Jean de Rigal scite author profile

The mechanical properties of the in vivo dermis were measured by means of a torque applied to the skin. The resulting deformation of 2-6 degrees, including the immediate and delayed visco-elastic components, as well as the relaxation were measured, and the raw values corrected for a constant skin thickness. The experiment performed on 138 individuals from 3 to 89 years old revealed a diminished elasticity and stretchability after the age of 30, associated with an increase in the visco-elastic component. The Young's modulus doubles with age. The results are discussed in terms of the various models proposed to explain dermal structure.

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Age-related mechanical properties of human skin: An in vivo study

Escoffier

Rigal

Rochefort³

et al. 1989

Journal of Investigative Dermatology

307

171

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We have investigated in vivo how various viscoelastic parameters that describe the mechanical properties of the human skin may vary with age. Accordingly, we have used a mechanical device that records the torsional extensibility of the skin. When submitted to a low torque, the time-response curve of the skin affords the determination of the immediate extensibility (UE), the immediate recovery (UR), the viscoelastic part of the deformation (UV), the elastic recovery (UR/UE), and the creep relaxation time (tau). Because the skin thickness varies with age and primarily governs the mechanical properties, it was measured through an ultrasound technique at the same sites (forearm) where the torque was applied. The results show that the skin maintains its thickness and extensibility up to the seventh decade as opposed to its elasticity or recovery capacities, which decrease from an early age. The viscous part of the deformation is constant through life, whereas the creep relaxation time decreases linearily with age. Except for skin thickness, no differences in these parameters between men and women were detected. The significance of these results are discussed in terms of structure alterations. The determination of the elastic recovery (UR/UE) appears to be a parameter of choice for illustrating skin aging.

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Assessment of Aging of the Human Skin by In Vivo Ultrasonic Imaging

Rigal

Escoffier

Querleux

et al. 1989

Journal of Investigative Dermatology

221

163

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Age-Related Mechanical Properties of Human Skin: An In Vivo Study.

Escoffier¹,

Rigal²,

Rochefort³

et al. 1989

J Invest Dermatol

247

141

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The effects of aging on the cutaneous microvasculature

Kelly

Pearse

Bull

et al. 1995

Journal of the American Academy of Dermatology

165

106

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Jean de Rigal

Mechanical properties and Young's modulus of human skin in vivo

Age-related mechanical properties of human skin: An in vivo study

Assessment of Aging of the Human Skin by In Vivo Ultrasonic Imaging

Age-Related Mechanical Properties of Human Skin: An In Vivo Study.

The effects of aging on the cutaneous microvasculature

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