Patent application number | Description | Published |
20080208325 | Medical articles for long term implantation - According to an aspect of the present invention, long term medical articles are provided which include the following: (a) first and second body contacting (e.g., tissue and/or body-fluid contacting) porous polymeric layers; (b) a polymeric barrier layer disposed between the first and second porous polymer layers; and (c) a reinforcement element. According to another aspect of the present invention, tubular medical articles for long term implantation are provided, which comprise: (a) a reinforcement element; (b) a blood contacting porous polymeric layer having a surface energy ranging between 20 and 30 dynes/cm disposed over an inner surface of the reinforcement element; and (c) an additional porous polymeric layer formed over an outer surface of the reinforcement element. | 08-28-2008 |
20080251391 | METHODS AND SYSTEMS FOR APPLYING THERAPEUTIC AGENT TO A MEDICAL DEVICE - In methods and systems for applying a coating to a medical device, such as a coating comprising a therapeutic agent, electrons may be transferred from an electrode to ionize a therapeutic agent dissolved in an electrolytic solution. The ionized therapeutic agent may then be electrochemically delivered to the medical device. The medical device may be a stent, which may have a porous surface. | 10-16-2008 |
20090012603 | IMPLANTABLE MEDICAL DEVICES HAVING ADJUSTABLE PORE VOLUME AND METHODS FOR MAKING THE SAME - The present invention is directed to implantable medical devices which may be used for controllably releasing a therapeutic agent within a patient and methods for making the same. These medical devices may include porous coatings, which may be polymer-free, located on an outer surface or abluminal surface of the medical device. The medical device may be a stent. The pores of the porous coating may be expandable to facilitate loading of the therapeutic agent. The medical device may be triggerable upon implantation of the medical device such that the volume of the voids shrinks to eject the therapeutic agent. The voids may be slots in the stent. Expandable materials or structures may be positioned in the voids to expand upon implantation and eject the therapeutic agent. | 01-08-2009 |
20090081271 | MEDICAL DEVICES HAVING A FILTER INSERT FOR CONTROLLED DIFFUSION - An implantable or insertable medical device is provided which includes as components: (a) a substrate component comprising a depression that is at least partially filled with a therapeutic agent-containing material that comprises a first therapeutic agent, and (b) a pre-formed filter insert disposed in the depression such that it regulates transport of chemical species between the depression and the exterior of the device upon implantation or insertion of the device in vivo. | 03-26-2009 |
20090098176 | MEDICAL DEVICES WITH TRIGGERABLE BIOADHESIVE MATERIAL - Described herein are implantable medical devices comprising a biocompatible polymer comprising a triggerable bioadhesive property that allows the device to adhere to body tissue. The triggerable bioadhesive property of the polymer can be triggered or activated by exposure to a stimulus. Also, the present invention pertains to methods of making an implantable medical device comprising a biocompatible polymer comprising a triggerable bioadhesive property that allows the device to adhere to body tissue. | 04-16-2009 |
20090118812 | ENDOPROSTHESIS COATING - A method includes: providing a substrate, depositing a ceramic and an extractable material onto the substrate, forming a porous structure in the ceramic by removing the extractable material, and utilizing the ceramic in an endoprosthesis. An endoprosthesis, such as a stent, including a coating formed of a ceramic and an extractable material that can be removed from the coating to form voids is also disclosed. | 05-07-2009 |
20090123517 | MEDICAL DEVICES FOR RELEASING THERAPEUTIC AGENT AND METHODS OF MAKING THE SAME - An implantable medical device for releasing therapeutic agent having a medical device body and a plurality of reservoir-defining structures disposed on a surface of the body. A reservoir can be defined by the reservoir-defining structures and therapeutic agent may be located in the reservoir. A cover may extend over the reservoir so that the therapeutic agent is released from the reservoir when the medical device implanted. Methods for making the medical device may also include providing a medical device body, positioning a plurality of reservoir-defining structures on a surface of the body to form a reservoir, loading therapeutic agent into the reservoir, and covering the reservoir so that the therapeutic agent may release when the medical device is implanted. Alternatively, the reservoir may be covered with a cover and an opening formed in the cover so that the therapeutic agent may release when the medical device is implanted. | 05-14-2009 |
20090157166 | Medical Devices Having Porous Component For Controlled Diffusion - According to an aspect of the present invention, implantable or insertable medical devices are provided which contain the following: (a) substrate having one or more depressions that contain at least one therapeutic agent and (b) a porous membrane disposed over the substrate and the one or more depressions, which regulate transport of chemical species between the therapeutic-agent-containing depressions and the exterior of the device. The substrate and the porous membrane are formed of different materials each with a different thermal expansion coefficient. Moreover, one of the substrate and the porous membrane at least partially surrounds the other. Other aspects of the present invention are directed to methods of making such medical devices, and methods of treatment using such medical devices. | 06-18-2009 |
