Paper in Cloning and Stem Cells shows that animal eggs do not support specific reprogramming toward the normal human embryonic state. Investigators at Advanced Cell Technology (ACTC) have found that ...

A study published in the journal Stem Cells Reports reveals that a cellular reprogramming methodology allows the creation of neural networks that reproduce unique characteristics of human ...

Human-induced pluripotent stem cells (hiPSCs) can differentiate into various tissues, an invaluable characteristic for personalized regenerative medicine, basic and translational research, and drug ...

In a groundbreaking study published in Nature, Australian scientists have resolved a long-standing problem in regenerative medicine. Led by Professor Ryan Lister from the Harry Perkins Institute of ...

Human skin cells have been reprogrammed into heart valve cells and then used to successfully transplant a pig heart valve into a rodent, led by the research of a Northeastern University professor. The ...