| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 623100220 | Helically wound | 77 |
| 20080221664 | Tapered helical stent and method for manufacturing the stent - A tapered helical implantation device for peripheral arteries and other body lumina of locally varying diameter, including struts connected by loops and shaped in a helical winding. The helical winding defines turns and, when expanded, has a first end with a first expanded circumference and a second end with a second expanded circumference greater than the first expanded circumference to form a stent tapering outward from the first end towards the second end. Bridges connect adjacent ones of the turns. The struts, the loops, and the bridges define a series of pores aligned along the helix, the pores having a substantially uniform pore size. The pores has a substantially similar area. The pore size limits a size of a particle that can pass therethrough. In particular, the pore size limits a size of a spherical particle that can pass therethrough. | 09-11-2008 |
| 20080221665 | Vascular prosthesis and methods of use - An implantable vascular prosthesis is provided for use in a wide range of applications wherein at least first and second helical sections having alternating directions of rotation are coupled to one another. The prosthesis is configured to conform to a vessel wall without substantially remodeling the vessel, and permits accurate deployment in a vessel without shifting or foreshortening. | 09-11-2008 |
| 20080221666 | STENT SYSTEMS - Medical devices and methods for delivery or implantation of prostheses within hollow body organs and vessels or other luminal anatomy are disclosed. The subject technologies can be used in the treatment of atherosclerosis in stenting procedures or be used in variety of other procedures. The systems can employ a self expanding stent restrained by one or more members released by an electrolytically erodable latch. | 09-11-2008 |
| 20080221667 | Spiral stent assembly - A stent assembly includes a spiral shaped elongate member having a first end and a second end. The elongate member includes a plurality of loops spaced apart from each other. A first contact is attached to and near the first end of the elongate member, and a second contact is attached to and near the second end of the elongate member. The first and second contacts are coupled to a power generator, thereby allowing for a current to be passed from the first contact to the second contact. | 09-11-2008 |
| 20080281406 | STENT HAVING HELICAL ELEMENTS - An expandable stent comprised of a plurality of helical segments is disclosed. In one embodiment, the stent is generally cylindrical in shape having a cylindrical axis, and comprises a first and second set of helical segments. The helical segments in the first set are substantially parallel and have a first pitch forming a first helical angle with respect to the cylindrical axis. The helical segments in the second set are also generally parallel to each other and form a second pitch that differs from the first pitch, thereby forming a second helical angle with respect to the cylindrical axis. In an alternative embodiment, the stent comprises one set of helical segments and a plurality of circumferential elements that are joined together by the helical segments to form a plurality of cylindrical elements which are joined together to form a stent body. The stent may also have endzones. | 11-13-2008 |
| 20080281407 | STENT HAVING HELICAL ELEMENTS - An expandable stent comprised of a plurality of helical segments is disclosed. In one embodiment, the stent is generally cylindrical in shape having a cylindrical axis, and comprises a first and second set of helical segments. The helical segments in the first set are substantially parallel and have a first pitch forming a first helical angle with respect to the cylindrical axis. The helical segments in the second set are also generally parallel to each other and form a second pitch that differs from the first pitch, thereby forming a second helical angle with respect to the cylindrical axis. In an alternative embodiment, the stent comprises one set of helical segments and a plurality of circumferential elements that are joined together by the helical segments to form a plurality of cylindrical elements which are joined together to form a stent body. The stent may also have endzones. | 11-13-2008 |
| 20080288050 | STENT HAVING HELICAL ELEMENTS - An expandable stent comprised of a plurality of helical segments is disclosed. In one embodiment, the stent is generally cylindrical in shape having a cylindrical axis, and comprises a first and second set of helical segments. The helical segments in the first set are substantially parallel and have a first pitch forming a first helical angle with respect to the cylindrical axis. The helical segments in the second set are also generally parallel to each other and form a second pitch that differs from the first pitch, thereby forming a second helical angle with respect to the cylindrical axis. In an alternative embodiment, the stent comprises one set of helical segments and a plurality of circumferential elements that are joined together by the helical segments to form a plurality of cylindrical elements which are joined together to form a stent body. The stent may also have endzones. | 11-20-2008 |
| 20080288051 | STENT HAVING HELICAL ELEMENTS - An expandable stent comprised of a plurality of helical segments is disclosed. In one embodiment, the stent is generally cylindrical in shape having a cylindrical axis, and comprises a first and second set of helical segments. The helical segments in the first set are substantially parallel and have a first pitch forming a first helical angle with respect to the cylindrical axis. The helical segments in the second set are also generally parallel to each other and form a second pitch that differs from the first pitch, thereby forming a second helical angle with respect to the cylindrical axis. In an alternative embodiment, the stent comprises one set of helical segments and a plurality of circumferential elements that are joined together by the helical segments to form a plurality of cylindrical elements which are joined together to form a stent body. The stent may also have endzones. | 11-20-2008 |
