For the first time, scientists have identified the specific cells that allow severely damaged tissue to regenerate after ...

Working out doesn't just build muscle but, in later life, helps maintain a powerful cellular machine that repairs damaged ...

Extracellular vesicles (EVs), including exosomes, microvesicles, apoptotic bodies, and many other EV subtypes, have emerged ...

Scientists at Duke-NUS Medical School have uncovered how exercise helps aging muscles regain their ability to repair ...

In recent years, interest has grown around two investigational peptides, BPC-157 and TB-500, proposed as part of a combined research-oriented protocol to explore tissue regeneration, angiogenesis, and ...

Silent cells deep in your spinal cord may hold a surprising key to healing after devastating injuries and brain disease. A ...

When tissue is severely damaged, surviving cells can respond in a concentrated burst of biological repair known as ...

The utilization of biodegradable biomaterials as a therapeutic modality for musculoskeletal tissue regeneration has emerged as a promising avenue for ...

MIT scientists have found that an amino acid called cysteine can help the gut heal itself. In mouse studies, a cysteine-rich diet activated immune cells that release a molecule speeding up tissue ...

4D printed hydrogel expanders use controlled buckling and low pressure to generate new soft tissue while preserving viability and activating early remodeling pathways for personalized reconstruction. ...

Researchers have uncovered that SerpinB3, typically linked to severe cancers, is also a key player in natural wound healing. The protein drives skin cell movement and tissue rebuilding, especially ...

Regenerative medicine is a fast-growing healthcare field that harnesses the body’s natural healing ability At Monash University, the Australian Regenerative Medicine Institute is internationally ...