Impact of Ceramide Acyl Chain Length on Human Skin Barrier Recovery and Hydration

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◆ 논문 초록 (Abstract)

OBJECTIVE: To compare the effects of ceramide acyl chain length on human skin barrier function. METHODS: Mixtures of phytoceramide containing non-hydroxy fatty acids (CER NPs) with different acyl chain lengths and corresponding test creams were prepared: C16-C24 CER NP and C24-C30 CER NP (ultra-long-chain, ULC CER NP). The content of C24 CER NP in these formulations was 0.3% and 39%, respectively. Liquid chromatography-tandem mass spectrometric (LC-MS/MS) analysis of skin ceramides was performed using tape-stripped human stratum corneum (SC) samples. A vehicle-controlled intra-subject human study was conducted to assess acute skin barrier recovery, skin hydration, and SC cohesion. RESULTS: Levels of C24 and C26 ceramides were significantly increased in skin treated with C24-C30 CER NP. These analytical results were consistent with the findings from the human efficacy study. Functional evaluations demonstrated that C24-C30 CER NP significantly enhanced barrier recovery, skin hydration, and SC cohesion compared with C18 CER NP, whereas the C16-C24 CER NP formulation primarily improved skin hydration. Overall, the C24-C30 CER NP formulation exhibited the strongest barrier-enhancing effects among the tested formulations. CONCLUSION: This study provides the first in vivo human evidence that ceramides with longer acyl chains confer superior improvements in skin barrier function compared with shorter-chain ceramides. These findings highlight the critical role of acyl chain length in ceramide-mediated barrier enhancement and support the rational design of ceramide-based formulations for optimized skin barrier restoration.

◆ 원문 정보
저자: Gwon DH, Choi HK, Lee EO, Hong SK, Park CS et al.
저널: J Cosmet Dermatol
연도: 2026
DOI: 10.1111/jocd.70795

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