Methods for improved handling of isolated canine umbilical cord mesenchymal stromal cells (UC-MSCs), including methods for expansion of canine UC-MSCs, cryopreservation and improved post-thaw viability using adherent plates, as well as standardized methods and kits for characterizing isolated canine UC-MSCs in a cell population. Methods for improved detachment or dissociation of adherent cells and new dissociation reagents comprising nattokinase are also disclosed.

The purpose of the present invention is to provide a novel medical application of pluripotent stem cells (muse cells) in regeneration medicine. The present invention provides a cell preparation and a pharmaceutical composition which are for amelioration and treatment of brain disorders resulting from fetal growth retardation, such as abnormal motor quality or abnormal neurological development, and which contain SSEA-3 positive pluripotent stem cells isolated from a mesenchymal tissue from a live body or cultured mesenchymal cells. It is assumed that this cell preparation is based on a mechanism where muse cells that are administered to objects having the disorders are engrafted on an impaired brain tissue, thereby ameliorating or treating the disorders.

A method for enhancing an expression of insulin like growth factor 1 receptor in an umbilical cord mesenchymal stem cell is provided. The method includes culturing the umbilical cord mesenchymal stem cell expressing insulin-like growth factor 1 receptor in a medium containing platelet-derived growth factor BB (PDGF-BB) to enhance the expression of insulin like growth factor 1 receptor in the umbilical cord mesenchymal stem cell.

The present disclosure provides a pharmaceutical composition for treating Alzheimer's disease and use thereof, the pharmaceutical composition containing, as an active ingredient, stem cells (SC) having high adaptability under hypoxic conditions. Particularly, the present disclosure discloses a pharmaceutical composition for alleviating or treating the symptoms of Alzheimer's disease, the pharmaceutical composition containing, as an active ingredient, mesenchymal stem cells (MSC) which have high adaptability or viability in hypoxic environments and comprise one or more knock-out HIF1AN genes.

The invention discloses means of treating lung degenerative diseases including chronic obstructive pulmonary disease (CODP) using umbilical cord mesenchymal stem cells such as JadiCells alone, and/or using said cells under conditions that are activated in order to endow enhanced regenerative activity. In one embodiment said activation of said mesenchymal stem cells is performed through stimulation with a toll like receptor agonist at a concentration and duration sufficient to induce a >50% increase in keratinocyte growth factor expression from said stem cells. In another embodiment the invention provides the use of JadiCells as a means of producing exosomes, wherein said exosomes possess therapeutic properties capable of reducing inflammation, fibrosis and degeneration associated with COPD, as well as stimulation of regenerative activity. In some JadiCells are activated by a treatment with Activated Protein C.

The present invention relates to the anti-fibrosis agent containing a mesenchymal stem cell-derived extracellular vesicle, as an active ingredient, in which an extracellular vesicle is obtained by a method of using a substance that contains an extracellular vesicle having an affinity for phosphatidylserine, or/and an extracellular vesicle is derived from a mesenchymal stem cell stimulated with fibroblast growth factor, and relates to a method of producing an extracellular vesicle as the anti-fibrosis agent.

Novel isolated stem cells derived from pre-term placental tissue and compositions comprising the stem cells are provided as well as use of the compositions for therapy, research and diagnosis. The cells and compositions are useful in treating Myelomeningocele (MCC), spina bifida (SB) or spinal cord injury or paralysis.

The present invention relates to the angiogenesis agent containing a mesenchymal stem cell-derived extracellular vesicle, as an active ingredient, in which an extracellular vesicle is obtained by a method of using a substance that contains an extracellular vesicle having an affinity for phosphatidylserine, or/and an extracellular vesicle is derived from a mesenchymal stem cell stimulated with a growth factor, and relates to a method of producing an extracellular vesicle as the angiogenesis agent.

A decidual placental mesenchymal stem cell and its culturing method are provided, which includes adding an induction step to the conventional mesenchymal stem cell culture method to make the said decidual placental mesenchymal stem cell highly express the decoy receptor 3; DcR3. A use of decidual placental mesenchymal stem cells for preparing pharmaceutical compositions for promoting angiogenesis.

The present method relates to methods of expanding or increasing stem cell production obtained from donor samples. The methods preferably including the steps of harvesting cells from minimally manipulated tissue using multiply harvesting cycles to increase the number of obtained stem cells.