Patent application number | Description | Published |
20090304772 | IMPLANTABLE MATERIALS HAVING ENGINEERED SURFACES AND METHOD OF MAKING SAME - Implantable materials having engineered surfaces and method of making same comprising geometric features on at least one surface of the material having at least one of chemical, physiochemical and electrochemical activity different than regions of the at least one surface without the features. | 12-10-2009 |
20100154197 | 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. | 06-24-2010 |
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 |
20110190776 | INTEROSTEAL AND INTRAMEDULLARY IMPLANTS AND METHOD OF IMPLANTING SAME - The present invention relates to an expandable metal balloon that may be used for the treatment of diseased or injured bone tissues, and a method of using the same. The metal balloon is inserted into the interior space of a cancellous bone tissue, and is filled with a suitable material to provide internal structural support to the bone. | 08-04-2011 |
20110274737 | IMPLANTABLE MATERIALS HAVING ENGINEERED SURFACES AND METHOD OF MAKING SAME - An implantable biocompatible material includes one or more vacuum deposited layers of biocompatible materials deposited upon a biocompatible base material. At least a top most vacuum deposited layer includes a homogeneous molecular pattern of distribution along the surface thereof and comprises a patterned array of geometric physiologically functional features. | 11-10-2011 |
20120132612 | METHOD FOR MAKING GROOVES ON A LUMINAL SURFACE OF AN INTRAVASCULAR STENT - The invention relates to methods and apparatus for manufacturing intravascular stents wherein the intravascular stent has its inner surface treated to promote the migration of endothelial cells onto the inner surface of the intravascular stent. In particular, the inner surface of the intravascular stent has at least one groove formed therein. | 05-31-2012 |
20120135130 | METHOD OF MAKING IMPLANTABLE MEDICAL DEVICES HAVING CONTROLLED SURFACE PROPERTIES - An implantable medical device that is fabricated from materials that present a blood or body fluid or tissue contact surface that has controlled heterogeneities in material constitution. An endoluminal stent-graft and web-stent that is made of a monolithic material formed into differentiated regions defining structural members and web regions extending across interstitial spaces between the structural members. The endoluminal stent-graft is characterized by having controlled heterogeneities at the blood flow surface of the stent. | 05-31-2012 |
20120135192 | IMPLANTABLE MATERIALS HAVING ENGINEERED SURFACES AND METHOD OF MAKING SAME - Implantable materials having defined patterns of affinity regions for binding endothelial cells and providing for directed endothelial cell migration across the surface of the material. The affinity regions include photochemically altered regions of a material surface and physical members patterned on the material surface that exhibit a greater affinity for endothelial cell binding and migration than the remaining regions of the material surface. | 05-31-2012 |
20120136427 | IMPLANTABLE MEDICAL DEVICES HAVING CONTROLLED SURFACE PROPERTIES FOR IMPROVED HEALING RESPONSE - An implantable medical device that is fabricated from materials that present a blood or body fluid or tissue contact surface that has controlled heterogeneities in material constitution. An endoluminal stent-graft and web-stent that is made of a monolithic material formed into differentiated regions defining structural members and web regions extending across interstitial spaces between the structural members. The endoluminal stent-graft is characterized by having controlled heterogeneities at a the blood flow surface of the stent. | 05-31-2012 |
20120185037 | GROOVED DRUG-ELUTING MEDICAL DEVICES AND METHOD OF MAKING SAME - The invention relates to methods and apparatus for manufacturing implantable medical devices, such as intravascular stents, wherein the medical device has a surface treated to promote the migration of endothelial cells onto the surface of the medical device. In particular, the surface of the medical device has at least one groove formed therein, the at least one groove may have a drug-eluting polymer disposed therein or a drug-eluting polymer coating may be provided on the surface of the medical device and grooves formed in the drug eluting polymer coating. | 07-19-2012 |
