Vitronectin-derived cell culture substrates and methods of using the same for culturing pluripotent stem cells are presented. Also provided herein are defined culture systems for maintaining human pluripotent stem cells in a substantially undifferentiated state, where the defined culture system comprises human pluripotent stem cells, a defined culture medium, and at least one polypeptide selected from the group consisting of residues 43 to 378 of SEQ ID NO:1 and residues 45 to 378 of SEQ ID NO:1, and where the defined culture medium comprises insulin, selenium, transferrin, L-ascorbic acid, FGF2, DMEM/F12, NaHCO.sub.3, and one of TGFβ and NODAL.

Articles and methods for stem cell differentiation are generally described. In some embodiments, an article for stem cell differentiation may comprise an oxygen permeable substrate having at least a portion of a surface coated with a matrix. The matrix may allow the surface chemistry of the substrate to be altered, such that the cell-substrate surface interactions may be finely controlled without substantially affecting the oxygen permeability of the substrate. The surface chemistry may be altered to promote directed stem cell differentiation by, e.g., modification of the matrix surface with a specific density of biological molecules. In some embodiments, methods for stem cell differentiation may comprise directing the differentiation of stem cells on the articles, described herein, under suitable environmental conditions. Articles and methods, described herein, may be free of xenogeneic components and particularly well-suited for applications involving the differentiation of human stem cells into specific lineages.

Platforms comprising at least one lymphocyte affecting molecule and at least one molecular complex that, when bound to an antigen, engages a unique clonotypic lymphocyte receptor can be used to induce and expand therapeutically useful numbers of specific lymphocyte populations. Antigen presenting platforms comprising a T cell affecting molecule and an antigen presenting complex can induce and expand antigen-specific T cells in the presence of relevant peptides, providing reproducible and economical methods for generating therapeutic numbers of such cells. Antibody inducing platforms comprising a B cell affecting molecule and a molecular complex that engages MHC-antigen complexes on a B cell surface can be used to induce and expand B cells that produce antibodies with particular specificities.

Platelet lysate compositions and cell culture media compositions for maintaining and/or growing mammalian cells, such as mammalian endothelial cells (ECs) and mammalian endothelial progenitor cells (EPCs), in particular human ECs (huECs) and human EPCs (huEPCs), such as primary huECs and primary huEPCs, are provided. The cell culture media compositions contain a basal medium, a platelet lysate and, optionally, one or more exogenously added growth factors. Also provided are methods for making and using such cell culture media compositions to grow and/or maintain ECs and EPCs, including huECs and huEPCs, as well as cell culture vessels, dishes, plates, and/or flasks pretreated with the cell culture media compositions.

A system and method for growing and maintaining biological material including producing a protein associated with the tissue, selecting cells associated with the tissue, expanding the cells, creating at least one tissue bio-ink including the expanded cells, printing the at least one tissue bio-ink in at least one tissue growth medium mixture, growing the tissue from the printed at least one tissue bio-ink, and maintaining viability of the tissue.

Provided is a resin film formed of a cell culture scaffold material, which has excellent fixation of cells after seeding and is capable of enhancing proliferation rate of cells. A resin film formed of a cell culture scaffold material, in which the cell culture scaffold material contains a synthetic resin, and the resin film has phase-separated structure including least a first phase and a second phase, and a ratio of the surface area of one of the first phase and the second phase to the entire surface is 0.01 or more and 0.95 or less.

The present invention relates to hydrogels prepared using silylated organic molecules (such as silylated biomolecules), a process for obtaining the same, and uses thereof.

A system and method for growing and maintaining biological material including producing a protein associated with the tissue, selecting cells associated with the tissue, expanding the cells, creating at least one tissue bio-ink including the expanded cells, printing the at least one tissue bio-ink in at least one tissue growth medium mixture, growing the tissue from the printed at least one tissue bio-ink, and maintaining viability of the tissue.

Disclosed herein is a cell culture surface, comprising: a polymer material comprising an acrylate functional group; and one or more functional compounds comprising one or more functional moieties, at least one moiety from the one or more functional moieties configured to adhere to animal cells; wherein the cell culture surface has a compressive modulus between 10 kPa to 1000 kPa. Also disclosed herein are systems and methods for making and using the same.

Cells derived from postpartum tissue and methods for their isolation and induction to differentiate to cells of a chondrogenic or osteogenic phenotype are provided by the invention. The invention further provides cultures and compositions of the postpartum-derived cells and products related thereto. The postpartum-derived cells of the invention and products related thereto have a plethora of uses, including but not limited to research, diagnostic, and therapeutic applications, for example, in the treatment of bone and cartilage conditions.