Biomaterials for tissue regeneration and engineering applications and methods of making and use thereof are described, as well as constructs and kits derived from the biomaterials. The biomaterials can be derived from extracellular matrix and functionalized to make them crosslinkable and amenable to tuning of their material properties.

Provided herein are a method of promoting osteogenic differentiation efficiency of a stem cell or of inducing chondrogenic differentiation of a stem cell, comprising treating the stem cell with a culture solution of chicken bone marrow-derived osteochondroprogenitor cells; a method of preventing or treating cartilage damage or a cartilage defect disease comprising administering to a subject in need thereof a composition comprising a differentiation-induced stem cell or differentiated chondrocyte made by said method as an active ingredient; and a method of preventing or treating a bone disease, cartilage damage, or a cartilage defect disease comprising administering to a subject in need thereof, a composition comprising a culture solution or culture concentrate of chicken bone marrow-derived osteochondroprogenitor cells as an active ingredient.

A composition for the treatment of wounds includes demineralized bone fibers (DBF) derived from allogeneic or xenogenic cortical bone and/or polymeric fibers made from resorbable and/or non-resorbable polymer, and the composition may also include an oxygen-generating material and/or an oxygen carrier.

A composition for the treatment of wounds includes demineralized bone fibers (DBF) derived from allogeneic or xenogenic cortical bone and/or polymeric fibers made from resorbable and/or non-resorbable polymer, and the composition may also include an oxygen-generating material and/or an oxygen carrier.

The present invention relates to a method for inducing differentiation, into chondrocytes, of cord blood mononuclear cell-derived induced pluripotent stem cells. In a case where a chondrogenic pellet produced by the method of the present invention is transplanted into a cartilage damage area in vivo, regeneration of cartilage can be effectively exhibited by differentiated chondrocytes. In such a case, an effective cartilage regeneration capacity can be exhibited as compared with a case where chondrocytes produced by differentiation induction with the addition of a recombinant growth factor are transplanted. Thus, the present invention can be usefully used for tissue engineering therapies.

The present invention relates to a method for inducing differentiation, into chondrocytes, of cord blood mononuclear cell-derived induced pluripotent stem cells. In a case where a chondrogenic pellet produced by the method of the present invention is transplanted into a cartilage damage area in vivo, regeneration of cartilage can be effectively exhibited by differentiated chondrocytes. In such a case, an effective cartilage regeneration capacity can be exhibited as compared with a case where chondrocytes produced by differentiation induction with the addition of a recombinant growth factor are transplanted. Thus, the present invention can be usefully used for tissue engineering therapies.

The present invention relates to stem cells derived from villi adjacent to the chorionic plate (VCP), and a cell therapeutic agent comprising same. Stem cells derived from the tissue of VCP comprising, of the total villi, the region that is ⅓ of the distance from the area adjacent to the chorionic plate up to the villus distal part, and the basal region of the villi, according to the present invention, exhibit uniform growth characteristics, and proliferation characteristics superior to those of stem cells derived from other placental tissue, and exhibit remarkably excellent differentiation into cartilage, bone and fat, thereby being effectively usable in various tissue regeneration treatments requiring the regeneration of cartilage, bone and fat, and, particularly, in cartilage regeneration and osteoarthritis treatment.

The present invention relates to stem cells derived from villi adjacent to the chorionic plate (VCP), and a cell therapeutic agent comprising same. Stem cells derived from the tissue of VCP comprising, of the total villi, the region that is ⅓ of the distance from the area adjacent to the chorionic plate up to the villus distal part, and the basal region of the villi, according to the present invention, exhibit uniform growth characteristics, and proliferation characteristics superior to those of stem cells derived from other placental tissue, and exhibit remarkably excellent differentiation into cartilage, bone and fat, thereby being effectively usable in various tissue regeneration treatments requiring the regeneration of cartilage, bone and fat, and, particularly, in cartilage regeneration and osteoarthritis treatment.

The present invention relates to a method for preparing an induced pluripotent stem cell line from mesenchymal stem cells; and an induced pluripotent stem cell line (deposit number: KCLRF-BP-00318) obtained thereby. Specifically, the method for preparing an induced pluripotent stem cell line, of the present invention, comprises the steps of: (a) obtaining mesenchymal stem cells from a human umbilical cord; (b) forming, from the mesenchymal stem cells, a colony with a medium for dedifferentiation containing an Ecklonia cava extract; and (c) obtaining an induced pluripotent stem cell line by sub-culturing the colony. The induced pluripotent stem cell line according to the present invention was first established by the present inventors, and the pluripotent stem cell line of the present invention can be differentiated into various cells and can treat various diseases or disorders through cell transplant therapy.

The present invention relates to a method for preparing an induced pluripotent stem cell line from mesenchymal stem cells; and an induced pluripotent stem cell line (deposit number: KCLRF-BP-00318) obtained thereby. Specifically, the method for preparing an induced pluripotent stem cell line, of the present invention, comprises the steps of: (a) obtaining mesenchymal stem cells from a human umbilical cord; (b) forming, from the mesenchymal stem cells, a colony with a medium for dedifferentiation containing an Ecklonia cava extract; and (c) obtaining an induced pluripotent stem cell line by sub-culturing the colony. The induced pluripotent stem cell line according to the present invention was first established by the present inventors, and the pluripotent stem cell line of the present invention can be differentiated into various cells and can treat various diseases or disorders through cell transplant therapy.