Patent application number | Description | Published |
20090005848 | MODULAR VASCULAR PROSTHESIS AND METHODS OF USE - The present invention relates a vascular prosthesis and related assembly methods that includes a plurality of modular segments inter-engaged by flexible, and preferably lockable, inter-engageable elements forming joints or other connector areas. The segments may have a number of different mechanical properties and may be assembled by the clinician, through mechanical or chemical joining, to customize the prosthesis for a specific patient or application. | 01-01-2009 |
20090151416 | APPARATUS AND METHODS FOR MEDICAL DEVICE EXPANSION - A mandrel usable for expanding a medical device is disclosed. The mandrel includes a first tube portion having a first lumen and a first tube diameter. A second tube portion extends from the first tube portion; the second tube portion is configured to receive a medical device. A second tube diameter is smaller than the first tube diameter. A plurality of tube segments are separated by a plurality of slots formed in the mandrel, while a second lumen is in communication with the first lumen. At least a portion of the plurality of tube segments is moveable outwardly to expand the medical device. | 06-18-2009 |
20090282669 | Method And Apparatus For Reducing Stress During Stent Manufacture - The invention relates to a method and apparatus of reducing stress during stent manufacture. Particularly, the invention is directed to a method and apparatus for expanding a stent using primarily radial loads thereby reducing the stresses that are generated due to the axial loads applied during loading of the stent onto a mandrel or other expansion device. The method of the invention provides for the stepwise expansion of shape memory stents, while reducing the overall stresses that the stent encounters, and thereby improving manufacturing yields due to fractured struts during expansion. | 11-19-2009 |
20100010622 | HYBRID SEGMENTED ENDOPROSTHESIS - Generally, the present disclosure includes a hybrid segmented endoprosthesis for delivery into a lumen of a body. The hybrid segmented endoprosthesis has different types of segments that are joined together. The segments are typically distinct and distinguishable from each other by each segment having a unique configuration different from at least one other segment. Additionally, the segments can be coupled together by various processes well known for interconnecting the materials of endoprostheses. The segmented endoprosthesis can provide improved deliverability, strength, flexibility, and/or functionality during and after deployment. The use of a segmented endoprosthesis can combine the configurations of multiple small endoprostheses into a standard- or regular-sized endoprosthesis. | 01-14-2010 |
20110208285 | STENT DELIVERY SYSTEM - A stent delivery system comprising a catheter having an inner tube and an outer tube surrounding the inner tube; a balloon having a proximal end fixed to the outer tube a distal end fixed to the inner tube and an interior including a proximal portion and distal portion, a stent disposed on the balloon and being expandable from a delivery position to a deployed position by a contrast medium adapted to be supplied to the interior of the balloon, and a contrast medium distribution means disposed in the interior of the balloon adapted to equally distribute the contrast medium to both the proximal portion and the distal portion of the interior of the balloon. | 08-25-2011 |
20110213455 | STENT GRAFT - A stent-graft including an inner stent having a wall structure including juxtaposed strut-patterns with interconnected struts and connectors connecting the strut-patterns is described. The wall structure of the inner stent has a predetermined length. An outer stent is coaxially arranged around the inner stent and has a wall structure including juxtaposed strut-patterns with interconnected struts and connectors connecting the strut-patterns. The wall structure of the outer stent has a predetermined length and a flexible stretchable material layer arranged between the inner stent and the outer stent. The wall structure of the inner stent has a design differing from the design of the wall structure of the outer stent and the length of the inner stent is equal to the length of the outer stent. | 09-01-2011 |
20120005876 | SYSTEM AND METHOD FOR CRIMPING BODY LUMEN FILTERS - As described herein, a body lumen filter is provided that includes a body configured to move between a pre-deployed state and a deployed state, a filtering structure operatively associated with the body to filter particulates, and a blending structure operatively associated with the body. The blending structure can be configured to break up at least one of the particulates. | 01-12-2012 |
20120035647 | BODY LUMEN FILTERS WITH LARGE SURFACE AREA ANCHORS - As described herein, a body lumen filter ( | 02-09-2012 |
20120102708 | MODULAR VASCULAR PROSTHESIS AND METHODS OF USE - The present invention relates a vascular prosthesis and related assembly methods that includes a plurality of modular segments inter-engaged by flexible, and preferably lockable, inter-engageable elements forming joints or other connector areas. The segments may have a number of different mechanical properties and may be assembled by the clinician, through mechanical or chemical joining, to customize the prosthesis for a specific patient or application. | 05-03-2012 |
