Umbilical Cord Mesenchymal Stem Cell-Derived Exosomes in the Treatment of Melasma

Exosomes are small, uniform lipid bilayer vesicles with a molecular diameter of 30-150 nanometers, formed by cells and actively secreted into the extracellular space. They contain proteins, peptides, lipids, nucleic acids, growth factors, hormones, and other substances. Exosomes derived from stem cells share similar functions with stem cells, including tissue repair and regeneration, enhancing the survival of transplanted fat, anti-inflammatory, and antioxidant effects. Compared to stem cells, exosomes are more stable, easier to preserve, manage, and control, and their content can be manipulated in terms of type and quantity. They lack live cells and have low immunogenicity. Research has found that stem cell-derived exosomes have various effects in anti-aging and medical aesthetics.

Melasma is an acquired pigmentation disorder predominantly affecting females. Its pathogenesis is complex, and treatment is challenging, making it one of the refractory skin diseases. Current treatment methods have long treatment cycles, high recurrence rates, and poor patient compliance, with treatment outcomes still not ideal. Recent studies show damage to the basement membrane in melasma skin lesions, and the regenerative repair function of stem cell-derived exosomes can repair the damaged basement membrane in these lesions, thus effectively treating melasma.

Due to the skin's barrier function, exosomes from stem cells can hardly penetrate the skin barrier. In recent years, various physicochemical methods such as chemical enhancers, nanotechnology, ultrasound, microneedles, radiofrequency, or thermal ablation have been introduced to facilitate the transdermal delivery of biologics. However, they pose significant issues in terms of skin irritation and damage while aiding in overcoming the skin barrier for effective enhancement. Therefore, finding methods that are minimally irritating to the skin and capable of facilitating the transdermal delivery of biologics remains a challenge in transdermal drug delivery.

This study aims to observe the therapeutic effect of umbilical cord mesenchymal stem cell-derived exosomes combined with 1565 non-ablative fractional laser treatment for melasma, validate the enhancement effect of 1565 non-ablative fractional laser, and explore a new combined treatment method for melasma that is effective, low in side effects, low in recurrence rate, and provides good patient comfort.