location within a body lumen. The device may comprise a porous, multi-layer prosthesis that can include stabilization members for stabilizing the placement of the device at the site. Various components can have different densities or pore sizes. | 02-04-2016 |
20160045303 | METHODS AND APPARATUS FOR TREATING A TYPE 2 ENDOLEAK FROM WITHIN AN ENDOLUMINAL STENT GRAFT - A repair device includes a first elongate member, a second elongate member, and a seal member. The first elongate member includes a proximal end portion and a distal end portion and defines a lumen therebetween. The second elongate member includes a proximal end portion and a distal end portion and is movably disposed within the lumen. The distal end portion of the second elongate member is configured to puncture an endoluminal stent graft disposed within an artery of a patient and to be inserted, at least partially, into an aneurysm sac. The seal member is releasably coupled to the distal end portion of the first elongate member. The seal member is configured to be coupled to the endoluminal stent graft to seal an opening formed by the distal end portion of the second elongate member. | 02-18-2016 |
20160045304 | EXTERNAL SUPPORT FOR ELONGATED BODILY VESSELS - External support implant for unbound covering of a blood vessel graft in a peripheral vascular bypass system. The implant includes: elongate body having a longitudinal axis, and interior collapsible upon exterior of the blood vessel graft. Elongate body includes tubular fabric having intertwined coiled compression springs configured for elastically resisting longitudinal compression of the elongate body from a relaxed length, when compression springs are slightly stressed, and for elastically increasing diameter of the elongate body when compression springs are subjected to the longitudinal compression. | 02-18-2016 |
20160058546 | PERCUTANEOUS ENDOVASCULAR APPARATUS FOR REPAIR OF ANEURYSMS AND ARTERIAL BLOCKAGES - An endovascular apparatus is provided for treating the effects of vascular disease including aneurysms and arterial blockages using a percutaneous, minimally invasive technique. In one embodiment the endovascular apparatus includes a tubular sleeve having a cranial end, a first caudal branch, and a second caudal branch such that the tubular sleeve is shaped like an upside down “Y.” The apparatus further includes at least one expandable attachment device attached to the tubular sleeve for securing the endovascular apparatus to an interior wall of a vessel. The at least one expandable attachment device includes a plurality of telescoping segments similar to the telescoping segments of a presentation pointer. Accordingly, during percutaneous insertion of the endovascular apparatus into a patient the attachment device can be collapsed into a small profile. Once positioned at the site of the aneurysm the telescoping attachment device can be expanded to hold the endovascular apparatus in place adjacent the inner lumen wall. | 03-03-2016 |
20160058547 | PERCUTANEOUS ENDOVASCULAR APPARATUS FOR REPAIR OF ANEURYSMS AND ARTERIAL BLOCKAGES - An endovascular apparatus is provided for treating the effects of vascular disease including aneurysms and arterial blockages using a percutaneous, minimally invasive technique. In one embodiment the endovascular apparatus includes a tubular sleeve having a cranial end, a first caudal branch, and a second caudal branch such that the tubular sleeve is shaped like an upside down “Y.” The apparatus further includes at least one expandable attachment device attached to the tubular sleeve for securing the endovascular apparatus to an interior wall of a vessel. The at least one expandable attachment device includes a plurality of telescoping segments similar to the telescoping segments of a presentation pointer. Accordingly, during percutaneous insertion of the endovascular apparatus into a patient the attachment device can be collapsed into a small profile. Once positioned at the site of the aneurysm the telescoping attachment device can be expanded to hold the endovascular apparatus in place adjacent the inner lumen wall. | 03-03-2016 |
20160058587 | PERCUTANEOUS ENDOVASCULAR APPARATUS FOR REPAIR OF ANEURYSMS AND ARTERIAL BLOCKAGES - An endovascular apparatus is provided for treating the effects of vascular disease including aneurysms and arterial blockages using a percutaneous, minimally invasive technique. In one embodiment the endovascular apparatus includes a tubular sleeve having a cranial end, a first caudal branch, and a second caudal branch such that the tubular sleeve is shaped like an upside down “Y.” The apparatus further includes at least one expandable attachment device attached to the tubular sleeve for securing the endovascular apparatus to an interior wall of a vessel. The at least one expandable attachment device includes a plurality of telescoping segments similar to the telescoping segments of a presentation pointer. Accordingly, during percutaneous insertion of the endovascular apparatus into a patient the attachment device can be collapsed into a small profile. Once positioned at the site of the aneurysm the telescoping attachment device can be expanded to hold the endovascular apparatus in place adjacent the inner lumen wall. | 03-03-2016 |
20160067033 | STENT GRAFT HAVING MOVABLE FENESTRATED TUBULAR BRIDGE - A stent graft comprising an elongate main tubular body of a biocompatible graft material is disclosed. The main tubular body comprises a main lumen, a distal end and a proximal end; and an elongate tubular bridge of a biocompatible graft material. The elongate tubular bridge extends around a portion of the main tubular body so as to form a bridging lumen bridging between two circumferentially spaced-apart openings within the main tubular body. The tubular bridge has at least two fenestrations. The tubular bridge comprises concertinaed graft material. | 03-10-2016 |
20160067064 | LOW PROFILE STENT AND DELIVERY SYSTEM - A tubular prosthetic device for implantation into a body lumen includes a first part including a tubular lumen and a second part including an attachment member. The second part is secured to the first part via various configurations, where the device is capable of being reduced to a diameter less than the diameter of traditional devices, for ease of use during implantation. Methods of using the device are also provided. | 03-10-2016 |
