Materials (Sep 2020)

In Vivo Regeneration of Large Bone Defects by Cross-Linked Porous Hydrogel: A Pilot Study in Mice Combining Micro Tomography, Histological Analyses, Raman Spectroscopy and Synchrotron Infrared Imaging

  • Tetsuya Adachi,
  • Francesco Boschetto,
  • Nao Miyamoto,
  • Toshiro Yamamoto,
  • Elia Marin,
  • Wenliang Zhu,
  • Narisato Kanamura,
  • Yoshiro Tahara,
  • Kazunari Akiyoshi,
  • Osam Mazda,
  • Ichiro Nishimura,
  • Giuseppe Pezzotti

DOI
https://doi.org/10.3390/ma13194275
Journal volume & issue
Vol. 13, no. 19
p. 4275

Abstract

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The transplantation of engineered three-dimensional (3D) bone graft substitutes is a viable approach to the regeneration of severe bone defects. For large bone defects, an appropriate 3D scaffold may be necessary to support and stimulate bone regeneration, even when a sufficient number of cells and cell cytokines are available. In this study, we evaluated the in vivo performance of a nanogel tectonic 3D scaffold specifically developed for bone tissue engineering, referred to as nanogel cross-linked porous-freeze-dry (NanoCliP-FD) gel. Samples were characterized by a combination of micro-computed tomography scanning, Raman spectroscopy, histological analyses, and synchrotron radiation–based Fourier transform infrared spectroscopy. NanoCliP-FD gel is a modified version of a previously developed nanogel cross-linked porous (NanoCliP) gel and was designed to achieve highly improved functionality in bone mineralization. Spectroscopic imaging of the bone tissue grown in vivo upon application of NanoCliP-FD gel enables an evaluation of bone quality and can be employed to judge the feasibility of NanoCliP-FD gel scaffolding as a therapeutic modality for bone diseases associated with large bone defects.

Keywords