Patent application number | Description | Published |
20090130221 | DECELLULARISATION OF TISSUE MATRICES FOR BLADDER IMPLANTATION - The invention provides an improved method of producing a natural, acellular matrix scaffold for subsequent use in tissue-engineered replacement of tissues such as the bladder. Decellularisation is carried out on an expanded or distended bladder and the product retains the strength and compliance of natural material. The invention also provides use of the matrix scaffolds as wound healing material and to investigate tissue structure and function in vitro. | 05-21-2009 |
20100040879 | PEPTIDE-COATED FIBERS - The present invention generally relates to peptide-coated fibers, processes of fabricating said fibers, and articles incorporating said fibers. | 02-18-2010 |
20100040880 | PROCESS FOR FABRICATING PEPTIDE-COATED FIBERS - The present invention generally relates to peptide-coated fibers, processes of fabricating said fibers, and articles incorporating said fibers. | 02-18-2010 |
20100152852 | PREPARATION OF TISSUE FOR MENISCAL IMPLANTATION - The present invention relates to a method of preparing a tissue matrix and its subsequent use in the replacement and/or repair of a damaged or defective meniscus. The invention also provides meniscal tissue that is substantially decellularised. | 06-17-2010 |
20100234304 | BETA SHEET TAPES RIBBONS IN TISSUE ENGINEERING - There is described a material comprising tapes, ribbons, fibrils or fibres characterized in that each of the ribbons, fibrils or fibres have an antiparallel arrangement of peptides in a β-sheet tape-like substructure. | 09-16-2010 |
20130012457 | BETA SHEET TAPES RIBBONS IN TISSUE ENGINEERING - There is described a material comprising tapes, ribbons, fibrils or fibres characterized in that each of the ribbons, fibrils or fibres have an antiparallel arrangement of peptides in a β-sheet tape-like substructure wherein the material comprises a pair of self assembling complementary polypeptides. | 01-10-2013 |
20130197667 | Acellular Vascular Products - A product comprising a natural acellular xenogenic vascular tissue matrix having at least an 80% reduction in DNA content as compared to an untreated control vascular tissue matrix and being antigenically inert by being substantially free of epitopes capable of reacting with pre-formed human antibodies and also without having the ability to substantially activate complement. The invention also includes methods of preparing such products and uses of the products especially in bypass surgery. | 08-01-2013 |
20140044649 | BETA SHEET TAPES RIBBONS IN TISSUE ENGINEERING - There is described a material comprising tapes, ribbons, fibrils or fibres characterized in that each of the ribbons, fibrils or fibres have an antiparallel arrangement of peptides in a β-sheet tape-like substructure. | 02-13-2014 |
20140186313 | BETA SHEET TAPES RIBBONS IN TISSUE ENGINEERING - There is described a material comprising tapes, ribbons, fibrils or fibres characterized in that each of the ribbons, fibrils or fibres have an antiparallel arrangement of peptides in a β-sheet tape-like substructure. | 07-03-2014 |
20150018966 | DECELLULARISATION OF TISSUE MATRICES FOR BLADDER IMPLANTATION - The invention provides an improved method of producing a natural, acellular matrix scaffold for subsequent use in tissue-engineered replacement of tissues such as the bladder. Decellularisation is carried out on an expanded or distended bladder and the product retains the strength and compliance of natural material. The invention also provides use of the matrix scaffolds as wound healing material and to investigate tissue structure and function in vitro. | 01-15-2015 |
20150050359 | DECELLULARISATION OF TISSUE MATRICES FOR BLADDER IMPLANTATION - The invention provides an improved method of producing a natural, acellular matrix scaffold for subsequent use in tissue-engineered replacement of tissues such as the bladder. Decellularisation is carried out on an expanded or distended bladder and the product retains the strength and compliance of natural material. The invention also provides use of the matrix scaffolds as wound healing material and to investigate tissue structure and function in vitro. | 02-19-2015 |