Patent application number | Description | Published |
20080206305 | Implantable barrier device - A barrier device is formed of a barrier component that can exhibit anti-inflammatory properties, non-inflammatory properties, and/or adhesion-limiting properties, as well as generate a modulated healing effect on injured tissue. The barrier component can be a non-polymeric cross-linked gel derived at least in part from a fatty acid compound, and may include a therapeutic agent. The barrier device can have anchoring locations to provide an area on the barrier device to interface with an anchoring mechanism. The anchoring locations can include openings and/or anchor elements. The barrier device can also include truss structures that provide additional strength to the barrier component. The barrier device is implantable in a patient for short term or long term applications, and can include controlled release of the therapeutic agent. | 08-28-2008 |
20080207756 | Bio-absorbable oil suspension - Exemplary embodiments of the invention provide a dispersing liquid for coating internal body tissues with a bio-absorbable oil, a method of making the dispersing liquid, methods of using the dispersing liquid and a kit for coating internal body tissues using the dispersing liquid. The dispersing liquid includes a suspension of a bio-absorbable oil suspended in a liquid carrier. The invention results in a uniform thin coating of bio-absorbable oil on internal body tissues. | 08-28-2008 |
20090011116 | REDUCING TEMPLATE WITH COATING RECEPTACLE CONTAINING A MEDICAL DEVICE TO BE COATED - An apparatus and a method for applying a coating to a medical device such as a stent, balloon, or catheter, shortly before insertion or implantation are described. The apparatus and method produce uniform consistent coverage of the medical device in a predictable, repeatable and controllable manner and reduce the need for preservative components in the coating or for excessive curing or hardening of the coating. | 01-08-2009 |
20090047414 | METHOD AND APPARATUS FOR APPLICATION OF A FRESH COATING ON A MEDICAL DEVICE - A method, a kit, and an apparatus provide a coating on an implantable medical device. The apparatus includes housing, a sealed reservoir chamber disposed in the housing, a reducing template, and a reservoir access port. The sealed reservoir contains the coating material. The reducing template is sized to receive a medical device therethrough for application of the coating material. A seal breaching mechanism can be provided and adapted to breach the sealed reservoir upon activation of the apparatus. The reservoir access port, which is disposed in the housing, is adapted to fluidly couple the reducing template with the reservoir chamber upon activation of the apparatus for coating the medical device. | 02-19-2009 |
20090208552 | CROSS-LINKED FATTY ACID-BASED BIOMATERIALS - Fatty acid-based, pre-cure-derived biomaterials, methods of making the biomaterials, and methods of using them as drug delivery carriers are described. The fatty acid-derived biomaterials can be utilized alone or in combination with a medical device for the release and local delivery of one or more therapeutic agents. Methods of forming and tailoring the properties of said biomaterials and methods of using said biomaterials for treating injury in a mammal are also provided. | 08-20-2009 |
20100004738 | DRUG DELIVERY COATING FOR USE WITH A MEDICAL DEVICE AND METHODS OF TREATING VASCULAR INJURY - The present inventions provide various embodiments of methods for one or more of treating vascular injury, neointima proliferation and/or local inflammation in a mammal by locally administering therapeutic compound comprising a mTOR targeting compound and a calcineurin inhibitor. In various aspects, the therapeutic compound comprises a bio-absorbable carrier component carrier component at least partially formed of a cellular uptake inhibitor and a cellular uptake enhancer, a mTOR targeting compound and a calcineurin inhibitor. In various aspects, the present invention provides for controlled delivery, which is at least partially characterized by total and relative amounts of a cellular uptake inhibitor and cellular uptake enhancer in a bio-absorbable carrier component. | 01-07-2010 |