20120172977 | STENT GRAFT WITH TWO LAYER ePTFE LAYER SYSTEM WITH HIGH PLASTICITY AND HIGH RIGIDITY - A vascular prosthesis and method are disclosed comprising a first flexible stent having a lattice structure with a compacted configuration and an expanded configuration, a second flexible stent inside the first flexible stent to form a tubular structure, a first film layer of graft material such as expanded polytetrafluoroethylene sandwiched between the first and second flexible stents, and a second film layer of expanded polytetrafluoroethylene sandwiched between the first and second flexible stents, the second layer having a higher rigidity and a lower plasticity than the first layer. | 07-05-2012 |
20130092298 | METHODS OF FABRICATING A REFRACTORY-METAL ARTICLE, AND APPARATUSES FOR USE IN SUCH METHODS - Embodiments of methods for fabricating refractory-metal articles (e.g., implantable medical devices), and honing and blasting apparatuses for use in such methods are disclosed. Methods for fabricating refractory-metal-containing articles include laser cutting in a vacuum environment and/or at least one mechanical or chemical finishing step configured to remove at least one region affected by the fabrication process (e.g., the laser cutting process) to provide a substantially defect-free surface finish. | 04-18-2013 |
20130092299 | HEAT TREATING APPARATUSES HAVING A MAGNETIC DRIVE SYSTEM AND RELATED METHODS - Embodiments of methods for vacuum heat treating refractory metal articles (e.g., implantable medical devices), and heat treating apparatuses for use in such methods are disclosed. Heat treating refractory metal articles under high vacuum (e.g., 10 | 04-18-2013 |
20130096666 | IMPLANTABLE MEDICAL DEVICES INCLUDING A HEAT-TREATED TANTALUM-ALLOY BODY HAVING A DRUG-ELUTING COATING THEREON, AND METHODS OF MAKING AND USING SAME - The present disclosure is directed to a drug-eluting implantable medical devices that includes a tantalum-alloy body having a drug-eluting coating thereon for delivering a drug to treat, for example, restenosis. In an embodiment, an implantable medical device includes a body sized and configured to be implanted in a living subject. At least a portion of the body may comprise a tantalum alloy. The tantalum alloy includes a tantalum content of about 77 weight % (“wt %”) to about 92 wt %, a niobium content of about 7 wt % to about 13 wt %, and a tungsten content of about 1 wt % to about 10 wt %. The tantalum alloy exhibits at least one mechanical property modified by heat treatment thereof. The body has a drug-eluting coating thereon. | 04-18-2013 |
20130096667 | HEAT-TREATED TANTALUM-ALLOY PRODUCTS, IMPLANTABLE MEDICAL DEVICES INCORPORATING SAME, AND METHODS OF PROCESSING TANTALUM-ALLOY PRODUCTS - The present disclosure is directed to tantalum-alloy products, implantable medical devices that incorporate tantalum-alloy products such as stents or other implantable medical devices, methods of making and/or processing the tantalum-alloy products and implantable medical devices, and methods of using the implantable medical devices. In an embodiment, a stent includes a stent body having a plurality of struts. At least a portion of the stent body is made from a tantalum alloy. The tantalum alloy includes a tantalum content of about 77 weight % (“wt %”) to about 92 wt %, a niobium content of about 7 wt % to about 13 wt %, and a tungsten content of about 1 wt % to about 10 wt %. The tantalum alloy exhibits at least one mechanical property modified by heat treatment thereof, such as yield strength, ultimate tensile strength, or ductility. | 04-18-2013 |
20130096669 | PARTIALLY ANNEALED STENT - A stent and method for manufacturing a stent that achieves both strength as well as ductility. In the manufacturing process, the material used to form the stent is only partially annealed to lower the grain size across the thickness of the stent. The material is partially annealed either prior to or after the cutting a stent pattern into a tube. | 04-18-2013 |
20130304194 | STENT GRAFT - A stent-graft including an inner stent having a wall structure including juxtaposed strut-patterns with interconnected struts and connectors connecting the strut-patterns is described. The wall structure of the inner stent has a predetermined length. An outer stent is coaxially arranged around the inner stent and has a wall structure including juxtaposed strut-patterns with interconnected struts and connectors connecting the strut-patterns. The wall structure of the outer stent has a predetermined length and a flexible stretchable material layer arranged between the inner stent and the outer stent. The wall structure of the inner stent has a design differing from the design of the wall structure of the outer stent and the length of the inner stent is equal to the length of the outer stent. | 11-14-2013 |
20130317595 | STENT GRAFT - The invention relates to a stent graft comprising a stent ( | 11-28-2013 |