A 12‑week study found that hyaluronic‑acid microneedle patches loaded with a mix of skin‑boosting ingredients, including palmitoyl‑tripeptide‑5, were well tolerated and noticeably improved skin appearance: wrinkles dropped about 26%, hydration rose 15%, and the skin’s density and thickness each increased roughly 13‑14%. The results suggest that this multi‑peptide microneedle format can be an effective, non‑invasive way to combat visible signs of aging.

Aging skin is a gradual physiological process associated with functional and structural changes of the skin. Both intrinsic and extrinsic factors influence skin aging by the involvement of multiple pathways. Restoring natural skin conditions requires a multi-targeted approach. Recent developments in both bioactive peptides and microneedle delivery system have presented an opportunity for tackling premature skin aging. This study was aimed at evaluating the dermal tolerability and efficacy of hyaluronic acid-based microneedle patches loaded with bioactives for restoration of the skin properties including hydration, wrinkle reduction, density, and thickness. The test product of HA-MNs comprises arginine/lysine polypeptide, acetyl octapeptide-3, palmitoyl tripeptide-5, adenosine, and seaweed extracts. In the monocentric 12-week clinical trial, the HA-MNs patches were applied to the outer corner of the right and left eye and a defined area on the volar forearm on healthy subjects with aged skin. Instrumental analysis of skin properties was determined. The product was tolerated excellently; none of the subjects reported any primary or cumulative skin reactions. Assessment of measurable skin properties provides insight into the general effectiveness: The fine lines/wrinkles showed 25.8% noticeable decrease; the skin hydration measurements demonstrated 15.4% improvement; the skin density and thickness in the dermis increased 14.2% and 12.9%, respectively. The composition of the microneedle patches works in a multi-targeted manner and all ingredients might possibly be acted synergistically for the improvement of skin structure, function, and appearance. The study has demonstrated the overall usefulness of the HA-MNs with careful formulation for skin care applications.