20120223056 | METHOD FOR MAKING GROOVES ON A LUMINAL SURFACE OF AN INTRAVASCULAR STENT - The invention relates to methods and apparatus for manufacturing intravascular stents wherein the intravascular stent has its inner surface treated to promote the migration of endothelial cells onto the inner surface of the intravascular stent. In particular, the inner surface of the intravascular stent has at least one groove formed therein. | 09-06-2012 |
20120239141 | TRANSLUMINAL CARDIAC BALL VALVE AND METHOD FOR DEPLOYMENT THEREOF - A transluminal cardiac valve includes an expandable generally tubular cage including when expanded a generally uniform central region, first and second ends each diametrically constricted relative to the central region, a blood impervious region extending from the first end of the cage to within the generally uniform central region, and an inflatable plunger freely disposed and captured within the cage when inflated. | 09-20-2012 |
20120282391 | ENDOLUMINAL IMPLANTABLE SURFACES, STENTS, AND GRAFTS AND METHOD OF MAKING SAME - A method of manufacturing an endoluminal implantable surface, stent, or graft includes the steps of providing an endoluminal implantable surface, stent, or graft having an inner wall surface, an outer wall surface, and a wall thickness and forming a pattern design into the endoluminal implantable surface, stent, or graft. At least one groove is created in the inner surface of the intravascular stent by applying a laser machining method to the inner surface. | 11-08-2012 |
20120290074 | IMPLANTABLE MEDICAL DEVICE HAVING ENHANCED ENDOTHELIAL MIGRATION FEATURES AND METHODS OF MAKING THE SAME - An implantable medical device having enhanced endothelial migration features, generally comprises: a structural member including a leading edge and a trailing edge interconnected by a third surface region, the leading edge including a second surface region in a generally curvilinear cross-section, and the trailing edge including a fourth surface region in a generally curvilinear cross-section, whereby blood flow over the second surface region generate shear stress at the second surface region without an eddy region in the second surface region. | 11-15-2012 |
20120305529 | IMPLANTABLE MATERIALS HAVING ENGINEERED SURFACES AND METHOD OF MAKING SAME - Implantable materials having engineered surfaces and method of making same comprising geometric features on at least one surface of the material having at least one of chemical, physiochemical and electrochemical activity different than regions of the at least one surface without the features. | 12-06-2012 |
20120310158 | BALLOON CATHETER HAVING METAL BALLOON AND METHOD OF MAKING SAME - A metal balloon catheter having a main tubular body, a metal balloon proximate a distal end of the main tubular body, a central annulus extending along an entire longitudinal aspect of the catheter for accommodating a guidewire therethrough and an inflation annulus adjacent the central annulus which extends along the longitudinal axis of the main tubular body and terminates in fluid flow communication with an inflation chamber of the metal balloon. The metal balloon catheter may be either unitary integral metal catheter in which the main tubular body and the balloon are fabricated of metal, or it may consist of a polymeric main tubular body and a metal balloon. | 12-06-2012 |
20130131784 | METALLIC IMPLANTABLE GRAFTS AND METHOD 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. | 05-23-2013 |
20130287931 | METHODS OF MAKING DEVICES - The method of making devices is disclosed herein. More particularly, a method of manufacturing a device, comprises: vacuum depositing a device-forming metal onto an unpatterned, exterior surface of a generally cylindrical substrate to form a generally tubular, unpatterned crystalline metal film under at least one vacuum deposition process condition selected from at least one of chamber pressure, deposition pressure, and partial pressure of a process gas, said at least one process condition optimized to substantially eliminate formation of chemical and intra- and intergranular precipitates in the bulk material; and removing the deposited generally tubular, unpatterned crystalline metal film from the generally cylindrical substrate. | 10-31-2013 |
20130334032 | 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. | 12-19-2013 |
20140054258 | METHOD FOR MAKING GROOVES ON A LUMINAL SURFACE OF AN INTRAVASCULAR STENT - Methods for manufacturing intravascular stents are disclosed wherein the intravascular stent has its inner surface treated to promote the migration of endothelial cells onto the inner surface of the intravascular stent. In particular, the inner surface of the intravascular stent has at least one groove formed therein. | 02-27-2014 |