20160081788 | VASCULAR GRAFTS WITH MULTIPLE CHANNELS AND METHODS FOR MAKING - A wall, for example the wall of a vascular graft, has multiple channels within it. The channels may be used to hold drugs or reinforcing fibers. The channels may have a predetermined roughness. The channels may be formed by coextrusion using a soluble material, for example, to define the channels and then dissolving them to open the channels in the extrudate. | 03-24-2016 |
20160089230 | SIDE BRANCH STENT GRAFT - A joining arrangement between a main tube ( | 03-31-2016 |
20160113658 | EMBOLIZATION DEVICE AND A METHOD OF USING THE SAME - Non-expandable space-occupying devices for treating voids within the body are disclosed. The devices can have multiple non-expandable space-occupying elements connected to a flexible leader. Methods of making and using the devices are also disclosed. | 04-28-2016 |
20160135944 | BODY LUMEN GRAFT BASE, PRODUCTION METHOD OF BODY LUMEN GRAFT BASE, AND BODY LUMEN GRAFT USING THE SAME - The present invention provides a body lumen graft base that is a thin film, has adequate flexibility and low permeability, and can be inserted in a catheter with a small diameter. The body lumen graft base of the present invention is obtained by subjecting at least one surface of a woven fabric comprising a fiber having a total fineness of 1 to 80 decitex and a single fiber fineness of less than 0.1 decitex to press treatment using a calender machine. | 05-19-2016 |
20160143756 | ENDOVASCULAR MEDICAL DEVICE - An endovascular medical device that, when inserted into a vessel having one or more dilations and one or more narrowings in close proximity, redefines the vessel opening (lumen) along the longitudinal axis of the device, separates that lumen from the excess dilated volume within the dilation, and props open the lumen within the narrowing. The device is constructed in a manner to alter the hemodynamics at the interface between the redefined lumen and excess dilated volume, to facilitate the healing process within the dilated vessel. The device is constructed in a manner to provide sufficient radial force to open a narrowed portion of the vessel, to facilitate flow through the vessel. The device is constructed substantially from bioresorbable materials so as to eventually allow for the return of normal vasomechanics and cyclic wall stresses. | 05-26-2016 |
20160157991 | SHAPE MEMORY TUBULAR STENT WITH GROOVES - An implantable, radially distensible stent includes a tubular structure having opposed open ends. The wall of the stent is made from a shape memory polymeric material. Grooves may be disposed within an outer surface of stent wall to improve flexibility and drainage of the stent. | 06-09-2016 |
20160175087 | DIFFERENTIAL DILATION STENT AND METHOD OF USE | 06-23-2016 |
20160184077 | Circular Sectional Inserts For Insertion with a Trunk Section in Endoprosthesis for Aortic Aneurysm - Described are various embodiments of an improved endoprosthesis that includes at least one tubular graft section coupled to additional tubular graft sections which are then coupled to a tubular bifurcated main section. Various embodiments described and shown herein allow for a health care provider to design and select an appropriate AAA implant for AAA presentations other than an infrarenal AAA. The implants can also be utilized for other arterial aneurysms. | 06-30-2016 |
20160184078 | Sectional Inserts for Trunk Section in Endoprosthesis for Aortic Aneurysm - Described are various embodiments of an improved endoprosthesis that includes at least one tubular graft section coupled to additional tubular graft sections which are then coupled to a tubular bifurcated main section. Various embodiments described and shown herein allow for a health care provider to design and select an appropriate AAA implant for AAA presentations other than an infrarenal AAA. The endoprosthesis can also be utilized in other aortic aneurysm. | 06-30-2016 |
20160184079 | GRAFT WITH EXPANDABLE REGION AND METHODS OF MAKING AND USING THE SAME - A vascular graft suitable for implantation, and more particular to a vascular graft having an expandable outflow region for restoring patency of the graft after implantation into a body lumen. | 06-30-2016 |
20160184080 | MEDICAL DEVICES AND METHODS OF MAKING - An endoluminal prosthesis for placement within a body vessel may include a tubular support structure including a proximal end segment, a distal end segment, an intermediate segment positioned between the proximal end segment and the distal end segment, a lumen extending longitudinally within the support structure, a luminal surface, and an abluminal surface opposite the luminal surface. The prosthesis may include a first layer of nonwoven electrospun fibers positioned on the luminal surface of the support structure. The prosthesis may include a second layer of nonwoven electrospun fibers positioned on the abluminal surface of the support structure. At least one of the proximal end segment or the distal end segment of the support structure may be encapsulated within a covering including the first layer of nonwoven electrospun fibers and the second layer of nonwoven electrospun fibers. The intermediate segment of the support structure may be unencapsulated within the covering. | 06-30-2016 |
20160184081 | PROSTHESIS HAVING PIVOTING FENESTRATION - The present disclosure relates to an endoluminal prosthesis, such as a stent graft that includes one or more fenestrations to accommodate endovascular disease, such as an aneurysm in cases where one or more side branches is involved. In one aspect, the prosthesis includes fenestrations that are pivotable to accommodate the dynamic geometry of the aortic branches. | 06-30-2016 |
20160193031 | ENDOPROSTHESIS ASSEMBLIES AND METHODS TO USE THE SAME | 07-07-2016 |
20160250382 | RESORBABLE, AMINO ACID-BASED POLY(ESTER UREA)S SCAFFOLD FOR VASCULAR GRAFT TISSUE ENGINEERING | 09-01-2016 |
20170231749 | STENT GRAFT WITH EXTERNAL SCAFFOLDING AND METHOD | 08-17-2017 |
20170231750 | ALIGNMENT SYSTEM FOR MULTIPLE BRANCH ENDOGRAFTS | 08-17-2017 |
20170231751 | MODULAR STENTGRAFT SYSTEM | 08-17-2017 |
20180021130 | TREATMENT OF TRICUSPID INSUFFICIENCY | 01-25-2018 |