| 20080288052 | STENT HAVING HELICAL ELEMENTS - An expandable stent comprised of a plurality of helical segments is disclosed. In one embodiment, the stent is generally cylindrical in shape having a cylindrical axis, and comprises a first and second set of helical segments. The helical segments in the first set are substantially parallel and have a first pitch forming a first helical angle with respect to the cylindrical axis. The helical segments in the second set are also generally parallel to each other and form a second pitch that differs from the first pitch, thereby forming a second helical angle with respect to the cylindrical axis. In an alternative embodiment, the stent comprises one set of helical segments and a plurality of circumferential elements that are joined together by the helical segments to form a plurality of cylindrical elements which are joined together to form a stent body. The stent may also have endzones. | 11-20-2008 |
| 20080288053 | STENT HAVING HELICAL ELEMENTS - An expandable stent comprised of a plurality of helical segments is disclosed. In one embodiment, the stent is generally cylindrical in shape having a cylindrical axis, and comprises a first and second set of helical segments. The helical segments in the first set are substantially parallel and have a first pitch forming a first helical angle with respect to the cylindrical axis. The helical segments in the second set are also generally parallel to each other and form a second pitch that differs from the first pitch, thereby forming a second helical angle with respect to the cylindrical axis. In an alternative embodiment, the stent comprises one set of helical segments and a plurality of circumferential elements that are joined together by the helical segments to form a plurality of cylindrical elements which are joined together to form a stent body. The stent may also have endzones. | 11-20-2008 |
| 20080288054 | Stent - A stent shaped as a three-dimensional body which is formed by interlaced threads ( | 11-20-2008 |
| 20080294243 | STENT HAVING HELICAL ELEMENTS - An expandable stent comprised of a plurality of helical segments is disclosed. In one embodiment, the stent is generally cylindrical in shape having a cylindrical axis, and comprises a first and second set of helical segments. The helical segments in the first set are substantially parallel and have a first pitch forming a first helical angle with respect to the cylindrical axis. The helical segments in the second set are also generally parallel to each other and form a second pitch that differs from the first pitch, thereby forming a second helical angle with respect to the cylindrical axis. In an alternative embodiment, the stent comprises one set of helical segments and a plurality of circumferential elements that are joined together by the helical segments to form a plurality of cylindrical elements which are joined together to form a stent body. The stent may also have endzones. | 11-27-2008 |
| 20080294244 | STENT HAVING HELICAL ELEMENTS - An expandable stent comprised of a plurality of helical segments is disclosed. In one embodiment, the stent is generally cylindrical in shape having a cylindrical axis, and comprises a first and second set of helical segments. The helical segments in the first set are substantially parallel and have a first pitch forming a first helical angle with respect to the cylindrical axis. The helical segments in the second set are also generally parallel to each other and form a second pitch that differs from the first pitch, thereby forming a second helical angle with respect to the cylindrical axis. In an alternative embodiment, the stent comprises one set of helical segments and a plurality of circumferential elements that are joined together by the helical segments to form a plurality of cylindrical elements which are joined together to form a stent body. The stent may also have endzones. | 11-27-2008 |
| 20080312734 | Stent - A stent shaped as a three-dimensional body which is formed by interlaced threads ( | 12-18-2008 |
| 20080319532 | Medical Implant - The invention relates to a medical implant (1′) in the form of an elongated helix wherein at least one part of the helix is preformed in such a manner that it has a secondary structure of identically sized loops which it assumes during implantation at the placement site, with said structure in turn forming at the placement site during implantation a polyhedral tertiary structure, and the polyhedron being provided with at least one additional loop. | 12-25-2008 |
| 20080319533 | ANEURYSM OCCLUSION ASSIST DEVICE - Embodiments of the invention described herein include an aneurysm occlusion assist device comprising a main body effective for providing support to a blood vessel, defining an open volume sized to permit substantially unimpeded blood flow when the main body is implanted in a bifurcated aneurysm. | 12-25-2008 |
| 20080319534 | Stent With Improved Mechanical Properties - A stent includes a central portion having a first waveform. The first waveform is wrapped around a longitudinal axis of the stent at a pitch to define a plurality of helical turns. The stent also includes an end segment connected to one end of the central portion. The end segment has a second waveform that includes a plurality of struts and a plurality of crowns. Each of the plurality of struts has a different length so that peaks of the crowns that define an end of the stent lie within a plane that is substantially perpendicular to the longitudinal axis. Cross-sectional areas of the struts having different lengths vary so that the struts move substantially uniformly during radial contraction and/or radial expansion of the stent. | 12-25-2008 |
| 20080319535 | Vascular Stent and Method of Making Vascular Stent - A stent and method of forming a stent include a wire bent into a waveform spirally wrapped into a hollow cylindrical shape. The waveform includes a first end portion, a middle portion, and a second end portion. The middle portion of the waveform includes a first amplitude and a first period. The first end portion of the waveform includes a first plurality of amplitudes and a first plurality of periods, wherein the first plurality of amplitudes decrease from adjacent the middle portion to a first end of the wire and first plurality of frequencies increase from adjacent the middle portion to the first end of the wire. The waveform may also include a second end portion with a second plurality of amplitudes and a second plurality of periods, wherein the second plurality of amplitudes decrease from adjacent the middle portion to a second end of the wire and the second plurality of frequencies increase from adjacent the middle portion to the second end of the wire. | 12-25-2008 |