20100034867 | DRUG DELIVERY COATING FOR USE WITH A MEDICAL DEVICE AND METHODS OF TREATING VASCULAR INJURY - The present inventions provide various embodiments of medical devices coated with a therapeutic coating comprising a mTOR targeting compound and a calcineurin inhibitor, and methods of applying said coatings. In various aspects, the therapeutic coating comprises a bio-absorbable carrier component at least partially formed of a cellular uptake inhibitor and a cellular uptake enhancer, a mTOR targeting compound and a calcineurin inhibitor. In various aspects, the present invention provides for controlled delivery, which is at least partially characterized by total and relative amounts of a cellular uptake inhibitor and cellular uptake enhancer in a bio-absorbable carrier component. | 02-11-2010 |
20110071415 | PLEURAL DRAINAGE SYSTEM AND METHOD OF USE - A pleural drainage system having an inflatable membrane and a method of using the system are disclosed. The pleural drainage system includes a pleural drainage catheter system. The pleural drainage catheter system includes an inflatable membrane and a drainage catheter integrally coupled to the inflation membrane, the drainage catheter defining a drainage lumen through which fluid is drawn from the pleural cavity, and an inflation lumen coupled for flow of inflation fluid to and from an interior of the inflatable membrane. The pleural drainage system further includes a suction system coupled to the drainage catheter and a fluid collector coupled to receive fluid from the drainage catheter. The pleural drainage system further includes an inflation system connected to deliver inflation fluid to the interior of the inflatable membrane. The pleural drainage system may be used to monitor an associated airleak in the pleural cavity of a patient. | 03-24-2011 |
20110144667 | HERNIA PATCH - A hernia patch supporting tissue in-growth conforms to a tissue wall upon surgical installation and fixation within a patient. The hernia patch can include a base and positioning straps. The base is formed of two layers that are affixed to each other around the perimeter of the patch, for example by stitching. A stabilizing washer is provided between the two layers, and the stitch is provided peripherally around the stabilizing washer, keeping the washer free-floating between the layers. The base, positioning straps, and stabilizing washer are formed of a structure that does not separate the layers of the implant or form a space in the form of a pocket, and promotes more uniform and confluent tissue incorporation or in-growth after implantation. The hernia patch may further include a hydrolysable bioabsorbable cross-linked coating of a fatty acid based material, such as an omega-3 fatty acid based material. | 06-16-2011 |
20110213302 | METHOD OF COATING A FOLDED MEDICAL DEVICE - A non-polymeric or biological coating applied to a radially expandable interventional medical device in a collapsed, wrapped, or folded configuration, the coating applied within at least one fold. Properties of the coating material applied to the medical device are adjusted or varied to result in a desired combination of coverage of the surface of the medical device, drug loading, and coating thickness. The coating is sterile, and is capable of being carried by a sterile medical device to a targeted tissue location within the body following radial expansion. The therapeutic coating transfers off the medical device due in part to a biological attraction with the tissue and in part to a physical transference from the medical device to the targeted tissue location in contact with the medical device. | 09-01-2011 |
20120213839 | HYDROPHOBIC CROSS-LINKED GELS FOR BIOABSORBABLE DRUG CARRIER COATINGS - Coatings for medical devices, methods of making the coatings, and methods of using them are described. | 08-23-2012 |
20120304444 | ARTIFICIAL INTERVERTEBRAL DISC - The present invention is directed to the field of prosthetic devices. More particularly, one embodiment of the present invention is directed to an artificial disc that can be used as a replacement for an intervertebral disc (e.g., a human intervertebral lumbar disc, a human intervertebral cervical disc and/or a human intervertebral thoracic disc). | 12-06-2012 |
20130035637 | COATED FOLDED MEDICAL DEVICE - A non-polymeric or biological coating applied to a radially expandable interventional medical device in a collapsed, wrapped, or folded configuration, the coating applied within at least one fold. Properties of the coating material applied to the medical device are adjusted or varied to result in a desired combination of coverage of the surface of the medical device, drug loading, and coating thickness. The coating is sterile, and is capable of being carried by a sterile medical device to a targeted tissue location within the body following radial expansion. The therapeutic coating transfers off the medical device due in part to a biological attraction with the tissue and in part to a physical transference from the medical device to the targeted tissue location in contact with the medical device. | 02-07-2013 |
