Patent application number | Description | Published |
20090024223 | Crafting of cartilage - The invention is directed to producing a shaped cartilage matrix isolated from a human or animal where the cartilage has been crafted to facilitate disinfection, cleaning, devitalization, recellularization, and/or integration after implantation. The invention relates to a process for repairing a cartilage defect and implantation of a cartilage graft into a human or animal by crafting the cartilage matrix into individual grafts, disinfecting and cleaning the cartilage graft, applying a pretreatment solution to the cartilage graft, removing cellular debris using an extracting solution to produce a devitalized cartilage graft, implanting the cartilage graft into the cartilage defect with or without an insertion device, and sealing the implanted cartilage graft with recipient tissue. The devitalized cartilage graft is optionally recellularized in vitro, in vivo, or in situ with viable cells to render the tissue vital before or after the implantation. The devitalized cartilage graft is also optionally stored between the removing cellular debris and the recellularizing steps. | 01-22-2009 |
20090024224 | Implantation of cartilage - The invention is directed towards a process for implanting a cartilage graft into a cartilage defect and sealing the implanted cartilage graft with recipient tissue by creating a first bore down to the bone portion of the cartilage defect, creating a second shaped bore that is concentric to and on top of the first bore to match the shape and size of the cartilage graft, treating the first bore and the second shaped bore at the defect site with a bonding agent, treating the circumferential area of the cartilage graft with a bonding agent, inserting the cartilage graft into the defect site and wherein the superficial surface of the cartilage graft is at the same height as the surrounding cartilage surface. The first and second bonding agents may be activated by applying a stimulation agent to induce sealing, integration, and restoration of the hydrodynamic environments of the recipient tissue. The invention is also directed towards a process for repairing a cartilage defect and implanting a cartilage graft into a human or animal by crafting a cartilage matrix into individual grafts, cleaning and disinfecting the cartilage graft, applying a pretreatment solution to the cartilage graft, removing cellular debris using an extracting solution to produce a devitalized cartilage graft, implanting the cartilage graft into the cartilage defect with or without an insertion device, and sealing the implanted cartilage graft with recipient tissue. The devitalized cartilage graft is optionally recellularized in vitro, in vivo, or in situ with viable cells to render the tissue vital before or after the implantation. The devitalized cartilage graft is also optionally stored between the removing cellular debris and the recellularizing steps. The invention is further directed toward a repaired cartilage defect. | 01-22-2009 |
20090024229 | Devitalization and recellularization of cartilage - The present invention is directed toward recellularizing a devitalized cartilage graft with viable recellularizable cells in vivo, in situ, or in vitro to render the tissue vital. The present invention is also directed toward repairing a cartilage defect and implanting a cartilage graft into a human or animal by crafting a cartilage matrix into individual grafts, disinfecting and cleaning the cartilage graft, applying a pretreatment solution to the cartilage graft, removing cellular debris using an extracting solution to produce a devitalized cartilage graft, recellularizing the devitalized cartilage graft, implanting the cartilage graft into the cartilage defect with or without an insertion device, and sealing the implanted cartilage graft with recipient tissue. The devitalized cartilage graft is optionally stored between the removing cellular debris and the recellularizing steps. The present invention is directed to both recellularized cartilage grafts as well as a process for recellularizing cartilage grafts. | 01-22-2009 |
20100036503 | Composition for a Tissue Repair Implant and Methods of Making the Same - The invention is directed to a process for making a tissue repair implant having a porous sponge-like structure to repair bone, cartilage, or soft tissue defects by producing a connective tissue homogenate from one or more connective tissues; mixing the connective tissue homogenate with a carrier solution to produce a connective tissue carrier; optionally mixing one or more natural or synthetic bone fragements with said connective tissue carrier to produce a tissue repair mixture; freezing or freeze-drying the tissue repair mixture to produce a porous sponge-like structure and create a three-dimensional framework to entrap the natural or synthetic bone fragments, treating the frozen or freeze-dried porous sponge-like structure with one or more treatment solutions to produce a stabilized porous sponge-like structure. A crudely fragmented connective tissue from one or more connective tissues is optionally mixed with the tissue repair mixture before freezing or freeze-drying. The tissue repair implant having a porous sponge-like structure is optionally combined with one or more bioactive supplements or one or more agents that have bioactive supplement binding site(s) to increase the affinity of growth factors, differentiation factor, cytokines, or anti-inflammatory agents to the tissue repair implant. The invention is further directed toward applying such tissue repair implant for tissue repair. | 02-11-2010 |
