The present invention relates to the area of in vitro cell populations useful for generating vascular networks in vitro and are suitable for use in vivo for regeneration of vascular tissue. In some embodiments, the bipotent cell population of the present invention comprise endothelial cells and pericytes that express vascular endothelial cadherin and are 95% or more positive for CD105 and CD146, and which work syergistically to recreate vascular tissues in vitro.

A 3D decellularized bone scaffold seeded with cancer cells, such as prostate cancer cells or Ewing's sarcoma is provided. The three-dimensional includes Ewing's sarcoma (ES) tumor cells; and an engineered human bone scaffold. The engineered human bone scaffold further includes osteoblasts that secrete substance of the human bone, and osteoclasts that absorb bone tissue during growth and healing. The engineered human bone scaffold includes the tissue engineered three-dimensional model which recapitulates the osteolytic process. The engineered human bone scaffold is engineered by co-culturing of osteoblasts and osteoclasts. The osteoblast is produced by cell differentiation process from mesenchymal stem cells. The osteoclast is produced by cell differentiation from human monocytes, wherein the human monocytes are isolated from buffy coats. The scaffold can be used with cancer cell lines to identify therapeutic targets to slow, stop, and reverse tumor growth and progression as well as to predict the efficacy of potential therapeutics.

Methods and compositions for promoting donor-specific tolerance and immunocompetence to a recipient of a solid organ transplant, by implanting an allogeneic solid organ in a recipient in need of a solid organ transplant and further comprising surgical implantation of a tissue-engineered allogeneic cultured postnatal thymus tissue product in the recipient of a solid organ from a donor.

Methods of producing an allogeneic cultured postnatal thymus tissue-derived product suitable for implantation into a human; methods of culturing allogeneic cultured postnatal thymus tissue-derived product suitable for implantation into a human and methods of using allogeneic cultured postnatal thymus tissue-derived product by implantation in a human subject.

A collagen-fibronectin-based method enables the production of tumors of centimeter size with recognizable pathological traits. The method supports reproducing tumor heterogeneity with preinvasive and invasive phenotypes and stacking of tumor portions using a paper-scaffold with 80 m-punched holes for larger nodule creation and easy separation of tumor portions for analysis. Macrotumors are convenient for testing drug delivery and therapeutic tools that necessitate a minimum tumor size relevant to in vivo.

Methods of preventing or treating neurogenic shock are provided. Accordingly there is provided a method of treating neurogenic shock following nerve injury in a subject comprising implanting a composition comprising a hyaluronic acid, a laminin polypeptide and an antioxidant, at or near the nerve injury of the subject. Also provided is a method of preventing or treating neurogenic shock following nerve injury in a subject comprising implanting within 48 hours following the nerve injury a composition comprising a hyaluronic acid, a laminin polypeptide and an antioxidant, at or near the nerve injury of the subject.

Aspects of the present invention include methods and compositions related to the production and use of clonal lineages of embryonic progenitor cell lines derived from differentiating cultures of primordial stem cells, in particular, said methods and compositions relate to methods of differentiating cells in the presence of members of the BMP family of growth factors and the applications of said cell lines in the treatment of degenerative orthopedic diseases such as osteoarthritis.

Provided is a hair growth-promoting composition comprising: 100 parts by weight of a stem cell culture solution obtained from a culture medium of mesenchymal stem cells which have been subcultured two or more times; 0.001 to 0.1 parts by weight of zinc; 5 to 50 parts by weight of a panthenol based compound; and 0.0001 to 0.1 parts by weight of a water-soluble vitamin, wherein it is sprayed or applied on the scalp to promote hair growth. Said hair growth-promoting composition may have an excellent effect and improve economical efficiency in treating alopecia due to a simple delivery method of the composition.

Provided are live, artificial, skin substitute products and methods of making and using the same, such as for wound treatment and compound testing, including compound testing for efficacy, toxicity, penetration, irritation and/or metabolism testing of drug candidates or compositions such as cosmetics.

Improved hybrid neurovascular spheroids and methods for making the same are provided. In some embodiments of a method for making a hybrid neurovascular spheroid, the method includes i) propagating cortical cells to form a cortical spheroid; ii) propagating endothelial cells to form an endothelial spheroid; iii) propagating mesenchymal stem cells to form a mesenchymal cell culture; and iv) combining the cortical spheroid, endothelial spheroid, and mesenchymal spheroid under conditions to form the hybrid neurovascular spheroid.

Described are methods for producing tissue constructs, tissue constructs produced by the methods, and their use. The described method of producing a tissue construct comprises providing a granular tissue, depositing one or more filaments on or in the granular tissue, each filament comprising an ink, and gelling or fusing the granular tissue, thereby producing the tissue construct.