4.6 Article

In vivo measurement of skin surface strain and sub-surface layer deformation induced by natural tissue stretching

Journal

Publisher

ELSEVIER SCIENCE BV
DOI: 10.1016/j.jmbbm.2016.05.035

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Funding

  1. European Commission [FP7-PEOPLE-2011-1APP/286174]
  2. Engineering and Physical Science Research Council, Research Council United Kingdom [EP/K009699/1]
  3. EPSRC [EP/K009699/1] Funding Source: UKRI
  4. Engineering and Physical Sciences Research Council [EP/K009699/1] Funding Source: researchfish
  5. Natural Environment Research Council [NER/A/S/2002/00779] Funding Source: researchfish

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Stratum corneum and epidermal layers change in terms of thickness and roughness with gender, age and anatomical site. Knowledge of the mechanical and tribological properties of skin associated with these structural changes are needed to aid in the design of exoskeletons, prostheses, orthotics, body mounted sensors used for kinematics measurements and in optimum use of wearable on-body devices. In this case study, optical coherence tomography (OCT) and digital image correlation (DIC) were combined to determine skin surface strain and sub-surface deformation behaviour of the volar forearm due to natural tissue stretching. The thickness of the epidermis together with geometry changes of the dermal-epidermal junction boundary were calculated during change in the arm angle, from flexion (90) to full extension (180). This posture change caused an increase in skin surface Lagrange strain, typically. by 25% which induced considerable morphological changes in the upper skin layers evidenced by reduction of epidermal layer thickness (20%), flattening of the dermal-epidermal junction undulation (45-50% reduction of flatness being expressed as Ra and Rz roughness profile height change) and reduction of skin surface roughness Ra and Rz (40-50%). The newly developed method, DIC combined with OCT, imaging, is a powerful, fast and non-invasive methodology to study structural skin changes in real time and the tissue response provoked by mechanical loading or stretching. (C) 2016 The Authors. Published by Elsevier Ltd.

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