20110008406 | Silk Fibroin Hydrogels and Uses Thereof - The present specification provides for methods for purifying fibroins, purified fibroins, methods of conjugating biological and synthetic molecules to fibroins, fibroins conjugated to such molecules, methods of making fibroin hydrogels, fibroin hydrogels and fibroin hydrogel formulations useful for a variety of medical uses, including, without limitation uses as bulking agents, tissue space fillers, templates for tissue reconstruction or regeneration, cell culture scaffolds for tissue engineering and for disease models, surface coating to improve medical device function, or drug delivery devices. | 01-13-2011 |
20110008436 | Silk Fibroin Hydrogels and Uses Thereof - The present specification provides for methods for purifying fibroins, purified fibroins, methods of conjugating biological and synthetic molecules to fibroins, fibroins conjugated to such molecules, methods of making fibroin hydrogels, fibroin hydrogels and fibroin hydrogel formulations useful for a variety of medical uses, including, without limitation uses as bulking agents, tissue space fillers, templates for tissue reconstruction or regeneration, cell culture scaffolds for tissue engineering and for disease models, surface coating to improve medical device function, or drug delivery devices. | 01-13-2011 |
20110008437 | Silk Fibroin Hydrogels and Uses Thereof - The present specification provides for methods for purifying fibroins, purified fibroins, methods of conjugating biological and synthetic molecules to fibroins, fibroins conjugated to such molecules, methods of making fibroin hydrogels, fibroin hydrogels and fibroin hydrogel formulations useful for a variety of medical uses, including, without limitation uses as bulking agents, tissue space fillers, templates for tissue reconstruction or regeneration, cell culture scaffolds for tissue engineering and for disease models, surface coating to improve medical device function, or drug delivery devices. | 01-13-2011 |
20110009960 | PROSTHETIC FABRIC STRUCTURE - Disclosed herein is an implantable prosthesis for breast augmentation or reconstruction procedures. The prosthesis comprises a biocompatible and biodegradable fabric structure comprising one or more individual yarns comprised of sericin-extracted native fibroin fibers, wherein the yarns are intertwined to produce the fabric structure. The fabric structure extends in at least a first dimension and has at least a first surface that is adapted to engage and support natural breast tissue and/or a prosthetic breast implant in a patient. Also disclosed are methods of supporting breast tissue or a breast implant in a patient by inserting the prosthesis between the skin of the patient and the breast tissue and/or implant within the patient. | 01-13-2011 |
20110014263 | Silk Fibroin Hydrogels and Uses Thereof - The present specification provides for methods for purifying fibroins, purified fibroins, methods of conjugating biological and synthetic molecules to fibroins, fibroins conjugated to such molecules, methods of making fibroin hydrogels, fibroin hydrogels and fibroin hydrogel formulations useful for a variety of medical uses, including, without limitation uses as bulking agents, tissue space fillers, templates for tissue reconstruction or regeneration, cell culture scaffolds for tissue engineering and for disease models, surface coating to improve medical device function, or drug delivery devices. | 01-20-2011 |
20110014287 | Silk Fibroin Hydrogels and Uses Thereof - The present specification provides for methods for purifying fibroins, purified fibroins, methods of conjugating biological and synthetic molecules to fibroins, fibroins conjugated to such molecules, methods of making fibroin hydrogels, fibroin hydrogels and fibroin hydrogel formulations useful for a variety of medical uses, including, without limitation uses as bulking agents, tissue space fillers, templates for tissue reconstruction or regeneration, cell culture scaffolds for tissue engineering and for disease models, surface coating to improve medical device function, or drug delivery devices. | 01-20-2011 |
20110020409 | Silk Fibroin Hydrogels and Uses Thereof - The present specification provides for methods for purifying fibroins, purified fibroins, methods of conjugating biological and synthetic molecules to fibroins, fibroins conjugated to such molecules, methods of making fibroin hydrogels, fibroin hydrogels and fibroin hydrogel formulations useful for a variety of medical uses, including, without limitation uses as bulking agents, tissue space fillers, templates for tissue reconstruction or regeneration, cell culture scaffolds for tissue engineering and for disease models, surface coating to improve medical device function, or drug delivery devices. | 01-27-2011 |
