The present invention relates to a tissue adhesion agent having improved bio-tissue adhesiveness and bonding force by utilizing an adhesion-related gene. More specifically, a cartilage tissue adhesion composition prepared from fetal cartilage tissue-derived stem cells in which VCAN, CTGF, or EXT1 is inserted and expressed in an upregulated manner was found to show a remarkably superb adhesive force, compared to that prepared from fetal cartilage tissue-derived stem cells in which none of the genes are inserted. Accordingly, the cell composition in which the expression of VCAN, CTGF, or EXT1 is upregulated can be prepared into a tissue adhesion composition having improved bio-tissue adhesiveness and bonding force and VCAN, CTGF, or EXT1 can be provided as an additive composition for a tissue adhesion agent.

Provided herein are systems and methods for preserving and transporting tissues for transplantation. In particular, tissue to be implanted is encapsulated in an alginate gel, which is exposed to culture medium to improve cell viability and suppress inflammatory factors during long-term storage and transport.

A method for purifying and enriching mesenchymal stem cells (MSCs) simply and efficiently. Separation of cells expressing CD73 protein on the surface from fresh tissue isolated from a living body allows purification and enrichment of MSCs easily and efficiently. MSCs may be selectively isolated with a single antibody before culturing to establish a culture system of mesenchymal stem cells that enhances the engraftment efficiency in the transplanted site.

The present invention provides a method for evaluating effectiveness of a cell therapeutic agent. When using TGF-β and/or TSP-1 expression level(s) in: (a) a first population of transformed mammalian cells with TGF-β; and (b) a second population of untransformed mammalian cells with the same gene, respectively, as a criterion for determining effectiveness of a cell therapeutic agent, and whether or not expression thereof, it is possible to definitely determine the therapeutic efficacy of each cell therapeutic agent prior to initiation of the treatment. In addition, since use of a cell therapeutic agent without therapeutic effects is avoided, undesired procedures and side effects may not be entailed.

The purpose of the present invention is to provide a chondrocyte culture with high tissue regeneration ability. This purpose is met by a method involving a step in which a cell population separated from cartilage tissue is cultured on a thermoreversible polymer.

It is provided a method of producing high-quality engineered cartilage graft in a human of animal, such as nasal cartilage graft, comprising expanding chondrocytes and/or chondroprogenitors, e.g. autologous human nasoseptal chondrocytes (hNC,) from a donor patient by selecting expanded chondrocytes and/or chondroprogenitors by detecting the expression of at least one surfaceome protein gene or secretome protein gene, wherein the at least one surfaceome protein gene is ADGRG1, NPR3, SLC16A4, TSPAN13, FZD4 and SLC22A23 and the at least one secretome protein gene is ADGRG1, B3GNT7, COLGALT2, IGFBP3, STC2, SAA1, ANGPLT1, COL8A2, INHBB, ADAMTS9, ORM1, COL14A1, DCN, COL21A1, ENOX1, IL7, MXRA5 GAL, TFRC, SERPINA9, LIF, GDF6 and COL5A3.

The application provides biocompatible carriers comprising bone forming and/or cartilage forming cells and methods for making them. The application further provides pharmaceutical compositions comprising said ATMPs and method of treatments using said ATMPs. The application further relates to said ATMPS for use in the treatment of bone disorders, cartilage disorders and joint disorders. The current invention further relates to method of treatments of bone disorders, cartilage disorders and joint disorders.

A cell medium for in vitro inducing chondrogenesis or tenogenesis in mesenchymal stem cells (MSCs). The medium is a glucose medium supplemented with at least one growth factor is chosen from the group of fibroblast growth factors (FGF) or the group of transforming growth factors (TGF), and the FGF or TGF is present in a total concentration of between 1 and 15 ng/ml. In both cases, IGF can be added to enhance the induction process. The use of the cell medium, a method for inducing isolated mesenchymal stem cells (MSCs) and a cell composition obtained by the method are also provided.

A method is provided for producing a live cartilaginous material useful for implantation into a patient. A method of treating a patient comprising implanting a cartilaginous material prepared according to the provided method in an anatomical site in a patient also is provided.

The present invention provides a cell culture having a cartilage-like tissue forming property, including a cell population in which the expression intensity of at least one cell surface marker selected from the group consisting of CD166, CD165, CD99, GD2, STRO-1, CD108, CD164, CD6, CD106, and CD107b is not higher than the threshold for each cell surface marker, and/or, the expression intensity of at least one cell surface marker selected from the group consisting of CD26, CD73, CD105, CD44, CD120a, CD201, EGFR, CD146, CD140a, and CD90 is not lower than the threshold for each cell surface marker.