Patent application number | Description | Published |
20080208321 | POLYMERIC STENT AND METHOD OF MANUFACTURE - A stent formed of polymeric material, useful for the expansion of a lumen and the delivery of one or more therapeutic agents in situ is disclosed. The stent may be multi-layered, and may change shape at a state transition temperature governed by the materials forming the layers. Methods of use and manufacture are also disclosed. | 08-28-2008 |
20100305689 | Non-Biodegradable Stent Comprising a Biodegradable Coating and Method of Coating The Same - The present invention relates to the field of non-biodegradable stents, and therein to non-biodegradable stents coated with at least one layer of a biodegradable polymer which maintains mechanical integrity of the coating both in storage and upon balloon expansion and which can optionally release drugs. The at least one polymer layer comprises a biodegradable polymer and a plasticizer. The present invention also relates to a manufacturing method of such a non-biodegradable stent. | 12-02-2010 |
20120142641 | TARGETTED DRUG DELIVERY TO THE BONE - The present invention relates to a complex of a bisphosphonate compound, methods of preparing such complex and uses thereof. | 06-07-2012 |
20120179242 | IMPLANTABLE ARTICLE, METHOD OF FORMING SAME AND METHOD FOR REDUCING THROMBOGENICITY - Endothelialization of a bodily fluid or tissue-contacting, particularly blood-contacting, surface may be accomplished to render that surface substantially non-thrombogenic. Thrombosis may also be mitigated or eliminated by providing an eroding layer on the surface that results in the removal of any thrombus formation as the layer erodes. An implantable device may utilize at least one surface having a plurality of nano-craters thereon that enhance or promote endothelialization. Additionally, an implantable device may have at least one first degradable layer for contacting bodily fluid or tissue and disposed about a central core, and at least one second degradable layer between the first degradable layer and the central core. The first degradable layer has a first degradation rate and the second degradable layer has a second degradation rate which degrades more slowly than the first degradable layer on contact with bodily fluid or tissue. | 07-12-2012 |
20120283391 | BIODEGRADABLE THERMOPLASTIC ELASTOMERS - The present invention relates to a biodegradable thermoplastic elastomer having the general formula A-B-A wherein each A is an amorphous polymer having a glass transition temperature (Tg)>40° C. or a semi-crystalline polymer having a glass transition temperature (Tg) and/or melting temperature (Tm)>40° C.; B is a copolymer of -caprolactone (CL) and at least one additional monomer selected from the group consisting of L-lactic acid (LLA), trimethyl carbonate (TMC), and glycolic acid (GA), or B is different to A and is lactic-co-glycolic acid (LGA); and wherein the molar ratio of CL to the at least one additional monomer in the copolymer B is in the range between about 1:0.09 to about 1:1. | 11-08-2012 |
20130046254 | OCCLUSION DEVICE FOR CLOSING ANATOMICAL DEFECTS - The present invention generally relates to the field of transcatheter device closure techniques for closing an opening in a tissue and more particularly, to occlusion devices for closing anatomical defects in tissue such as defects consisting of an opening connecting a front side and a back side of a tissue. More particularly the present invention relates to occlusion devices for closing septal abnormalities such as atrial septal defects and patent foramen ovale, delivering systems for such occlusion devices, kits comprising the occlusion devices and the delivering systems and to methods of closing an anatomical defect in a tissue consisting of an opening connecting a front side and a back side of a tissue. | 02-21-2013 |
20130209538 | BIODEGRADABLE OCULAR IMPLANT - The present invention relates to a biodegradable ocular implant for sustained drug delivery, comprising a first layer comprising a first biodegradable polymer, wherein the first layer contains a drug dispersed or dissolved therein. A multi-layered biodegradable ocular implant is also disclosed. | 08-15-2013 |