20110045044 | COMPOSITIONS FOR REPAIR OF DEFECTS IN TISSUES, AND METHODS OF MAKING THE SAME - Tissue repair compositions, particularly bone repair compositions, containing (a) bone fragments and (b) homogenized connective tissue, and methods for making the same are provided. Some of the inventive tissue repair compositions contain a radioprotectant. The compositions can be used in the form of an injectable gel, an injectable paste, a paste, a putty, or a rehydratable freeze-dried form. Kits for using such tissue repair compositions are also provided. | 02-24-2011 |
20110111031 | Drug Delivery Platforms Comprising Silk Fibroin Hydrogels and Uses Thereof - The present specification provides drug delivery platforms useful for the controlled release of a compound over time in an individual. | 05-12-2011 |
20110129531 | Dermal Fillers Comprising Silk Fibroin Hydrogels and Uses Thereof - The present specification provides compositions useful as dermal fillers and methods using such compositions to treat a condition of skin. | 06-02-2011 |
20110160857 | METHODS FOR COLLECTING AND PROCESSING AUTOGRAFTS, PROCESSED AUTOGRAFTS, KITS FOR COLLECTING AND TRANSPORTING AUTOGRAFTS, AND TOOLS FOR PREPARING AUTOGRAFTS - The present invention is directed to methods for collecting and processing autografts, processed autografts, kits for collecting and transporting autografts, and tools for preparing autografts. It is also directed to autologous bone grafts, and methods of preparing them. | 06-30-2011 |
20110167602 | IMMUNONEUTRAL SILK-FIBER-BASED MEDICAL DEVICES - Silk is purified to eliminate immunogenic components (particularly sericin) and is used to form fabric that is used to form tissue-supporting prosthetic devices for implantation. The fabrics can carry functional groups, drugs, and other biological reagents. Applications include hernia repair, tissue wall reconstruction, and organ support, such as bladder slings. The silk fibers are arranged in parallel and, optionally, intertwined (e.g., twisted) to form a construct; sericin may be extracted at any point during the formation of the fabric, leaving a construct of silk fibroin fibers having excellent tensile strength and other mechanical properties. | 07-14-2011 |
20110171453 | IMMUNONEUTRAL SILK-FIBER-BASED MEDICAL DEVICES - Silk is purified to eliminate immunogenic components (particularly sericin) and is used to form fabric that is used to form tissue-supporting prosthetic devices for implantation. The fabrics can carry functional groups, drugs, and other biological reagents. Applications include hernia repair, tissue wall reconstruction, and organ support, such as bladder slings. The silk fibers are arranged in parallel and, optionally, intertwined (e.g., twisted) to form a construct; sericin may be extracted at any point during the formation of the fabric, leaving a construct of silk fibroin fibers having excellent tensile strength and other mechanical properties. | 07-14-2011 |
20110189292 | DERMAL FILLERS COMPRISING SILK FIBROIN HYDROGELS AND USES THEREOF - The present specification provides compositions useful as dermal fillers and methods using such compositions to treat a condition of skin. | 08-04-2011 |
20120171265 | SILK FIBROIN HYDROGELS AND USES THEREOF - The present specification provides for methods for purifying fibroins, purified fibroins, methods of conjugating biological and synthetic molecules to fibroins, fibroins conjugated to such molecules, methods of making fibroin hydrogels, fibroin hydrogels and fibroin hydrogel formulations useful for a variety of medical uses, including, without limitation uses as bulking agents, tissue space fillers, templates for tissue reconstruction or regeneration, cell culture scaffolds for tissue engineering and for disease models, surface coating to improve medical device function, or drug delivery devices. | 07-05-2012 |
20120172317 | SILK FIBROIN HYDROGELS AND USES THEREOF - The present specification provides for methods for purifying fibroins, purified fibroins, methods of conjugating biological and synthetic molecules to fibroins, fibroins conjugated to such molecules, methods of making fibroin hydrogels, fibroin hydrogels and fibroin hydrogel formulations useful for a variety of medical uses, including, without limitation uses as bulking agents, tissue space fillers, templates for tissue reconstruction or regeneration, cell culture scaffolds for tissue engineering and for disease models, surface coating to improve medical device function, or drug delivery devices. | 07-05-2012 |
20120172985 | SILK FIBROIN HYDROGELS AND USES THEREOF - The present specification provides for methods for purifying fibroins, purified fibroins, methods of conjugating biological and synthetic molecules to fibroins, fibroins conjugated to such molecules, methods of making fibroin hydrogels, fibroin hydrogels and fibroin hydrogel formulations useful for a variety of medical uses, including, without limitation uses as bulking agents, tissue space fillers, templates for tissue reconstruction or regeneration, cell culture scaffolds for tissue engineering and for disease models, surface coating to improve medical device function, or drug delivery devices. | 07-05-2012 |