| 20080319536 | Method for introducing an internal helical formation into a flexible tubular material - There is disclosed a method for introducing a helical formation ( | 12-25-2008 |
| 20080319537 | STENT HAVING HELICAL ELEMENTS - An expandable stent comprised of a plurality of helical segments is disclosed. In one embodiment, the stent is generally cylindrical in shape having a cylindrical axis, and comprises a first and second set of helical segments. The helical segments in the first set are substantially parallel and have a first pitch forming a first helical angle with respect to the cylindrical axis. The helical segments in the second set are also generally parallel to each other and form a second pitch that differs from the first pitch, thereby forming a second helical angle with respect to the cylindrical axis. In an alternative embodiment, the stent comprises one set of helical segments and a plurality of circumferential elements that are joined together by the helical segments to form a plurality of cylindrical elements which are joined together to form a stent body. The stent may also have endzones. | 12-25-2008 |
| 20090024207 | Stent Having Helical Elements - An expandable stent comprised of a plurality of helical segments is disclosed. In one embodiment, the stent is generally cylindrical in shape having a cylindrical axis, and the comprises at least two a first and second set of helical segments. The helical segments in the first set are substantially parallel and have a first pitch forming a first helical angle with respect to the cylindrical axis. The helical segments in the second set are also generally parallel to each other and form a second pitch that differs from the first pitch, thereby forming a second helical angle with respect to the cylindrical axis. In an alternative embodiment, the stent comprises one set of helical segments and a plurality of circumferential elements that are joined together by the helical segments to form a plurality of cylindrical elements which are joined together to form a stent body. The stent may also have endzones. | 01-22-2009 |
| 20090036976 | FLEXIBLE STENT - The stent of the present invention combines a helical strut band interconnected by coil elements. This structure provides a combination of attributes that are desirable in a stent, such as, for example, substantial flexibility, stability in supporting a vessel lumen, cell size and radial strength. The structure of the stent of the present invention provides a predetermined geometric relationship between the helical strut band and interconnected coil elements in order to maintain connectivity at any diameter size state of the stent. | 02-05-2009 |
| 20090076593 | EXPANDABLE DEVICE FOR TREATMENT OF A STRICTURE IN A BODY VESSEL - An expandable and retrievable device for treatment of a stenotic lesion in a body vessel is disclosed. The device comprises a tubular portion including a proximal end and a distal end extending from the proximal end. The tubular portion has a lumen formed therethrough between the proximal and distal ends. The device further comprises an expandable member formed helically about the tubular portion. The expandable member is configured to helically close, defining a collapsed state for delivery of the device. The expandable member is configured to helically open, defining an expanded state for treatment of the stenotic lesion in the body vessel. The expandable member has at least one filter portion that helically extends from the tubular portion at a predetermined angle. This defines a proximally faced opening when the expandable member is in the expanded state. | 03-19-2009 |
| 20090082850 | REINFORCED VASCULAR PROSTHESIS WITH LONG-TERM ANTIMICROBIAL ACTION - A vascular prosthesis includes a prosthesis wall whose outer surface has at least one reinforcing means, the surface of the prosthesis wall and the surface of the at least one reinforcer being coated, at least in part, with an antimicrobial layer. | 03-26-2009 |
| 20090177268 | RADIOPAQUE SUPER-ELASTIC INTRAVASCULAR STENT - The intravascular stent is formed from a composite wire includes an inner core of radiopaque metal, a polymer layer coaxially disposed about the inner core, and an outer metal layer coaxially disposed about the polymer layer. The intermediary polymer layer acts as a barrier material between the inner core and the outer sheath, so that the inner core and outer sheath may be made of dissimilar metallic layers, and the intermediary polymer layer will prevent a galvanic reaction between the inner core and the peripheral metal layer. The intravascular stent has ends flared radially outwardly to prevent radially and longitudinally inward deformation of the ends of the stent when the stent is disposed in a desired location in a patient's vasculature. | 07-09-2009 |
| 20090259294 | REMOVABLE STENT-GRAFT - A removable device such as a stent-graft, intended for applications where it may be desirable to remove the device at some time following implantation. The stent-graft of the present invention includes a helically-wound stent component provided with a covering of graft material. It is removable by gripping an end of the helically-wound stent component with a retrieval device and applying tension to the stent component in the direction in which it is intended to be withdrawn from the site of implantation. 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 “unraveled” (or “unwound”) and removed through a catheter of diameter adequately small to be inserted into the body cavity that contained the stent-graft. It is removed atraumatically, without incurring significant trauma to the body conduit in which it had been deployed. | 10-15-2009 |
