Researchers at Stanford University have proposed a concept that could transform modern medicine: lab-grown human “bodyoids” ...

Lab-grown "bodyoids" could transform medical research and organ transplants, but raise ethical questions about defining human ...

Human-induced pluripotent stem cells (hiPSCs) have shown remarkable potential in various applications including cell therapy, regenerative medicine, and ...

It may be disturbing to characterize human bodies in such commodifying terms, but the unavoidable reality is that human ...

How cardiac cell fates are specified during heart development remains elusive. This study identifies a level-dependent role ...

Stem cells let scientists create patient-specific brain cells, unlocking new insights into schizophrenia. This could lead to ...

Stem cell therapies hold promise for promoting regeneration. Retinal stem cells (RSCs) possess self-renewal capabilities and ...

As thousands of people await a lifesaving heart, scientists are racing to buy them more time. A promising advance from scientists in Germany offers a potential solution.

Organoids have revolutionized science and medicine, providing platforms for disease modeling, drug testing, and understanding ...

Neurona will kick start a Phase III trial in H2 2025 investigating NRTX-1001 in patients with a type of drug-resistant ...

Heart cells grown in space showed stronger survival, better function, and boosted healing traits. Spaceflight changed key ...

A new study has found that messenger RNA can travel between different stem cells and reprogram human cells to an earlier ...