20120210547 | IMMUNONEUTRAL SILK-FIBER-BASED MEDICAL DEVICES - Silk is purified to eliminate immunogenic components (particularly sericin) and is used to form fabric that is used to form tissue-supporting prosthetic devices for implantation. The fabrics can carry functional groups, drugs, and other biological reagents. Applications include hernia repair, tissue wall reconstruction, and organ support, such as bladder slings. The silk fibers are arranged in parallel and, optionally, intertwined (e.g., twisted) to form a construct; sericin may be extracted at any point during the formation of the fabric, leaving a construct of silk fibroin fibers having excellent tensile strength and other mechanical properties. | 08-23-2012 |
20120213852 | COMPOSITIONS AND IMPROVED SOFT TISSUE REPLACEMENT METHODS - The specification discloses compositions and methods for treating a soft tissue defect of an individual. | 08-23-2012 |
20120213853 | COMPOSITIONS AND IMPROVED SOFT TISSUE REPLACEMENT METHODS - The specification discloses compositions and methods for treating a soft tissue defect of an individual. | 08-23-2012 |
20120219627 | COMPOSITIONS AND IMPROVED SOFT TISSUE REPLACEMENT METHODS - The specification discloses compositions and methods for treating a soft tissue defect of an individual. | 08-30-2012 |
20120265297 | SILK FIBROIN HYDROGELS AND USES THEREOF - The present specification provides for methods for purifying fibroins, purified fibroins, methods of conjugating biological and synthetic molecules to fibroins, fibroins conjugated to such molecules, methods of making fibroin hydrogels, fibroin hydrogels and fibroin hydrogel formulations useful for a variety of medical uses, including, without limitation uses as bulking agents, tissue space fillers, templates for tissue reconstruction or regeneration, cell culture scaffolds for tissue engineering and for disease models, surface coating to improve medical device function, or drug delivery devices. | 10-18-2012 |
20120269777 | COMPOSITIONS AND IMPROVED SOFT TISSUE REPLACEMENT METHODS - The specification discloses compositions and methods for treating a soft tissue defect of an individual. | 10-25-2012 |
20120289981 | SERICIN EXTRACTED FABRICS - Silk is purified to eliminate immunogenic components (particularly sericin) and is used to form fabric that is used to form tissue-supporting prosthetic devices for implantation. The fabrics can carry functional groups, drugs, and other biological reagents. Applications include hernia repair, tissue wall reconstruction, and organ support, such as bladder slings. The silk fibers are arranged in parallel and, optionally, intertwined (e.g., twisted) to form a construct; sericin may be extracted at any point during the formation of the fabric, leaving a construct of silk fibroin fibers having excellent tensile strength and other mechanical properties. | 11-15-2012 |
20120294906 | SERICIN EXTRACTED FABRICS - Silk is purified to eliminate immunogenic components (particularly sericin) and is used to form fabric that is used to form tissue-supporting prosthetic devices for implantation. The fabrics can carry functional groups, drugs, and other biological reagents. Applications include hernia repair, tissue wall reconstruction, and organ support, such as bladder slings. The silk fibers are arranged in parallel and, optionally, intertwined (e.g., twisted) to form a construct; sericin may be extracted at any point during the formation of the fabric, leaving a construct of silk fibroin fibers having excellent tensile strength and other mechanical properties. | 11-22-2012 |
20120296351 | SERICIN EXTRACTED FABRICS - Silk is purified to eliminate immunogenic components (particularly sericin) and is used to form fabric that is used to form tissue-supporting prosthetic devices for implantation. The fabrics can carry functional groups, drugs, and other biological reagents. Applications include hernia repair, tissue wall reconstruction, and organ support, such as bladder slings. The silk fibers are arranged in parallel and, optionally, intertwined (e.g., twisted) to form a construct; sericin may be extracted at any point during the formation of the fabric, leaving a construct of silk fibroin fibers having excellent tensile strength and other mechanical properties. | 11-22-2012 |
20120296352 | SERICIN EXTRACTED FABRICS - Silk is purified to eliminate immunogenic components (particularly sericin) and is used to form fabric that is used to form tissue-supporting prosthetic devices for implantation. The fabrics can carry functional groups, drugs, and other biological reagents. Applications include hernia repair, tissue wall reconstruction, and organ support, such as bladder slings. The silk fibers are arranged in parallel and, optionally, intertwined (e.g., twisted) to form a construct; sericin may be extracted at any point during the formation of the fabric, leaving a construct of silk fibroin fibers having excellent tensile strength and other mechanical properties. | 11-22-2012 |
20120296443 | SERICIN EXTRACTED FABRICS - Silk is purified to eliminate immunogenic components (particularly sericin) and is used to form fabric that is used to form tissue-supporting prosthetic devices for implantation. The fabrics can carry functional groups, drugs, and other biological reagents. Applications include hernia repair, tissue wall reconstruction, and organ support, such as bladder slings. The silk fibers are arranged in parallel and, optionally, intertwined (e.g., twisted) to form a construct; sericin may be extracted at any point during the formation of the fabric, leaving a construct of silk fibroin fibers having excellent tensile strength and other mechanical properties. | 11-22-2012 |