| 20090264986 | HELICAL STENT HAVING IMPROVED FLEXIBILITY AND EXPANDABILITY - A stent includes a central portion of helically wound undulations formed of struts, cylindrical end portions, and transition zones between the helical portion and the cylindrical 5 portions. According to a first aspect of the invention, the torsional flexibility of the stent is maximized by having bridges connecting adjacent winding be interrupted by the maximum possible number of undulations. In a preferred design, each winding includes nineteen undulations around the circumference, bridges are provided every five undulations. According to a second aspect of the invention, uniform, opening of the transition zone is achieved by altering 10 the width, and thereby the flexibility, of a series of struts in accordance with their lengths. Specifically, the long transition zone struts are made wider. | 10-22-2009 |
| 20090287297 | Aneurysm Treatment Device And Method Of Use - The present invention is directed to aneurysm treatment devices which are capable of being delivered to the situs of a vascular aneurysm through a catheter. The treatment devices comprise, in general, a body member formed by at least one support member and a reactive material selectively applied to the at least one support member. The body member provide support mechanical support to a weakened or otherwise incompetent blood vessel. The reactive material is capable of restricting or occluding blood flow to the aneurysm, without substantially affecting blood flow through the blood vessel. | 11-19-2009 |
| 20100070024 | Endoluminal Prosthesis - The present invention regards an endoluminal prosthesis ( | 03-18-2010 |
| 20100131048 | EXPANDABLE SLIDE AND LOCK STENT - An expandable slide and lock stent is provided that comprises a plurality of radial elements interconnected to form a tubular member. Each radial element can comprise a helical backbone and at least one elongate member extending from the helical backbone in a circumferential direction. Each backbone can have at least one slot that can be configured to receive an elongate member of an adjacent radial element. | 05-27-2010 |
| 20100152837 | RADIOPAQUE SUPER-ELASTIC INTRAVASCULAR STENT - The intravascular stent is formed from a composite wire includes an inner core of radiopaque metal, a polymer layer coaxially disposed about the inner core, and an outer metal layer coaxially disposed about the polymer layer. The intermediary polymer layer acts as a barrier material between the inner core and the outer sheath, so that the inner core and outer sheath may be made of dissimilar metallic layers, and the intermediary polymer layer will prevent a galvanic reaction between the inner core and the peripheral metal layer. The intravascular stent has ends flared radially outwardly to prevent radially and longitudinally inward deformation of the ends of the stent when the stent is disposed in a desired location in a patient's vasculature. | 06-17-2010 |
| 20100161035 | ENDOVASCULAR PROSTHESIS AND RELATING MANUFACTURING PROCEDURE - An endovascular prosthesis is described, in the shape of a cylindrical spiral, and comprising: one or more multiple elements each of which with a sinusoidal shape composed of first sections with a substantially rectilinear development (peaks), defining corresponding levels, and being connected to one another through second sections with a substantially rectilinear development (connection segments); the peaks ( | 06-24-2010 |
| 20100198337 | Helical Formation for a Conduit - A helical formation within a conduit and a method of determining the helix angle of the helical formation are disclosed. The method includes specifying the internal dimensions of the conduit and an intended fluid mass flow through the conduit. The helix angle is determined from the pressure drop and the turbulent kinetic energy for a conduit having the specified internal dimensions and intended fluid mass flow. | 08-05-2010 |
| 20100274350 | HELICAL HYBRID STENT - An expandable helical stent is provided, wherein the stent may be formed of a main stent component and a securement. The main stent component is formed from a flat strip having one or more undulating side bands that may be connected to form geometrically shaped cells and are helically wound to form a stent. The helical coils of the main stent component may be spaced apart or nestled to each other. The nestling of the undulation of adjacent helical windings contributes to maintaining the tubular shape and uniformity of the helically coiled stent. Alternatively, the flat strip may comprise a single undulating pattern. At the ends of the main stent component are end bands, which when wound, form a cylindrical ring. In one embodiment, one or more struts of the main stent component may have a width sufficient to include one or more fenestrations. The fenestrated struts may be connected by loops or turns wherein the material is narrower than that of the fenestrated struts to provide enhanced flexibility. The helical tubular is maintained with a securement. | 10-28-2010 |
| 20100286760 | FLEXIBLE DEVICES - A self expanding flexible or balloon expandable flexible device includes a helical strut member helically wound about an axis of the stent. The helical strut member comprises a plurality of helical strut elements. A plurality of individual helical elements are helically wound about the axis of the device in the same direction of the helical strut member with the helical elements extending between and interconnecting points on subsequent windings of the helical strut member. The device can be a flow diverter, anchor, revascularization device or filter. A self expanding flexible bifurcation device can include at least one leg. The at least one leg comprising the helical strut member and the plurality of individual helical elements helically wound about the axis of the device in the same direction of the helical strut member with the helical elements extending between and interconnecting points on subsequent windings of the helical strut member. | 11-11-2010 |
| 20110009951 | HELICAL AND SEGMENTED STENT-GRAFT - The stent-graft described herein generally includes a substrate, a helix disposed about the substrate, a covering disposed over at least a portion of the helix, and a support member coupled to the covering. | 01-13-2011 |
