The present invention pertains to a strategy of selectively targeting oncolytic virotherapy, using either naturally occurring or genetically modified viruses by packaging them in mesenchymal stem cells (MSCs). The present invention concerns MSCs, compositions comprising the MSCs, and methods of using the MSCs for treatment of cancer and for lysing or inducing apoptosis of cancer cells in vitro or in vivo.

Disclosed is a producing method of a mesenchymal stem cell for brain neuronal disease prevention or treatment including ghrelin treatment, a composition for producing a mesenchymal stem cell for brain neuronal disease prevention or treatment, a mesenchymal stem cell produced by the producing method, and a pharmaceutical composition for prevention or treatment of brain neuronal disease containing the same. When using the producing method of the mesenchymal stem cells with the increased AgRP (Agouti related peptide) expression level according to the present disclosure, the mesenchymal stem cells produced by the method, or ghrelin, various brain neuronal diseases such as Alzheimer's disease may be effectively prevented or treated. When the composition for producing the mesenchymal stem cells with the increased AgRP expression level containing ghrelin according to the present disclosure is used, the mesenchymal stem cells with the increased AgRP expression level may be effectively produced.

Use of an inducible extracellular vesicle as a medicament for skin, health care products or skin care products. A composition, comprising the inducible vesicle and the medicaments or care products for skin.

Embodiments disclosed herein relate scaffolds containing fluoridated apatites sintered at a temperature of at least 950° C. and with at least one integration aid to increase integration of the scaffold in a patient, as well as methods of making and using the same.

Culture media capable of promoting differentiation of pluripotent stem cells (PSCs) into mesenchymal stem cells (MSCs) or supporting expansion of MSCs is provided. Methods of differentiation of PSCs into MSCs are provided. Methods of expanding MSCs without differentiation are also provided.

The invention provides culture platforms, cell media, and methods of differentiating pluriptent cells into hematopoietic cells. The invention further provides pluripotent stem cell-derived hematopoietic cells generated using the culture platforms and methods disclosed herein, which enable feed-free, monolayer culturing and in the absence of EB formation. Specifically, pluripotent stem cell-derived hematopoietic cell of this invention include, and not limited to, iHSC, definitive hemogenic endothelium, hematopoietic multipotent progenitors, T cell progenitors, NK cell progenitors, T cells, and NK cells.

Embodiments described herein generally provide for the expansion of cells in a cell expansion system using an active promotion of a coating agent(s) to a cell growth surface in some embodiments. A coating agent may be applied to a surface, such as the cell growth surface of a hollow fiber in a bioreactor, by controlling the movement of a fluid in which a coating agent is suspended, by changing flow rates, by changing flow directions, by rotation of the bioreactor, and/or combinations thereof.

A cardiovascular graft is provided, such as a prosthetic heart valve or blood vessel, that comprises mesenchymal stem cells (MSCs) and/or progeny thereof, modified to knock down or knockout expression of the telomerases reverse transcriptase gene (TERT), or otherwise reduce activity of TERT. Also provided are a method of making the cardiovascular graft, and a method of implanting the cardiovascular graft.

The present disclosure relates to methods for preventing progressive heart failure in subjects with persistent left ventricular (LV) dysfunction. Such methods may also be used for treating or preventing progressive heart failure in subjects with a proximal left anterior descending (LAD) lesion and persistent left ventricular dysfunction.

The invention provides a bioactive substance composition, a serum-free medium comprising the composition and the uses thereof. The bioactive substance composition is used for serum-free medium and/or composition and the preparation thereof; The serum-free medium and/or composition can be used for primary culture and secondary culture of cells and/or tissues. The cells are selected from any one or more of tendon and/or ligament derived cells, chondrocytes, meniscus stem cells, mesenchymal stem cells, skeleton stem cells, and muscle stem cells. The tissue is the musculoskeletal system tissue. The bioactive substance composition and/or serum-free medium and/or the composition can be used to prepare drugs for tissue and/or organ injury treatment; The tissue or organ injury is selected from the tissue or organ injury of the musculoskeletal system.