Abstract: The claimed invention relates to treatment of virus-related respiratory distress, particularly methods for treating such distress by administering a complement inhibitor. The types of virus-related respiratory distress that can be treated according to the invention include acute respiratory distress syndrome and related phenomena, and can be linked to infection by a coronavirus such as SARS-CoV-2. The invention includes administering complement inhibitor, which can be recombinant or purified C1 inhibitor, and administering complement inhibitor in combination with other therapeutics.

Abstract: The claimed invention relates to treatment of virus-related respiratory distress, particularly methods for treating such distress by administering a complement inhibitor. The types of virus-related respiratory distress that can be treated according to the invention include acute respiratory distress syndrome and related phenomena, and can be linked to infection by a coronavirus such as SARS-CoV-2. The invention includes administering complement inhibitor, which can be recombinant or purified Cl inhibitor, and administering complement inhibitor in combination with other therapeutics.

Abstract: The present invention relates to the field of medicine, specifically to the prevention and treatment of pre-eclampsia.

Abstract: The present invention relates to a method for the effective treatment of tissue defects and for tissue regeneration. The method includes seeding autologous cells on a support matrix and implanting the cell-seeded support matrix into a site of transplantation. The present invention also relates to various tissue repair structures that include cells seeded onto a cell-free membrane. The present invention also provides methods for cultivation, seeding, and implantation of autologous cells.

Abstract: The present invention relates to a method for the effective treatment of tissue defects and for tissue regeneration. The method includes seeding autologous cells on a support matrix and implanting the cell-seeded support matrix into a site of transplantation. The present invention also relates to various tissue repair structures that include cells seeded onto a cell-free membrane. The present invention also provides methods for cultivation, seeding, and implantation of autologous cells.

Abstract: The present invention relates to a method for the effective treatment of tissue defects and for tissue regeneration. The method includes seeding autologous cells on a support matrix and implanting the cell-seeded support matrix into a site of transplantation. The present invention also relates to various tissue repair structures that include cells seeded onto a cell-free membrane. The present invention also provides methods for cultivation, seeding, and implantation of autologous cells.

Abstract: The present invention relates to a flowable implantable composition comprising a support material, such as various forms of collagen or alginate beads or threads, which can support the attachment and growth of chondrocyte cells thereto, ad a method of making a flowable implantable composition comprising a support material and chondrocytes retained thereon. Further, the present invention relates to a method for the effective treatment of articulating joint surface cartilage by the transplantation of a flowable composition including a support material and chondrocyte cells retained thereon.

Abstract: A reinforced matrix membrane containing one or more scaffold-forming proteins suitable for cell growth and for use in chondrocyte cell transplantation, and method of making same. The scaffold is incubated with the collagen matrix in solutions, colloidal dispersions, or suspensions of stabilizing proteins. The reinforced matrix may be used in tissue engineering, cartilage transplantation, bone and cartilage grafting, healing, joint repair and the prevention of arthritic pathologies.

Abstract: An implantable article for cartilage repair by implantation in an animal. The implantable article includes a support matrix, and chondrocyte cells and a bio-compatible adhesive adhered to an edge of the support matrix, wherein the support matrix is absorbable by the animal. The support matrix is a biocompatible material such as collagen, and the adhesive is autologous fibrin.

Abstract: An implantable article for cartilage repair by implantation in an animal. The implantable article includes a support matrix, and chondrocyte cells and a bio-compatible adhesive adhered to an edge of the support matrix, wherein the support matrix is absorbable by the animal. The support matrix is a biocompatible material such as collagen, and the adhesive is autologous fibrin.

Abstract: A seeded tear resistant scaffold comprising a biocompatible, tear resistant substrate, a biocompatible biodegradable material and optionally cells.

Abstract: The present invention describes various support matrices to which cells can adhere and proliferate. Such support matrices are useful for implantation in a wound site to promote healing and regeneration of damaged tissue. The present invention further describes an article including a membrane having at least one layer having a porous surface and also including submucosal intestine tissue, and cells adhered to the layer. The present invention further describes that the cells adhered to the layer include chondrocyte cells.

Abstract: The present invention discloses a bioreactor apparatus with an expandable surface area which is useful for culturing cells. A method for culturing cells is also included in the invention. The method comprises providing a container and a carrier adjacent the container, wherein the container includes an inflow and an outflow, and wherein the carrier includes an expandable surface area; supplying cells through an inflow to the carrier, wherein said cells will adhere to the carrier and proliferate; and continually supplying nutrients through the inflow of the container. A device for culturing cells comprising a carrier including an expandable surface area upon which to culture the cells is also included in the present invention.

Abstract: The present invention provides a method for the effective treatment of articulating joint surface cartilage in an animal by the transplantation of an implantable article including chondrocyte cells retained to an absorbable support matrix. The present invention is also directed to an instrument for placing and manipulating the implantable article at the site of implantation, and a retention device for securing the implantable article to the site of implantation. The present invention is also directed to an implantable article for cartilage repair in an animal, the implantable article including chondrocyte cells retained on an absorbable support matrix, and a method of making same. This invention also encompasses, in general, an article comprising an absorbable flexible support matrix for living cells grown and adhered thereto.

Abstract: A method for the effective treatment of articulating joint surface cartilage in an animal by the transplantation of an implantable article including chondrocyte cells retained to an absorbable support matrix. An instrument for placing and manipulating the implantable article at the site of implantation, and a retention device for securing the implantable article to the site of implantation. An implantable article for cartilage repair in an animal, the implantable article including chondrocyte cells retained on an absorbable support matrix, and a method of making same. An article comprising an absorbable flexible support matrix for living cells grown and adhered thereto.

Abstract: The present invention relates to a method for the effective treatment of tissue defects and for tissue regeneration. The method includes seeding autologous cells on a support matrix and implanting the cell-seeded support matrix into a site of transplantation. The present invention also relates to various tissue repair structures that include cells seeded onto a cell-free membrane. The present invention also provides methods for cultivation, seeding, and implantation of autologous cells.

Abstract: An implantable article for cartilage repair by implantation in an animal. The implantable article includes a support matrix, and chondrocyte cells and a bio-compatible adhesive adhered to an edge of the support matrix, wherein the support matrix is absorbable by the animal. The support matrix is a biocompatible material such as collagen, and the adhesive is autologous fibrin.

Abstract: A biocompatible, resorbable Type II collagen-based matrix is reconstituted from solubilized animal cartilage tissue and used in the culture and growth of cells, such as chondrocyte cells. The matrix is produced by isolating cartilage tissue, solubilizing and reconstituting the cartilage to form a fleece-like material, pressing the fleece-like material to form a sheet-like article, and sterilizing the article. An implantable article for cartilage repair includes chondrocyte cells retained on the matrix.

Abstract: An implantable article for cartilage repair by implantation in an animal. The implantable article includes a support matrix, and chondrocyte cells and a bio-compatible adhesive adhered to an edge of the support matrix, wherein the support matrix is absorbable by the animal. The support matrix is a biocompatible material such as collagen, and the adhesive is autologous fibrin.

Abstract: A reinforced matrix membrane containing one or more scaffold-forming proteins suitable for cell growth and for use in chondrocyte cell transplantation, and method of making same. The scaffold is incubated with the collagen matrix in solutions, colloidal dispersions, or suspensions of stabilizing proteins. The reinforced matrix may be used in tissue engineering, cartilage transplantation, bone and cartilage grafting, healing, joint repair and the prevention of arthritic pathologies.