| 20110029064 | FLEXIBLE STENT - A flexible stent structure includes a plurality of axially spaced strut portions defining generally tubular axial segments of the stent and constructed to be radially expandable. A helical portion is interposed axially between two strut portions and has a plurality of helical elements connected between circumferentially spaced locations on the two strut portions. The helical elements extend helically between those locations and the length of a helical element is sufficient so that, when the stent is in a radially expanded state, it can simultaneously withstand repeated axial compression or expansion and bending. | 02-03-2011 |
| 20110040371 | COILED ASSEMBLY FOR SUPPORTING THE WALL OF A LUMEN - The invention is in the field of mechanical devices. It relates to a device and methods for supporting the wall of a lumen. In particular, the invention relates to a device and method for supporting the wall of a human or animal body lumen, the device comprising a coiled body which can be inserted into a lumen and expand therein. The device may advantageously be used for treating arterial and vascular diseases, in particular coronary conditions and cardiovascular diseases. The device may also advantageously be used for the localized delivery of drugs. In particular, the invention provides a device for supporting the wall of a lumen comprising a coiled structure ( | 02-17-2011 |
| 20110106240 | LARGE VESSEL STENTS AND OCCLUDERS - An endovascular stent for vascular vessels which can be used to occlude the vessel or which can be used to bridge damaged areas in the vessel. The endovascular stent comprising a stent that can be permanently expanded from a first diameter to a larger second diameter. The stent can be a helically wound wire stent, each wire comprising at least two strands, the two strands being twisted. The twisted strands securing fibers to form a fabric pile extending outwardly from stent, and optionally extending inwardly into the stent. In a second embodiment, the stent is enclosed with a tubular-like expandable graft, the graft having an exterior fabric pile made up of individual fibers. In both embodiments, the fibers or the pile are optionally coated with a hydrophilic polymeric gel which expands upon being wetted. | 05-05-2011 |
| 20110144739 | MEDICAL DEVICE AND METHOD FOR PRODUCING A DEVICE OF SAID KIND - A medical device is provided with a rotation-symmetrical lattice structure ( | 06-16-2011 |
| 20110245910 | FLEXIBLE STENT - The stent of the present invention combines a helical strut band interconnected by coil elements. This structure provides a combination of attributes that are desirable in a stent, such as, for example, substantial flexibility, stability in supporting a vessel lumen, cell size and radial strength. The structure of the stent of the present invention provides a predetermined geometric relationship between the helical strut band and interconnected coil elements in order to maintain connectivity at any diameter size state of the stent. | 10-06-2011 |
| 20110264195 | Helical Stent with Opposing and/or Alternating Pitch Angles - Waveforms for forming helical stents with opposing and/or alternating pitch angles along their lengths are disclosed. A wire is bent to form a waveform having a series of sinusoidal segments between a first end and a second end thereof. Each sinusoidal segment is longitudinally offset from its adjacent segment(s). Each waveform includes at least one sinusoidal segment having a first portion in which the amplitude between consecutive turns of the wire gradually increases and a longitudinally offset second portion in which the amplitude between consecutive turns of the wire gradually decreases. The waveform is wrapped from one end to the other about a mandrel to form the stent and depending on the arrangement of sinusoidal segments along the waveform may have opposing and/or alternating pitch angles along a section or an entire length of the stent. | 10-27-2011 |
| 20120265294 | STENT - A stent, having a central axis that extends in a longitudinal direction of the stent, includes a first strand group and a second strand group. The first strand group and the second strand group are woven together. The first strand group is wound in a right-handed spiral around the central axis and the second strand group is wound in a left-handed spiral around the central axis. A maximum diameter of first strands constituting the first strand group is different from a maximum diameter of second strands constituting the second strand group. | 10-18-2012 |
| 20120271408 | Low Profile Medical Stent - A medical prosthesis having a low profile for delivery into a body lumen is disclosed. The stent includes a plurality of wire strands woven to form a plurality of joints at the intersections, some of which are helically wrapped. The helically wrapped joints may be offset form the joints of a second plurality of wire strands concentric to the first. Alternatively, the helically wrapped joints can doubled forming box nodes. | 10-25-2012 |
| 20120283819 | MEDICAL DEVICE SUITABLE FOR LOCATION IN A BODY LUMEN - A stent suitable for deployment in a blood vessel to support at least part of an internal wall of the blood vessel includes plurality of longitudinally spaced-apart annular elements, and a plurality of connecting elements to connect adjacent annular elements. Each connecting element is circumferentially offset from the previous connecting element. Upon application of a load to the stent, the stent moves from an unloaded configuration to a loaded configuration. In the loaded configuration the longitudinal axis of the stent is curved in three-dimensional space. The stent can be helically shaped. | 11-08-2012 |
| 20130090721 | Highly Flexible Stent and Method of Manufacture - Preferred embodiments of a stent with a high degree of flexibility are shown and described. The stent can include a continuous helical winding having interconnected struts joined at vertices, and having bridges connecting sections of the helical winding to each other. An annular ring can be provided at one or both ends of the helical winding, and the annular ring can have extensions extending to connect to the helical winding. One of the extensions can connect to a bridge and another extension can connect to a vertex. The struts at the ends of the helical winding can have strut lengths that differ from the strut lengths of the struts in a central portion of the winding between the ends of the winding. | 04-11-2013 |
