A breakthrough study reveals how shifting the body’s healing response could help regenerate tissue instead of forming scars.

When a traumatic injury occurs to an artery, if a patient’s own veins aren't available for use as a bypass graft, they’ll typically have to be treated either with a synthetic implant or with surgical ...

Scientists have succeeded in regenerating bone, cartilage, and muscle using stem cells, marking advancement toward practical ...

New research from Stanford, Texas A&M, and Wake Forest has revealed biological and genetic mechanisms that allow mammals, including humans, to regenerate fingertips and other tissues. Studies ...

A two-step treatment redirects healing from scarring to regeneration, enabling regrowth of bone, ligaments, and joints, and ...

Add Yahoo as a preferred source to see more of our stories on Google. Prof. Dekel wears many hats as a physician-scientist. (photo credit: SHEBA MEDICAL CENTER) Prof. Benjamin Dekel on growing hope ...

The global tissue engineering market is driven by increasing demand for regenerative therapies, advancements in biomaterials and stem cell research, and rising applications in orthopedics and wound ...

WINSTON-SALEM – Human organ transplants became possible in 1954 when a kidney became the first organ to be transplanted successfully, eventually earning Boston physician Joseph Murray the Nobel Prize.

Bladder tissue engineering aims to restore or replace damaged bladder tissue using a combination of biomaterials, stem cell technology, and controlled delivery of bioactive agents. This ...

Scientists at Lund University used exosomes from flatworms to accelerate human skin repair. This builds on the discovery of ...

Researchers at Texas A&M University have developed a two-step process that stimulates regeneration of bone, joint structures, and ligaments in mammals, challenging the belief that such regeneration is ...