20130074452 | PERFORATED BIOABSORBABLE OIL FILM AND METHODS FOR MAKING THE SAME - A bio-absorbable stand-alone film is derived at least in part from fatty acids. The bio-absorbable stand-alone film can have anti-adhesive, anti-inflammatory, non-inflammatory, and wound healing properties, and can additionally include one or more therapeutic agents incorporated therein. The stand-alone film has one or more perforations or depressions formed therein. Corresponding methods of making the bio-absorbable stand-alone film with one or more perforations or depressions include molding, cutting, carving, puncturing or otherwise suitable methods to create the perforations or depressions in the bio-absorbable stand-alone film. The resulting stand-alone film is bioabsorbable. | 03-28-2013 |
20130110057 | CHEST DRAINAGE SYSTEMS AND METHODS | 05-02-2013 |
20130178876 | HERNIA PATCH - A hernia patch supporting tissue in-growth conforms to a tissue wall upon surgical installation and fixation within a patient. The hernia patch can include a base and positioning straps. The base is formed of two layers that are affixed to each other around the perimeter of the patch, for example by stitching. A stabilizing washer is provided between the two layers, and the stitch is provided peripherally around the stabilizing washer, keeping the washer free-floating between the layers. The base, positioning straps, and stabilizing washer are formed of a structure that does not separate the layers of the implant or form a space in the form of a pocket, and promotes more uniform and confluent tissue incorporation or in-growth after implantation. The hernia patch may further include a hydrolysable bioabsorbable cross-linked coating of a fatty acid based material, such as an omega-3 fatty acid based material. | 07-11-2013 |
20130345816 | ARTIFICIAL INTERVERTEBRAL DISC - The present invention is directed to the field of prosthetic devices. More particularly, one embodiment of the present invention is directed to an artificial disc that can be used as a replacement for an intervertebral disc (e.g., a human intervertebral lumbar disc, a human intervertebral cervical disc and/or a human intervertebral thoracic disc). | 12-26-2013 |
20140308333 | COATING MATERIAL AND MEDICAL DEVICE SYSTEM INCLUDING SAME - A coating material including a bio-absorbable cross-linked material and a cellular uptake inhibitor. The bio-absorbable cross-linked material includes two or more fatty acids cross-linked into a substantially random configuration by ester bonds. The coating material may be adhered to a medical device. A medical device system including a medical device and a coating is also included. | 10-16-2014 |
20150065949 | PLEURAL DRAINAGE SYSTEM AND METHOD OF USE - A pleural drainage system having an inflatable membrane and a method of using the system are disclosed. The pleural drainage system includes a pleural drainage catheter system. The pleural drainage catheter system includes an inflatable membrane and a drainage catheter integrally coupled to the inflation membrane, the drainage catheter defining a drainage lumen through which fluid is drawn from the pleural cavity, and an inflation lumen coupled for flow of inflation fluid to and from an interior of the inflatable membrane. The pleural drainage system further includes a suction system coupled to the drainage catheter and a fluid collector coupled to receive fluid from the drainage catheter. The pleural drainage system further includes an inflation system connected to deliver inflation fluid to the interior of the inflatable membrane. The pleural drainage system may be used to monitor an associated airleak in the pleural cavity of a patient. | 03-05-2015 |
20150079191 | CURED GEL AND METHOD OF MAKING - A cured non-polymeric gel including a plurality of non-polymeric cross-links. The non-polymeric cross-links result from curing an oil or oil composition at selected curing conditions to achieve a desired amount of cross-linking to form the non-polymeric get. The desired amount of cross-linking is selected based on a desired rate of degradation of the gel after the gel is implanted. The oil or oil composition comprises one or more of eicosapentaenoic acid (EPA), docosahexaenoic acid (DHA), or alphalinolenic acid (ALA). | 03-19-2015 |