20140109383 | METHOD FOR MAKING TOPOGRAPHICAL FEATURES ON A SURFACE OF A MEDICAL DEVICE - The invention relates to methods and apparatus for manufacturing medical devices wherein the medical device has a surface treated to promote the migration of cells onto the surface of the medical device. In particular, the surface of the medical device has at least one topographical feature formed therein. | 04-24-2014 |
20140114435 | TOPOGRAPHICAL FEATURES AND PATTERNS ON A SURFACE OF A MEDICAL DEVICE AND METHODS OF MAKING THE SAME - The invention relates to medical devices that has a surface configured to promote the migration of cells onto the surface of the medical device. In particular, the surface of the medical device has a noncontiguous pattern of topographical features formed therein or thereon. | 04-24-2014 |
20140135888 | STENTS HAVING A HYBRID PATTERN AND METHODS OF MANUFACTURE - An intravascular stent have a hybrid pattern is disclosed herein. | 05-15-2014 |
20140155992 | TRANSLUMINAL CARDIAC BALL VALVE AND METHOD FOR DEPLOYMENT THEREOF - A transluminal cardiac valve includes an expandable generally tubular cage including when expanded a generally uniform central region, first and second ends each diametrically constricted relative to the central region, a blood impervious region extending from the first end of the cage to within the generally uniform central region, and an inflatable plunger freely disposed and captured within the cage when inflated. | 06-05-2014 |
20140194974 | IMPLANTABLE MEDICAL DEVICE HAVING ENHANCED ENDOTHELIAL MIGRATION FEATURES AND METHODS OF MAKING THE SAME - An implantable medical device having enhanced endothelial migration features, generally comprises: a structural member including a leading edge and a trailing edge interconnected by a third surface region, the leading edge including a second surface region in a generally curvilinear cross-section, and the trailing edge including a fourth surface region in a generally curvilinear cross-section, whereby blood flow over the second surface region generate shear stress at the second surface region without an eddy region in the second surface region. | 07-10-2014 |
20140294910 | IMPLANTABLE MATERIALS HAVING ENGINEERED SURFACES AND METHOD OF MAKING SAME - An implantable biocompatible material includes one or more vacuum deposited layers of biocompatible materials deposited upon a biocompatible base material. At least a top most vacuum deposited layer includes a homogeneous molecular pattern of distribution along the surface thereof and comprises a patterned array of geometric physiologically functional features. | 10-02-2014 |
20140296965 | MONOLITHIC MEDICAL DEVICES, METHODS OF MAKING AND USING THE SAME - The monolithic device comprises a plurality of scaffolding members and a mesh patterned members webbed between the scaffolding members; the mesh patterned member webbed between the scaffolding members surround a lumen and generally expands from a contracted state to an expanded state; and mesh patterned members including a plurality of openings traversing the thickness of the mesh patterned member, and the mesh patterned members including a surface on which a pattern of openings is formed. | 10-02-2014 |
20140314992 | IMPLANTABLE MATERIALS HAVING ENGINEERED SURFACES COMPRISING A PATTERN OF FEATURES AND METHOD OF MAKING SAME - Implantable materials having defined patterns of affinity regions for binding endothelial cells and providing for directed endothelial cell migration across the surface of the material. The affinity regions include photochemically altered regions of a material surface and physical members patterned on the material surface that exhibit a greater affinity for endothelial cell binding and migration than the remaining regions of the material surface. | 10-23-2014 |
20140332499 | ENDOLUMINAL IMPLANTABLE SURFACES, STENTS, AND GRAFTS AND METHOD OF MAKING THE SAME - A method of manufacturing an endoluminal implantable surface, stent, or graft includes the steps of providing an endoluminal implantable surface, stent, or graft having an inner wall surface, an outer wall surface, and a wall thickness and forming a pattern design into the endoluminal implantable surface, stent, or graft. At least one groove is created in the inner surface of the intravascular stent by applying a laser machining method to the inner surface. | 11-13-2014 |