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Wrinkles Can Be Reduced – Without a Needle in Sight

Rectangle Image
News

Wrinkles Can Be Reduced – Without a Needle in Sight

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In the quest for a more youthful appearance, many people slather ointments on their skin or undergo injections of dermal fillers. But topical treatments often aren’t very effective because they don’t penetrate deep within the skin, whereas the results from injections typically last for only a few months and can be painful. Now, researchers reporting in ACS Nano have developed a needle-free “exosome” treatment that reduces wrinkles in UV-exposed mice.

As skin cells age, they lose their ability to multiply and to produce collagen, which is the main structural protein in skin. Recently, scientists discovered that treating human skin cells in a dish with exosomes from stem cells boosted the amount of collagen and caused other youthful changes. Exosomes are membranous vesicles containing protein and RNA that cells release to communicate with each other. Ke Cheng and colleagues wondered if treating mouse skin with exosomes from human dermal fibroblasts could reduce wrinkles and restore youthful characteristics. To avoid having to inject the exosomes, the researchers tested a needle-free device that uses a jet of air to deliver medications deep into the skin.

The researchers exposed mice to ultraviolet B (UVB) light, which accelerates aging and causes wrinkles to form. After 8 weeks of UVB exposure, the researchers administered exosomes from human dermal fibroblasts to some of the mice with the needle-free injector. Three weeks later, the treated mice showed significantly thinner and more superficial wrinkles than untreated mice or those that received topical retinoic acid, a standard anti-aging medication. Skin from the exosome-treated mice was thicker and showed reduced inflammation and enhanced collagen synthesis compared with skin from untreated mice.

Reference

Hu et al. (2019) Needle-Free Injection of Exosomes Derived from Human Dermal Fibroblast Spheroids Ameliorates Skin Photoaging. ACS Nano. DOI: https://doi.org/10.1021/acsnano.9b04384

This article has been republished from the following materials. Note: material may have been edited for length and content. For further information, please contact the cited source.


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