Advanced Science (May 2019)

Collagen Fibrils Mechanically Contribute to Tissue Contraction in an In Vitro Wound Healing Scenario

  • Erik Brauer,
  • Evi Lippens,
  • Oliver Klein,
  • Grit Nebrich,
  • Sophie Schreivogel,
  • Gabriela Korus,
  • Georg N. Duda,
  • Ansgar Petersen

DOI
https://doi.org/10.1002/advs.201801780
Journal volume & issue
Vol. 6, no. 9
pp. n/a – n/a

Abstract

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Abstract Wound contraction is an ancient survival mechanism of vertebrates that results from tensile forces supporting wound closure. So far, tissue tension was attributed to cellular forces produced by tissue‐resident (myo‐)fibroblasts alone. However, difficulties in explaining pathological deviations from a successful healing path motivate the exploration of additional modulatory factors. Here, it is shown in a biomaterial‐based in vitro wound healing model that the storage of tensile forces in the extracellular matrix has a significant, so‐far neglected contribution to macroscopic tissue tension. In situ monitoring of tissue forces together with second harmonic imaging reveal that the appearance of collagen fibrils correlates with tissue contraction, indicating a mechanical contribution of tensioned collagen fibrils in the contraction process. As the re‐establishment of tissue tension is key to successful wound healing, the findings are expected to advance the understanding of tissue healing but also underlying principles of misregulation and impaired functionality in scars and tissue contractures.

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