skin regeneration tagged posts

New Wound Healing Research Produces Full Thickness Human Bioprinted Skin

Wound healing
WFIRM researchers use cells and hydrogels as bioinks to 3D print human skin.
CREDIT
Wake Forest Institute for Regenerative Medicine

A research paper published today in Science Translational Medicine presents a significant breakthrough in the area of skin regeneration and wound healing by researchers at the Wake Forest Institute for Regenerative Medicine (WFIRM). The study, titled “Bioprinted Skin with Multiple Cell Types Promotes Skin Regeneration, Vascularization, and Epidermal Rete Ridge Formation in Full-Thickness Wounds,” shows the successful development of bioprinted skin that accelerate wound healing, support healthy extracellular matrix remodeling, and provide optimism for complete wound recovery. Anthony Atala, M.D., director of WFIRM and Adam Jorgensen, M.D., Ph.D...

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Preclinical Discovery Triggers Wound Healing, Skin Regeneration

Difficult-to-treat, chronic wounds in preclinical models healed with normal scar-free skin after treatment with an acellular product discovered at Mayo Clinic. Derived from platelets, the purified exosomal product, known as PEP, was used to deliver healing messages into cells of preclinical animal models of ischemic wounds. The Mayo Clinic research team documented restoration of skin integrity, hair follicles, sweat glands, skin oils and normal hydration.

Ischemic wounds occur when arteries are clogged or blocked, preventing important nutrients and oxygen from reaching the skin to drive repair. This groundbreaking study titled, “TGF-β Donor Exosome Accelerates Ischemic Wound Healing,” is published in Theranostics.

“This paper documents that PEP, an off-the-shelf, room-temperatu...

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Discovery Enables Adult Skin to Regenerate like a Newborn’s

An image of a regenerating skin wound with hair follicles that can make goose bumps. The green lines are the muscles attached to individual regenerating hairs so that they can stand up.

A newly identified genetic factor allows adult skin to repair itself like the skin of a newborn babe. The discovery by Washington State University researchers has implications for better skin wound treatment as well as preventing some of the aging process in skin.

In a study, published in the journal eLife on Sept. 29, the researchers identified a factor that acts like a molecular switch in the skin of baby mice that controls the formation of hair follicles as they develop during the first week of life. The switch is mostly turned off after skin forms and remains off in adult tissue...

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