| 20130184808 | ROTATIONAL SPUN MATERIAL COVERED MEDICAL APPLIANCES AND METHODS OF MANUFACTURE - A medical appliance or prosthesis may comprise one or more layers of rotational spun nanofibers, including rotational spun polymers. The rotational spun material may comprise layers including layers of polytetrafluoroethylene (PTFE). Rotational spun nanofiber mats of certain porosities may permit tissue ingrowth into or attachment to the prosthesis. Additionally, one or more cuffs may be configured to allow tissue ingrowth to anchor the prosthesis. | 07-18-2013 |
| 20130204352 | LONGITUDINALLY FLEXIBLE EXPANDABLE STENT - Segmented articulatable stent of open structure comprised of end-connected struts of first and second lengths making up first and second segments with angular interconnects between adjacent first and second segments. | 08-08-2013 |
| 20130231734 | Radiopaque Compositions, Stents and Methods of Preparation - The invention relates to an implantable radiopaque stent adapted to be disposed in a body lumen. In one aspect of the invention, a plurality of elongate filaments including one or more radiopaque filaments are arranged to form a hollow tubular structure having a tubular wall that defines an inner surface and an outer surface and opposing first open end and second open end. | 09-05-2013 |
| 20130245748 | HELICAL HYBRID STENT - An expandable helical stent is provided, wherein the stent may be formed of an amorphous metal alloy or other non-amorphous metal with a securement. The stent is formed from flat or tubular metal in a helical coiled structure which has an undulating pattern. The main stent component may be formed of a single helically coiled component. Alternatively, a plurality of helically coiled ribbons may be used to form a stent heterogeneous in design, material, or other characteristic particular to that stent. The helical tubular structure may be secured with a securement, such as a weld, interlock or a polymer, to maintain the helical coils in a tubular configuration. The helical coils of the main stent component may be spaced apart or nestled to each other. The nestling of the undulation of adjacent helical coils contributes to maintaining the tubular shape of the helically coiled stent. In addition, the nestling of helical coils may prevent the polymer layer from sagging at any point between cycles of the helical coils. | 09-19-2013 |
| 20130261734 | ADVANCED KINK RESISTANT STENT GRAFT - Stent-grafts for treating thoracic aortic aneurysms and abdominal aortic aneurysms include graft portions having inflatable channels and graft extensions. The graft extensions include an undulating wire stent and porous, but substantially fluid impermeable, polytetrafluoroethylene (PTFE) graft materials. | 10-03-2013 |
| 20130282107 | METHOD FOR FORMING A STENT - A method of forming a stent includes forming a wave form from a formable material. The wave form includes a plurality of substantially straight portions and a plurality of curved portions, each curved portion connecting adjacent substantially straight portions. The method includes wrapping the wave form around a mandrel at an angle to form a helical coil comprising a plurality of turns, connecting a first curved portion of a first turn to an adjacent second curved portion of a second turn at a position along the wave form to define an end of the stent, and removing excess material from an end of the wave form extending past the first curved portion while smoothing the end of the stent. | 10-24-2013 |
| 20130282108 | Tubular Conduit - A tubular conduit comprising: a tubular portion made from a flexible material. There is an external helical formation extending around the exterior of, and parallel to the axis of, the tubular portion and defining a first region of the tubular portion. The external helical formation is for supporting the tubular portion. There is also an internal helical formation, protruding inwardly of the interior of the tubular portion and extending parallel to the axis of the tubular portion and defining a second region of the tubular portion. The internal helical formation is for imparting helical flow on fluid passing through the tubular portion. The first region does not extend throughout the second region. | 10-24-2013 |
| 20130338759 | Helical Stent Having Improved Flexibility and Expandability - A stent includes a central portion of helically wound undulations formed of struts, cylindrical end portions, and transition zones between the helical portion and the cylindrical portions. According to a first aspect of the invention, the torsional flexibility of the stent is maximized by having bridges connecting adjacent winding be interrupted by the maximum possible number of undulations. In one embodiment, each winding includes nineteen undulations around the circumference, bridges are provided every five undulations. According to a second aspect of the invention, uniform opening of the transition zone is achieved by altering the width, and thereby the flexibility, of a series of struts in accordance with their lengths. Specifically, the long transition zone struts are made wider. | 12-19-2013 |
| 20130345791 | Bendable Stent - A stent includes a matrix of struts. The matrix of struts may be disposed parallel to one another in a non-expanded disposition. A plurality of loops along the longitudinal axis may be formed by the matrix of struts. In one aspect, a plurality of cusps in each loop of the plurality of loops connects adjacent struts, the plurality of cusps including tied cusps and free cusps. The tied cusps of one loop can be connected to the tied cusps of an adjacent loop by a bridge extending therebetween. In one aspect, the adjacent struts connected by a tied cusp have different lengths. In one aspect, at least one free cusp in each loop joins two struts of approximately equal length. | 12-26-2013 |
| 20140081382 | STENTS WITH ATTACHED LOOPED ENDS - An open frame prosthesis is formed with looped end terminations at its proximal and distal ends. At one end of the prosthesis, the filaments or strands are welded together in pairs to form strand couplings. A plurality of loop segments are connected to the strand couplings, one loop segment for each pair of adjacent strand couplings. In one version of the prosthesis, strands at the opposite end are bent to form looped ends. In another version, loop segments are connected to pairs of strand couplings at both ends of the prosthesis. The loop segments can be connected to the couplings by welding, fusion bonds, or tubes, which are either crimped or heat shrunk. | 03-20-2014 |
