Klaus‐Peter Wilhelm scite author profile

Using a recently developed noninvasive, in vivo suction device for measuring skin elasticity, we evaluated age, sex, and regional differences in the viscoelastic properties of skin. A total of 33 volunteers participated in the study consisting of (a) 8 young females, (b) 9 old females, (c) 8 young males and (d) 8 old males. Measurements were performed on 11 anatomical regions; three different loads were applied: 100, 200, and 500 mbar. The parameters used were: immediate distension (Ue); delayed distension (Uv); immediate retraction (Ur); and, final deformation (Uf). To compare between subjects and anatomical regions, relative parameters independent of skin thickness were calculated: Uv/Ue, the ratio between the viscoelastic properties of skin and immediate distension, and Ur/Uf, which measures the ability of the skin to regain its initial position after deformation. Generally, Uv/Ue increased while Ur/Uf decreased with aging. Responses were variable with respect to load applied. Variability within anatomical regions was also noted. However, differences between the sexes were not statistically significant for most regions. These findings are in congruence with earlier studies suggesting the differences are mainly attributable to alterations in the elastic fiber network. This procedure provides a simple, quantitative assessment of elastic properties of the skin. Its application may help in future investigations of other connective tissue disorders.

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Guidelines for measurement skin colour and erythema A report from the Standardization Group of the European Society of Contact Dermatitis*

Fullerton

Fischer²,

et al. 1996

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This report reviews individual-related variables (age, sex, race, anatomical site, skin surface properties), intra-and interindividual variation (temporal, physical and mental activity, orthostatic effect, menstrual cycle/menopause), environment-related variables (light conditions, temperature) and various instrument-related variables that influence skin colour. CIE colorimetry (Minolta Chroma Meter) and spectrophotometric measurement (DermaSpectrometer) are considered. The guidelines give recommendations for measuring conditions and procedures.

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Skin aging. Effect on transepidermal water loss, stratum corneum hydration, skin surface pH, and casual sebum content

Wilhelm

Anastasia²,

Maibach³

1991

198

194

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Frictional properties of human skin: relation to age, sex and anatomical region, stratum corneum hydration and transepidermal water loss

2006

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Differences in the dynamic skin friction coefficients (ji) were investigated with respect to age, sex, and anatomical region. A total of 29 volunteers consisting of seven young females, seven old females, seven young males, and eight old males participated in the study. Measurements were obtained from ii anatomical regions, namely, the forehead, upper arm, volar and dorsal forearm, postauricular, palm, abdomen, upper and lower back, thigh, and ankle. The friction data were compared with stratum corneum hydration and transepidermal water loss (TEWL). The dynamic friction coefficient did not vary significantly between age and sex groups but varied considerably among the anatomical regions of the body. The forehead and postauricular had the highest /J (O 34 ± o 02) while the abdomen had the lowest (012 ± o 01); the remaining regions had an average fi value of 021 ±001. Similarly, no sex differences were observed for TEWL and stratum corneum hydration. Capacitance was only significantly lower on the palms of the elderly. Regional differences showed a higher state of hydration on the forehead and postauricular as well as the upper arm, upper and lower back when compared with the volar forearm. TEWL was generally lower in the elderly on all anatomical regions except the postauricular and palm. A significant correlation was established between ^ and capacitance for most regions. Between n and TEWL significant correlation was observed only on the palm and thigh. These findings suggest that frictional properties of skin are dependent on more than water content or non-apparent sweating and the role of sebum secretion is suggested as one possible factor.One basic physical function of the skin is the friction necessary for grasping, gripping, and locomotion. Awareness of the importance of the frictional properties of skin has arisen from Correspondence: Professor H.I.Maibach,

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