Bone-marrow-derived multipotent progenitor stromal cells ... human conditions, which indicates that MSCs might be a new strategy for the treatment of immune-mediated diseases. Mesenchymal stem ...

Mesenchymal stem cells are multipotent adult stem cells that are present in multiple tissues, including umbilical cord, bone marrow and fat tissue. Mesenchymal stem cells can self-renew by ...

Professor Susan Kimber is an advocate for the use of human stem cells in research as a way to reduce our reliance on animals. Her work focuses on using stem cells to understand human development and ...

where the nuclei of human cells are inserted into animal eggs. The resulting embryos would be kept for up to 14 days to harvest stem cells. In the present state of science, hybrid embryos are ...

Human induced Pluripotent Stem Cells (hiPSCs ... researchers to observe how brain cells function and interact in living systems instead of relying on animal models or postmortem brain tissue.

Get Instant Summarized Text (Gist) A population of human neural retinal stem-like cells has been identified, capable of regenerating retinal tissue and supporting visual recovery. These cells ...

Belgium Recruiting Mesenchymal Stem Cells in Multiple Sclerosis (MSCIMS) Multiple sclerosis BM-derived autologous MCS University of Cambridge, U.K. Not yet recruiting Prochymal Adult Human ...

Stem-cell derived organoids provide the perfect mixture of cells to rebuild damaged intestines.

“Surprisingly, when we used the mouse and human conditions ... Liu hopes to someday use the giant panda stem cells to create sperm and oocytes, which can potentially be used to create giant panda ...

Human “bodyoids” could reduce animal testing, improve drug development, and alleviate organ shortages. Why do we hear about medical breakthroughs in mice, but rarely see them translate into ...

A UPV/EHU study published in the prestigious journal Stem Cell Research & Therapy has proven that stem cells extracted from human dental pulp can be transformed into excitable neuronal cells and ...

Michael Rieger from Universitätsmedizin Frankfurt's Department of Medicine II, has now molecularly decoded the differentiation pathways of human blood stem cells into all specialized blood cell ...