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On the compressibility and poroelasticity of human and murine skin.

Adam WahlstenMarco PensalfiniAlberto StracuzziGaetana RestivoRaoul HopfEdoardo Mazza
Published in: Biomechanics and modeling in mechanobiology (2019)
A total of 37 human and 33 murine skin samples were subjected to uniaxial monotonic, cyclic, and relaxation experiments. Detailed analysis of the three-dimensional kinematic response showed that skin volume is significantly reduced as a consequence of a tensile elongation. This behavior is most pronounced in monotonic but persists in cyclic tests. The dehydration associated with volume loss depends on the osmolarity of the environment, so that tension relaxation changes as a consequence of modifying the ionic strength of the environmental bath. Similar to ex vivo observations, complementary in vivo stretching experiments on human volar forearms showed strong in-plane lateral contraction. A biphasic homogenized model is proposed which allows representing all relevant features of the observed mechanical response.
Keyphrases
  • endothelial cells
  • induced pluripotent stem cells
  • soft tissue
  • pluripotent stem cells