Researchers in Taiwan have developed a cell-free extracellular matrix material from axolotl skin that helped mouse burn ...

Tissue engineering of human skin equivalents seeks to recreate the structural, functional and immunological properties of native skin in vitro. Constructs typically comprise an epidermal layer of ...

Tissue engineering for skin regeneration combines principles of cell biology, materials science and bioengineering to develop functional substitutes for damaged or lost skin. Central to this field are ...

A new bioengineered skin model could improve testing of skincare products and lead to better ways to heal damaged skin. University of Oregon researchers have teamed up with scientists with the French ...

A team led by scientists at Rensselaer Polytechnic Institute has 3D-printed hair follicles in human skin tissue cultured in the lab. This marks the first time researchers have used the technology to ...

Burn, trauma, and plastic surgery patients and others needing skin autografts often have limited quantities of healthy tissue from which to take skin biopsies, and when skin grafts are transplanted, ...

A team of researchers from China has made a significant breakthrough in biomedical engineering by developing a novel adhesive that promises to revolutionize wound management and tissue repair. The ...

Bio-engineered skin grafts can play an important role in the treatment of burn victims. Researchers at the University of Zurich have been working on new approaches for such grafts for over 15 years.

In a new study, researchers from the University of Tokyo, Harvard University, and the International Research Center for Neurointelligence have unveiled a technique for creating lifelike robotic skin ...

Imagine a skin cream that heals damage occurring throughout the day when your skin is exposed to sunlight or environmental toxins. That’s the potential of a synthetic, biomimetic melanin developed by ...