Abstract
BACKGROUND: From birth, the functional properties of the neonatal epidermal
barrier mature whereby the stratum corneum (SC) hydrates and the skin surface
acidifies. The identification of a thinner infant SC compared with adults
suggests underdeveloped mechanisms underlying differentiation and desquamation.
OBJECTIVES: To assess the functional properties of the neonatal SC from birth, in
conjunction with the quantification of superficial chymotrypsin-like protease
activity [kallikrein-7 (KLK-7)] and filaggrin-derived natural moisturizing
factors (NMF).
METHODS: A total of 115 neonates recruited to the Oil in Baby SkincaRE (OBSeRvE)
randomized controlled trial underwent a full evaluation of the SC at birth (< 72
h old) and at 4 weeks of age (n = 39, no oil control group) using minimally
invasive instrumentation and methodology. A cohort of 20 unrelated adults was
recruited for comparison.
RESULTS: At birth NMF levels correlated with SC hydration (r = 0·50) and
skin-surface pH (r = -0·54). From birth to 4 weeks, transepidermal water loss
(TEWL), superficial KLK-7 activity and filaggrin-derived NMF significantly
elevated. Impaired epidermal barrier function at birth (> 75th percentile TEWL)
was accompanied by significantly elevated chymotrypsin-like protease activity and
reduced levels of NMF.
CONCLUSIONS: The biophysical, biological and functional properties of the
developing neonatal SC are transitional from birth to 4 weeks of age and differ
significantly from adults. The presence of impaired barrier function with
elevated protease activity and reduced NMF at birth suggests why certain infants
are predisposed to epidermal barrier breakdown and the development of atopic
dermatitis.
Original language | English |
---|---|
Journal | British Journal of Dermatology |
Early online date | 19 Mar 2016 |
Publication status | Published - 2016 |