| 20140088690 | 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 leaden Methods of making and using the devices are also disclosed. | 03-27-2014 |
| 20140107765 | SELF-EXPANDING STENT - The stent of this invention is a self-expanding stent created by a scaffolding lattice. The stent may be made from a nickel-titanium alloy. The lattice is formed from two different types of helices that proceed circumferentially in opposite directions along the longitudinal axis of the stent. The helices have no free ends. The first type of helix is formed by a series of undulations and the second type of helix is formed from a series of connection elements. The undulations may be in a zigzag or sinusoidal pattern. The connection elements connect the junction points lying on adjacent turns of the first type of helix. The junction points are formed by the ascending and descending arms of the undulations or zigzags. The ends of the stent may be formed by a closed circumferential element which is linked by connection elements to a transition zone. The transition zone is formed by a closed loop that connects directly to the first helix. The amplitude of the undulations or zigzags forming the transition zone increases from the closed loop to the point connecting the transition zone with the first type of helix. The closed circumferential element may be made from a radiopaque material. The scaffolding lattice design of the stent provides a stent having a high degree of flexibility as well as radial strength. | 04-17-2014 |
| 20140107766 | Methods for Making a Supported Graft - A device includes a tubular substrate and a support member. The support member includes a component that is elastically deformable and elastically recoverable. The support member wraps around and adheres to an abluminal surface of the tubular substrate. The device is adapted for use in an anatomical conduit. For example, the device may be adapted for bypassing an anatomical conduit, for creating an arteriovenous shunt, or as a support structure for maintaining an opening in an anatomical conduit. | 04-17-2014 |
| 20140135904 | Helical Stent With Orthogonal End and Method of Forming Stent - A helical stent includes a central segment having a first tubular waveform and a first end segment having a second tubular waveform. The waveforms are defined by a plurality of struts and a plurality of crowns connecting adjacent struts together. The struts of the second tubular waveform have different lengths such that second tubular waveform includes a plurality of amplitudes. The second tubular waveform comprises a complete turn around a longitudinal axis of the stent. A first connector connects together the first tubular waveform first end, the second tubular waveform first end, and the second tubular waveform second end. Due to the configuration of the second tubular waveform of the first end segment, the stent end at the first end segment is substantially orthogonal to the longitudinal axis of the stent. A second end segment similar to the first end segment can be connected to a second end of the first tubular waveform. | 05-15-2014 |
| 20140155987 | Low Profile Support Frame and Related Intraluminal Medical Devices - A low profile support frame for use as 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. A stabilizing member has a proximal end contained within one of 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. | 06-05-2014 |
| 20140249619 | ELECTROSPUN PTFE COATED STENT AND METHOD OF USE - A stent or other prosthesis may be formed by coating a single continuous wire scaffold with a polymer coating. The polymer coating may consist of layers of electrospun polytetrafluoroethylene (PTFE). Electrospun PTFE of certain porosities may permit endothelial cell growth within the prosthesis. | 09-04-2014 |
| 20140277386 | BRAIDED FLOW DIVERTER USING FLAT-ROUND TECHNOLOGY - A generally tubular braided flow diverting stent is formed of alternating round and rectangular elongated members, for treatment of aneurysms. The generally tubular braided flow diverting stent maintains a significant wall thickness while increasing area coverage of a vessel wall. Sliding of the round elongated members over the rectangular elongated members allows the stent to be crimped to very low diameters for delivery in narrow portions of the vasculature. | 09-18-2014 |
| 20140288636 | Bioabsorbable Stents with Reinforced Filaments - According to an aspect of the present invention, a stent is provided, which contains at least one filament that has a longitudinal axis and comprises a bioabsorbable polymeric material. Polymer molecules within the bioabsorbable polymeric material are provided with a helical orientation which is aligned with respect to the longitudinal axis of the filament. The stent is at least partially bioabsorbed by a patient upon implantation or insertion of the stent into the patient. | 09-25-2014 |
| 20140288637 | Radiopaque Compositions, Stents and Methods of Preparation - The invention relates to an implantable radiopaque stent adapted to be disposed in a body lumen. In one aspect of the invention, a plurality of elongate filaments including one or more radiopaque filaments are arranged to form a hollow tubular structure having a tubular wall that defines an inner surface and an outer surface and opposing first open end and second open end. One of the open ends of the stent is formed by an intersection of adjacent filament ends. A radiopaque compound is applied to the intersection, the radiopaque compound comprising radiopaque material and polymeric material. The radiopaque compound and radiopaque filament provide improved external imaging of the tubular structure on imaging equipment. | 09-25-2014 |
| 20140358218 | STENT - Provided is a stent of a novel structure with which deflection of a line-shaped body during expansion is prevented and a substantially uniform expansion is achieved over an entire length thereof, and with which, after implantation, stent fracture and damage of body tissue can be prevented by the stent exhibiting a superior pliability and conformability to a shape of a somatic lumen. A stent having a cylindrical peripheral wall formed with a line-shaped body that extends in a helical form in a circumferential direction while reciprocating in an axial direction at a given amplitude. In the stent, connecting parts are formed to link portions of the line-shaped body that are adjacent in the axial direction, and a friable part is provided to rupture itself by being implanted in the somatic lumen and release a link made by the connecting parts. | 12-04-2014 |
