You can regrow damaged skin in the area, sure—but also bone, tissue, and nerves.

• A dual-function peptide developed for in-situ engineering native extracellular matrix. • The dual-function peptide specifically anchors endogenous endothelial cells to extracellular matrix. Ischemic ...

In recent years, attention within regenerative biology and tissue-engineering research has increasingly turned toward peptide-based interventions. Two peptides in particular, BPC-157 and TB-500, have ...

Cartilage injuries are a common clinical issue, often caused by trauma, severe infections, or degenerative joint diseases. The lack of direct blood supply to cartilage and limited access to nutrients ...

New research from Stanford, Texas A&M, and Wake Forest has revealed biological and genetic mechanisms that allow mammals, ...

Recently, a research team from Chongqing Medical University, led by Prof. Wei Huang, Dr. Wei Bao, and Dr. Yiting Lei, has successfully developed a novel engineered extracellular matrix (eECM) to ...

Researchers at the Centro Nacional de Investigaciones Cardiovasculares (CNIC) have discovered a specialized population of neutrophils in the skin that produce extracellular matrix components, helping ...

Soft tissue regeneration company Aroa Biosurgery Limited has this week launched a new product named Myriad Morcells™, a morcellized (powder) format of Myriad Matrix™ that easily conforms to optimize ...

Sarcopenia—reduced muscle mass, strength, and function—is often associated with aging and frequently impacts quality of life in the elderly. Individuals with sarcopenia are also prone to further ...