| Patent application number | Description | Published |
|---|
| 20080228261 | Intravascular stent with integrated link and ring strut - An expandable stent is implanted in a body lumen, such as a coronary artery, peripheral artery, or other body lumen. The stent includes a plurality of rings connected by links. The stent has a high degree of flexibility in the longitudinal direction, yet has adequate vessel wall coverage and radial strength sufficient to hold open an artery or other body lumen. The stent can be compressed or crimped onto a catheter to a very low profile since links are integrally formed from a portion of the struts forming the rings. The stent is constructed so that the cylindrical rings are very close together in order to provide maximum scaffolding, and if the stent has a drug coating, to provide a uniform drug delivery over the length of the stent. The connecting links are integrally formed from a portion of the struts forming the rings so that the links can have a maximum length thereby providing increased longitudinal flexibility of the stent. | 09-18-2008 |
| 20090024157 | EMBOLIC PROTECTION DEVICE WITH OPEN CELL DESIGN - A cage and sleeve assembly for an embolic filtering device used to filter embolic particles from a body vessel has a strut assembly that is movable between an unexpanded position and an expanded position. The struts are configured to form a cage having an open cell design. The open cell design provides a filter cage with increased radial flexibility that also increases the contact with a vessel wall while reducing the landing zone length. Such an open cell design may have one or more rings that are not connected together at each vertex, and may be constructed from one ring. The sleeve assembly of the embolic filtering device may be joined to the filter cage at each vertex of the open cell or along the periphery of the open cell. | 01-22-2009 |
| 20090187215 | METHODS AND APPARATUS TO REDUCE A DIMENSION OF AN IMPLANTABLE DEVICE IN A SMALLER STATE - Devices and methods fabricating an implantable device are disclosed. A method of fabricating an implantable device is disclosed. The method includes positioning a planar base material. The planar base material has a first inner surface. The first inner surface has a first inner surface dimension. The planar base material has a first outer surface. The first outer surface has a first outer surface dimension. A portion of the first inner surface of the base material is removed to define an annular body movable from a first state towards a second state. The annular body includes a second inner surface having a second inner surface dimension and a second outer surface having a second outer surface dimension. The second inner surface dimension is smaller than the first inner surface dimension, the first outer surface dimension, and the second outer surface dimension. | 07-23-2009 |
| 20100145433 | ENDOPROSTHESES FOR DEPLOYMENT IN A BODY LUMEN - Example embodiments include an endoprosthesis that has a first annular segment that is radially expandable and a second annular segment that is also radially expandable. An axial segment, which includes one or more struts, is operatively associated with the first annular segment and the second annular segment to maintain a specified distance between the first annular segment and the second annular segment. | 06-10-2010 |
| 20100193485 | METHODS AND SYSTEMS FOR LASER CUTTING AND PROCESSING TUBING TO MAKE MEDICAL DEVICES - Methods for making devices include providing a tubular member to be formed into a device, placing a removable sacrificial block material in the lumen of the tubular member and laser cutting the tubular member. A doping material can be added to the melted portion of the tubular member to promote the formation of brittle slag. A fixture can be used to hold a cut workpiece in order to ream sacrificial material from the surface of the workpiece. Pressurized gas can be supplied to the inner lumen of the tubular member to cause slag to form on the outside surface, rather than the inner surface, of the tubular member. A tubular member made from nickel-titanium alloy can be tightly adhered to a sacrificial sleeve utilizing the phase changes associated with nickel-titanium. A rotating mandrel can be placed within the lumen of the tubular member during laser cutting. A mandrel which includes an enlarged diameter section causes the workpiece to expand slightly within its elastic deformation range to dislodge islands from the workpiece. Such a mandrel could be formed from a tubular member which has a central lumen that can be used to deliver a pressurized medium to “blast” islands from the workpiece. | 08-05-2010 |
| 20110066225 | Bioabsorbable Stent With Time Dependent Structure And Properties And Regio-Selective Degradation - A bioabsorbable polymeric stent with time dependent structure and properties and methods of treating a diseased blood vessel with the bioabsorable polymeric stent are disclosed. The structure and properties of the stent change with time and allow the vessel to be restored to a natural unstented state. The bioabsorbable stent loses mechanical integrity in a controlled manner due to modification of selected structural elements. | 03-17-2011 |
| 20110190871 | Crush Recoverable Polymer Scaffolds - A medical device includes a polymer scaffold crimped to a catheter having an expansion balloon. The scaffold, after being deployed by the balloon, provides a crush recovery of about 90% after the diameter of the scaffold has been pinched or crushed by 50%. The scaffold has a pattern including an asymmetric closed cell connecting links connecting the closed cells. | 08-04-2011 |
| 20110190872 | Crush Recoverable Polymer Scaffolds Having a Low Crossing Profile - A medical device includes a polymer scaffold crimped to a catheter having an expansion balloon. The scaffold, after being deployed by the balloon, provides a crush recovery of about 90% after the diameter of the scaffold has been pinched or crushed by 50%. The scaffold also has a reduced crimped profile and a modification of the scaffold's ring structure at the crowns that contributes to the reduced crimped profile. | 08-04-2011 |
