Small Structures (Nov 2024)

Enoki‐Inspired Microfibers and Extracellular Matrix Enhance Biaxially Interlocking Interfaces

  • Huy Quang Tran,
  • Navatha Shreem Polavaram,
  • Zishuo Yan,
  • Donghee Lee,
  • Yizhu Xiao,
  • SM Shatil Shahriar,
  • Zheng Yan,
  • Jingwei Xie

DOI
https://doi.org/10.1002/sstr.202400193
Journal volume & issue
Vol. 5, no. 11
pp. n/a – n/a

Abstract

Read online

Taking inspiration from diverse interlocking and adhesion structures found in nature, a biaxially interlocking interface is developed in this work. This interface is formed by interconnecting two electrostatically flocked substrates and its mechanical strength is enhanced through the incorporation of enoki‐mushroom‐shaped microfibers and deposited extracellular matrix (ECM). Tips of flocked straight fibers can be transformed into mushroom shapes through thermal treatment. The tensile strength of interlocked scaffolds with mushroom‐shaped tips drastically increases when compared to scaffolds made of straight fibers, which is not reported previously. More cells proliferate within interlocked scaffolds with mushroom‐shaped tips than scaffolds with straight fibers. Additionally, the mechanical strength (e.g., compressive, tensile, and shear) of cell‐seeded interlocked scaffolds increases proportionally to the amount of ECM deposited by dermal fibroblasts. The biaxially interlocking interface developed in this study holds promise for applications in engineering interfacial tissues, modeling tissue interfaces, investigating tissue–tissue interactions, and facilitating tissue bridging or binding.

Keywords