20130211314 | GLAUCOMA VALVE, A CASING FOR CONTAINING A GLAUCOMA VALVE, AND A GLAUCOMA DRAINAGE DEVICE COMPRISING THE VALVE AND/OR THE CASING - Various embodiments of the invention relate to a glaucoma valve, a casing for containing a glaucoma valve and a glaucoma drainage device comprising the glaucoma valve and/or the casing. The valve includes a flow channel having an inlet and an outlet and a valve member connected to the outlet of the flow channel. The valve member may be formed from a degradable polymer or a combination of degradable polymer and non-degradable polymer. Various embodiments of the invention relate to a glaucoma valve, the valve having a first flow channel. The interior of the first flow channel may be coated with a degradable polymer, such that in use, the polymer degrades to allow a greater flow of fluid through the flow channel. In some embodiments, the valve includes a second flow channel, which may be arranged in parallel to the first flow channel. The first flow channel may be completely sealed with the polymer such that in use, the polymer degrades to allow fluid to flow through the first flow channel. Various embodiments relate to a casing for containing a glaucoma valve. The casing may be formed from a degradable polymer, such as a biodegradable polymer. | 08-15-2013 |
20130216606 | LIPOSOMAL FORMULATION FOR OCULAR DRUG DELIVERY - The present invention is directed to a liposomal formulation for ocular drug delivery comprising (i) liposomes comprising at least one lipid bilayer, and (ii) a prostaglandin drug and/or a prostaglandin derivative associated in the liposomes, wherein the liposomes have a mean diameter of less than 2μπι. The present invention is also directed to a pharmaceutical comprising the liposomal formulation and a method of producing the liposomal formulation for ocular drug delivery. Additionally, the present invention is directed to a method of treating or preventing an ocular disease, comprising administering the liposomal formulation or the pharmaceutical composition to a subject in need thereof. | 08-22-2013 |
20130281977 | DEVICE FOR CONTROLLED RELEASE OF A BIOACTIVE AGENT - Present invention relates to a device for controlled release of a bioactive agent. The device comprises a thin film located on the surface of the device, wherein said thin film comprises a bioactive agent-containing layer comprising a polymeric matrix and at least one bioactive agent. | 10-24-2013 |
20140072610 | BIOABSORBABLE TRACHEAL STENT, AND METHOD OF MANUFACTURING THEREOF - A bioabsorbable tracheal stent is provided. The bioabsorbable stent comprises a biodegradable polymer, wherein the “ biodegradable polymer comprises about 0 to 30 wt % glycerol, polyethylene glycol, triethyl citrate, or mixture thereof. A drug is dispersed within or dissolved in the biodegradable polymer. In a second and third aspect, the invention relates to methods of manufacturing a bioabsorbable tracheal stent. The first method includes forming a solution comprising a biodegradable polymer and a drug, the biodegradable polymer comprising about 0 to 30 wt % glycerol, polyethylene glycol, triethyl citrate, or mixture thereof. The method further comprises casting the solution to form the bioabsorbable tracheal stent. The second method includes forming a polymeric stent, and dip casting the polymeric stent in a solution comprising a biodegradable polymer and a drug to form a coating on the polymeric stent, wherein the biodegradable polymer comprises about 0 to 30 wt % glycerol, polyethylene glycol, triethyl citrate, or mixture thereof. | 03-13-2014 |
20140296798 | OCCLUSION DEVICE FOR CLOSING ANATOMICAL DEFECTS - An occlusion device for closing an anatomical defect in tissue comprising a conduit connecting an opening on a first tissue and an opening on a second tissue is provided. The occlusion device comprises a scaffold comprising a) a proximal support structure comprising at least two arms; b) a distal support structure comprising at least two arms, wherein the arms are adapted to provide anchorage for the device in the tissue; and c) a waist portion adapted for extending through the opening on the first tissue and connecting the proximal support structure with the distal support structure, wherein the scaffold consists essentially of a biodegradable polymer, wherein the proximal support structure and the distal support structure comprise or consist of polycaprolactone (PCL), poly-(D,L-lactide-co-caprolactone) (PLC), or a mixture thereof. A method of closing an anatomical defect using the occlusion device is also provided. | 10-02-2014 |
20150024493 | METHOD FOR PREPARING A PATTERNED SUBSTRATE AND USE THEREOF IN IMPLANTS FOR TISSUE ENGINEERING - A method for preparing a patterned substrate is provided. The method includes melt-spinning at least one biocompatible polymer to form fibers; collecting the fibers on a substrate such that the fibers are aligned on the substrate; and applying a binding agent to the aligned fibers to bond the fibers into the aligned arrangement to obtain the patterned substrate in form of an aligned fiber mat. Use of the patterned substrate in an implant for tissue engineering is also provided. | 01-22-2015 |