20090274740 | DRUG-LOADED MEDICAL DEVICES AND METHODS FOR MANUFACTURING DRUG-LOADED MEDICAL DEVICES - Drug-loaded medical devices such as stents and methods for manufacturing them are provided. In certain embodiments, the therapeutic agent is loaded only in or on areas of the medical device that do not undergo substantial deformation during expansion. The medical device may be provided with reservoirs in or on the first portions of the medical device that do not undergo substantial deformation during expansion, and the therapeutic agent may be loaded in these reservoirs. The reservoirs may be covered with a porous coating which may be a non-polymeric coating. In other embodiments, a non-polymeric coating is provided in a discontinuous manner in or on the medical device. A method includes the steps of providing a transfer member that includes a translucent substrate and a layer of transfer material such as a film or foil; attaching reservoirs to the transfer material; positioning the transfer member with the reservoirs adjacent a medical device, such as a stent, with the reservoirs facing the medical device; and directing a laser beam at the transfer member such that the laser beam passes through the translucent substrate to vaporize a portion of the transfer material, creating a pocket of trapped gas between the translucent substrate and reservoir, thereby forcing the reservoir from the transfer member to the medical device. The reservoirs may be formed of a non-polymeric material. | 11-05-2009 |
20100008970 | Drug-Eluting Endoprosthesis - A drug-eluting endoprosthesis that includes a bioerodible metal portion and a therapeutic agent. In some aspects, the endoprosthesis includes a plurality of discrete deposits and a plurality of overlying layers each overlying one of the plurality of discrete deposits. Each discrete deposit includes one or more therapeutic agents and each overlying layer includes one or more bioerodible metals. In other aspects, the bioerodible metal portion includes at least two bioerodible metal regions having different electronegativities. The at least two bioerodible metal regions being in electrical contact with each other. The bioerodible metal erodes in a physiological environment to release the therapeutic agent. | 01-14-2010 |
20100057197 | MEDICAL DEVICES HAVING INORGANIC COATINGS FOR THERAPEUTIC AGENT DELIVERY - According to an aspect of the invention, medical devices are provided that comprise a substrate, at least one therapeutic agent disposed over or in the substrate, and at least one inorganic layer disposed over the therapeutic agent and the substrate, wherein the inorganic layer is either a porous inorganic layer or is a non-porous layer that becomes a porous inorganic layer in vivo. Other aspects of the invention comprise methods for forming medical devices. | 03-04-2010 |
20100217376 | MEDICAL DEVICES - An implantable medical device such as a stent includes a molybdenum/rhenium alloy. | 08-26-2010 |
20100233238 | Medical Devices Having Nanoporous Coatings for Controlled Therapeutic Agent Delivery - According to an aspect of the present invention, implantable or insertable medical devices are provided which contain (a) one or more depressions that contain at least one therapeutic agent, and (b) a nanoporous coating, disposed over the therapeutic-agent-containing depressions, which regulate transport of species between the therapeutic-agent-containing depressions and the exterior of the device. The implantable or insertable devices are configured to preform a role beyond mere drug delivery, for example, providing mechanical and/or electrical functions within the body, among other functions. An advantage of the present invention is that medical devices may be provided, which release therapeutic agents in quantities far exceeding the void volume within the nanoporous coating, while at the same time providing functionality that extends beyond drug delivery. Such release may further approach or achieve a zero order kinetic drug release profile. | 09-16-2010 |
20100274352 | Endoprosthesis with Selective Drug Coatings - An endoprosthesis such as a coronary stent includes a luminal surface, at least a portion of which is covered with a first coating including a first drug, and an abluminal surface, at least a portion of which is covered with a second coating including a second drug. The first drug has a first eluting profile based on the first coating, and the second drug has a second eluting profile based on the second coating, the first eluting profile being different from the second eluting profile. Methods of making the same are also provided. | 10-28-2010 |
20110014264 | Medical Devices Having Nanostructured Regions For Controlled Tissue Biocompatibility And Drug Delivery - According to certain aspects of the invention, implantable or insertable medical devices are provided that contain one or more nanoporous regions, which may further comprise interconnected nanopores. Other aspects of the invention are directed to implantable or insertable medical devices that contain one or more nanostructured regions, which are formed by a variety of methods. Still other aspects of the invention are directed to implantable or insertable medical devices having nanotextured surface regions, in which cell-adhesion-promoting biomolecules (e.g., glycosaminoglycans, proteoglycans, cell adhesion peptides, and adhesive proteins) are provided on, within or beneath the nanotextured surface regions. | 01-20-2011 |