| 20150032201 | BIO-ABSORBABLE COMPOSITE MATERIALS CONTAINING MAGNESIUM AND MAGNESIUM ALLOYS AS WELL AS IMPLANTS MADE OF SAID COMPOSITES - The invention relates to a composite material that comprises at least one magnesium component, whereby the magnesium component consists of pure magnesium or a magnesium-calcium alloy or a magnesium-calcium-X alloy, whereby X is another biodegradable element. The composite material also contains at least one organic anti-infective agent having a solubility in water at room temperature of less than 10 grams per liter. | 01-29-2015 |
| 20150039078 | HIGHLY FLEXIBLE STENT AND METHOD OF MANUFACTURE - Preferred embodiments of a stent with a high degree of flexibility are shown and described. The stent can include a continuous helical winding having interconnected struts joined at vertices, and having bridges connecting sections of the helical winding to each other. An annular ring can be provided at one or both ends of the helical winding, and the annular ring can have extensions extending to connect to the helical winding. One of the extensions can connect to a bridge and another extension can connect to a vertex. The struts at the ends of the helical winding can have strut lengths that differ from the strut lengths of the struts in a central portion of the winding between the ends of the winding. | 02-05-2015 |
| 20150045874 | STENT DESIGNS AND METHODS OF MANUFACTURE - Embodiments disclosed include a woven stent and a method of manufacturing a woven stent that includes a plurality of first members and a plurality of second members forming a braided configuration; wherein each of the first members includes a first body portion, a first end unjoined portion, and a first end bent portion; wherein each of the second members includes a first end overlap portion extending alongside the first end unjoined portion. The woven stent may further includes a coating that encapsulates the first end unjoined portions and the first end overlap portions and/or the first end unjoined portions may be laser joined or ultrasonic joined to the first end overlap portions. | 02-12-2015 |
| 20150105854 | Methods for Making Magnesium Biodegradable Stents for Medical Implant Applications - Methods for making a magnesium biodegradable stent for medical implant applications, using magnesium foil or pure magnesium or magnesium alloys that are biodegradable and performing a lithographic technique to configure the features and dimensions of the magnesium foil, and rolling the magnesium foil to form a cylinder. | 04-16-2015 |
| 20150148887 | FLEXIBLE DEVICES - A self expanding flexible or balloon expandable flexible device includes a helical strut member helically wound about an axis of the stent. The helical strut member comprises a plurality of helical strut elements. A plurality of individual helical elements are helically wound about the axis of the device in the same direction of the helical strut member with the helical elements extending between and interconnecting points on subsequent windings of the helical strut member. The device can be a flow diverter, anchor, revascularization device or filter. A self expanding flexible bifurcation device can include at least one leg. The at least one leg comprising the helical strut member and the plurality of individual helical elements helically wound about the axis of the device in the same direction of the helical strut member with the helical elements extending between and interconnecting points on subsequent windings of the helical strut member. | 05-28-2015 |
| 20150148888 | BRAIDED STENT - A stent is provided with braided filaments. First and second filaments are braided with each other and extend spirally around the stent wall in opposite directions. One or more third filaments are braided with the first filaments and extends spirally around the stent wall only in the direction of the second filaments. The third filament is stiffer than the first and second filaments, and there are fewer third filaments than the first and second filaments. | 05-28-2015 |
| 20150297374 | BRAIDED FLOW DIVERTER USING FLAT-ROUND TECHNOLOGY - A generally tubular braided flow diverting stent is formed of alternating round and rectangular elongated members, for treatment of aneurysms. The generally tubular braided flow diverting stent maintains a significant wall thickness while increasing area coverage of a vessel wall. Sliding of the round elongated members over the rectangular elongated members allows the stent to be crimped to very low diameters for delivery in narrow portions of the vasculature. | 10-22-2015 |
| 20150297803 | Bioerodible Stent - A bioerodible stent includes an inner member of a first biocompatible metal, an intermediate member of a second biocompatible metal, and an outer member of a third biocompatible metal. The first biocompatible metal, second biocompatible metal, and third biocompatible member are selected such that galvanic corrosion occurs between the members. A biodegradable polymer coating may surround the members. | 10-22-2015 |
| 20160015539 | FLEXIBLE STENT DESIGN - The present invention relates to tissue-supporting medical devices and drug delivery systems, and more particularly to tubular flexible stents that are implanted within a body lumen of a living animal or human to support the organ, maintain patency and/or deliver drugs or agents. The tubular flexible stent has a cylindrical shape defining a longitudinal axis and includes a helical section having of a plurality of longitudinally oriented strut members and a plurality of circumferentially oriented hinge members connecting circumferentially adjacent strut members to form a band. The band is wrapped about the longitudinal axis in a substantially helical manner to form a plurality of helical windings. At least one connector member extends between longitudinally adjacent helical windings of the band. | 01-21-2016 |
| 20160015541 | HIGHLY FLEXIBLE STENT | 01-21-2016 |
| 20180021154 | STENTS WITH ATTACHED LOOPED ENDS | 01-25-2018 |