20130090290 | BMP-2 Peptides and Methods of Use - The invention relates to truncated growth factors and variants thereof. The invention also relates to methods of making and using the truncated growth factors. | 04-11-2013 |
20130103149 | PROSTHETIC FABRIC STRUCTURE - Disclosed herein is an implantable prosthesis for breast augmentation or reconstruction procedures. The prosthesis comprises a biocompatible and biodegradable fabric structure comprising one or more individual yarns comprised of sericin-extracted native fibroin fibers, wherein the yarns are intertwined to produce the fabric structure. The fabric structure extends in at least a first dimension and has at least a first surface that is adapted to engage and support natural breast tissue and/or a prosthetic breast implant in a patient. Also disclosed are methods of supporting breast tissue or a breast implant in a patient by inserting the prosthesis between the skin of the patient and the breast tissue and/or implant within the patient. | 04-25-2013 |
20130172995 | SILK FIBROIN HYDROGELS AND USES THEREOF - The present specification provides for methods for purifying fibroins, purified fibroins, methods of conjugating biological and synthetic molecules to fibroins, fibroins conjugated to such molecules, methods of making fibroin hydrogels, fibroin hydrogels and fibroin hydrogel formulations useful for a variety of medical uses, including, without limitation uses as bulking agents, tissue space fillers, templates for tissue reconstruction or regeneration, cell culture scaffolds for tissue engineering and for disease models, surface coating to improve medical device function, or drug delivery devices. | 07-04-2013 |
20130196909 | BMP-7 Peptides and Methods of Use - The invention relates to truncated growth factors and variants thereof. The invention also relate to methods of making and using the truncated growth factors. | 08-01-2013 |
20130196910 | BMP-4 PEPTIDES AND METHODS OF USE - The invention relates to truncated growth factors and variants thereof. The invention also relates to methods of making and using the truncated growth factors. | 08-01-2013 |
20140017785 | Methods for Collecting and Processing Autografts, Processed Autografts, Kits for Collecting and Transporting Autografts, and Tools for Preparing Autografts - The present invention is directed to methods for collecting and processing autografts, processed autografts, kits for collecting and transporting autografts, and tools for preparing autografts. It is also directed to autologous bone grafts, and methods of preparing them. | 01-16-2014 |
20140105951 | SERICIN EXTRACTED FABRICS - Silk is purified to eliminate immunogenic components (particularly sericin) and is used to form fabric that is used to form tissue-supporting prosthetic devices for implantation. The fabrics can carry functional groups, drugs, and other biological reagents. Applications include hernia repair, tissue wall reconstruction, and organ support, such as bladder slings. The silk fibers are arranged in parallel and, optionally, intertwined (e.g., twisted) to form a construct; sericin may be extracted at any point during the formation of the fabric, leaving a construct of silk fibroin fibers having excellent tensile strength and other mechanical properties. | 04-17-2014 |
20140194987 | SILK COVERED BREAST IMPLANT - The present specification provides for methods for purifying fibroins, purified fibroins, methods of conjugating biological and synthetic molecules to fibroins, fibroins conjugated to such molecules, methods of making fibroin hydrogels, fibroin hydrogels and fibroin hydrogel formulations useful for a variety of medical uses, including, without limitation uses as bulking agents, tissue space fillers, templates for tissue reconstruction or regeneration, cell culture scaffolds for tissue engineering and for disease models, surface coating to improve medical device function, or drug delivery devices. | 07-10-2014 |
20140206839 | CROSS LINKED HYALURONIC ACID-SILK AND USES THEREOF - The present specification provides for methods for purifying fibroins, purified fibroins, methods of conjugating biological and synthetic molecules to fibroins, fibroins conjugated to such molecules, methods of making fibroin hydrogels, fibroin hydrogels and fibroin hydrogel formulations useful for a variety of medical uses, including, without limitation uses as bulking agents, tissue space fillers, templates for tissue reconstruction or regeneration, cell culture scaffolds for tissue engineering and for disease models, surface coating to improve medical device function, or drug delivery devices. | 07-24-2014 |
20150064163 | BMP Peptides & Methods of Use - The invention relates to truncated growth factors and variants thereof. The invention also relates to methods of making and using the truncated growth factors. The invention further relates to compositions including a protease and a growth factor comprising a bone morphogenic protein (BMP) or a variant thereof. The invention also relates to methods of using the composition. | 03-05-2015 |