Sentences with phrase «for human mesenchymal stem cells»

In an effort to improve this, we employed an alginate encapsulation strategy for human mesenchymal stem cells (hMSCs) and attached them to the heart with a biocompatible PEG hydrogel patch in a rat MI model.

Morphological and immunocytochemical characteristics indicate the yield of early progenitors and represent a quality control for human mesenchymal stem cell culturing.

It also provides novel insight into human mesenchymal stem cell - heart cell interactions that can guide future experimental studies to understand the mechanisms underlying mesenchymal stem cell therapy for the heart.

«The introduction of mitochondria into damaged cells has beneficial effects on the health of cells and, in the long term, we believe that mesenchymal stem cells could even be engineered to create more effective therapies for lung disease in humans.»

[2] S. Zeitouni et al., «Human mesenchymal stem cell - derived matrices for enhanced osteoregeneration,» Sci Transl Med, 4:132 ra55, 2012.

Human mesenchymal stem cells (hMSCs) are currently the most common adult stem cell type used for cell therapy applications due to their regenerative properties and ability to differentiate into multiple cell lineages (adipocyte, chondro ¬ cyte, and osteocyte).

Human mesenchymal stem cells (hMSCs) have become a popular potential therapy for numerous autoimmune and neurological disorders.

Researchers from the laboratories of Hiroshi Y. Yoshikawa and Hideki Taniguchi had previously demonstrated the in vitro formation of a 3D transplantable liver «organ bud» from human induced pluripotent stem cells (iPSCs) co-cultured with mesenchymal and endothelial progenitors, and allows for the growth of a small vascularized and functional organ [1 - 3].

Allogeneic Mesenchymal Stem Cells Stimulate Cartilage Regeneration and Are Safe for Single - Stage Cartilage Repair in Humans upon Mixture with Recycled Autologous Chondrons.

The self - renewable capacity of these cells, their ability to differentiate into several tissue progenitors (neural, mesenchymal stem cells...), and the possibility to work with mutated cell lines define human stem cells as a good basis for screening compounds libraries in order to discover new potential drugs for monogenic diseases.

Here, authors from Corning Life Sciences describe dissolvable microcarriers as a scalable solution for large - scale expansion and harvest of functional human mesenchymal stem cells by enabling simplified downstream processing and high - yield cell recovery.