Elderberry Hydrolate: Exploring Chemical Profile, Antioxidant Potency and Antigenotoxicity for Cosmetic Applications

Abstract

Elderberry (Sambucus nigra L.) hydrolate, derived from domestic steam distillation, holds promise as a multifunctional ingredient for skincare and cosmetic applications. This study investigates the chemical composition and biological activities of elderberry hydrolate obtained through steam distillation. Despite the growing interest in elderberry hydrolate, there has been a lack of comprehensive studies elucidating its chemical composition and potential bioactive constituents. To address this gap, we conducted a detailed analysis of elderberry hydrolate’s composition, antioxidant activity, and antigenotoxicity. Genotoxic evaluation and antioxidant assays (ABTS, DPPH) were conducted to assess its biological properties. We obtained elderberry hydrolate with a notable transfer of aromatic compounds through the steam distillation process, highlighting its efficacy and sustainability. The chemical characterization identified vital compounds, including phenylacetaldehyde, 2-acetyl-pyrrole, and an unidentified major component, collectively contributing to the hydrolate’s aromatic and biological properties. The genotoxic evaluation using the Comet assay demonstrated the hydrolate’s protective effects against DNA damage induced by hydrogen peroxide and streptonigrin. The optimal DNA protection was observed at 10% (w/v), attributed to the antioxidant activity of the identified compounds. The hydrolate exhibited significant antioxidant potential, demonstrating concentration-dependent responses and correlating higher concentrations with increased antioxidant activity. These findings underscore the multifaceted attributes of elderberry hydrolate, positioning it as a promising natural ingredient for skincare. This study supports elderberry hydrolate as a valuable natural and sustainable product development resource.