The present invention relates to improvement of the yield of skin-derived pluripotent precursor cells in induction of differentiation of stem cells to skin-derived pluripotent precursor cells. The present invention provides a method for preparing skin-derived pluripotent precursor cell comprising culturing a neural crest stem cells in the presence of at least one selected from the group consisting of laminin and a fragment thereof to differentiate the cells to skin-derived pluripotent precursor cells, wherein the laminin is at least one selected from the group consisting of laminin 111, laminin 121, laminin 332, laminin 421, laminin 511, laminin 521, and a variant thereof.

The purpose of the present invention is to provide (i) a method for maintaining or enhancing the activity of a cell mass separated from an epithelial tissue; (ii) a method for increasing the proliferation ability of cells in an epithelial tissue; (iii) a method for producing a cell mass employing these methods; (iv) a pharmaceutical composition containing the cell mass; and, (v) a method for treating a disease using the cell mass. The purpose is fulfilled by culturing a cell mass separated from an epithelial tissue or an epithelial tissue with a thermoreversible polymer.

Methods are disclosed for treating an acute respiratory distress syndrome, such as an acute respiratory distress syndrome associated with a viral infection, such as SARS-CoV2 (COVID-19) in a subject in need thereof. These methods include administering to the subject a pharmaceutical preparation comprising isolated matrix bound vesicles (MBV) derived from extracellular matrix.

The present invention provides a composition for kidney treatment using the omentum, a medical kit for kidney treatment including the composition for kidney treatment using the omentum, and a film for kidney treatment including a cured product of the composition for kidney treatment using the omentum.

The present invention provides a composition for kidney treatment using the omentum, a medical kit for kidney treatment including the composition for kidney treatment using the omentum, and a film for kidney treatment including a cured product of the composition for kidney treatment using the omentum.

The present application provides methods of functionalizing an organ or tissue of a mammal by administering a nutrient (e.g., peracetylated N-azido galactosamine Ac4GalNAz) to the mammal or by culturing an organ or tissue in a bioreactor containing such nutrient. The present application also provides methods of selectively functionalizing extracellular matrix (ECM) of an organ or tissue of a mammal by administering a nutrient (e.g., peracetylated N-azido galactosamine Ac4GalNAz) to the mammal. In some aspects, the present application provides a decellularized scaffold of a mammalian organ or tissue comprising an extracellular matrix, wherein the extracellular matrix of the decellularized scaffold is functionalized with a chemical group that is reactive in a bioorthogonal chemical reaction, such as an azide chemical group. The present application also provides biological prosthetic mesh and mammalian organs and tissues for transplantation prepared according to the methods of the application.

The present application provides methods of functionalizing an organ or tissue of a mammal by administering a nutrient (e.g., peracetylated N-azido galactosamine Ac4GalNAz) to the mammal or by culturing an organ or tissue in a bioreactor containing such nutrient. The present application also provides methods of selectively functionalizing extracellular matrix (ECM) of an organ or tissue of a mammal by administering a nutrient (e.g., peracetylated N-azido galactosamine Ac4GalNAz) to the mammal. In some aspects, the present application provides a decellularized scaffold of a mammalian organ or tissue comprising an extracellular matrix, wherein the extracellular matrix of the decellularized scaffold is functionalized with a chemical group that is reactive in a bioorthogonal chemical reaction, such as an azide chemical group. The present application also provides biological prosthetic mesh and mammalian organs and tissues for transplantation prepared according to the methods of the application.

A tissue graft for soft tissue repair or reconstruction comprising a sheet of a biopolymer-based matrix having a plurality of small perforations and a plurality of large perforations. The small perforations are sized to facilitate clotting and granulation tissue development within the perforations which, in turn, facilitates revascularization and cell repopulation in the patient. The large perforations are sized to reduce the occurrence of clotting and granulation tissue development within the perforations so that extravascular tissue fluids accumulating at the implant site can drain through the tissue graft. The large perforations enhance mammal tissue anchoring by permitting mammal tissue to compress into the perforations increasing mammal tissue contact area.

A tissue graft for soft tissue repair or reconstruction comprising a sheet of a biopolymer-based matrix having a plurality of small perforations and a plurality of large perforations. The small perforations are sized to facilitate clotting and granulation tissue development within the perforations which, in turn, facilitates revascularization and cell repopulation in the patient. The large perforations are sized to reduce the occurrence of clotting and granulation tissue development within the perforations so that extravascular tissue fluids accumulating at the implant site can drain through the tissue graft. The large perforations enhance mammal tissue anchoring by permitting mammal tissue to compress into the perforations increasing mammal tissue contact area.

The present disclosure relates to tissue matrix products. The products can includes tissue matrices that have holes or perforations located at certain positions to improve certain in vivo functions without substantial loss of strength or other important properties.