Nature Communications (Jul 2023)

An osteoinductive and biodegradable intramedullary implant accelerates bone healing and mitigates complications of bone transport in male rats

  • Sien Lin,
  • Hirotsugu Maekawa,
  • Seyedsina Moeinzadeh,
  • Elaine Lui,
  • Hossein Vahid Alizadeh,
  • Jiannan Li,
  • Sungwoo Kim,
  • Michael Poland,
  • Benjamin C. Gadomski,
  • Jeremiah T. Easley,
  • Jeffrey Young,
  • Michael Gardner,
  • David Mohler,
  • William J. Maloney,
  • Yunzhi Peter Yang

DOI
https://doi.org/10.1038/s41467-023-40149-5
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 18

Abstract

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Abstract Bone transport is a surgery-driven procedure for the treatment of large bone defects. However, challenging complications include prolonged consolidation, docking site nonunion and pin tract infection. Here, we develop an osteoinductive and biodegradable intramedullary implant by a hybrid tissue engineering construct technique to enable sustained delivery of bone morphogenetic protein-2 as an adjunctive therapy. In a male rat bone transport model, the eluting bone morphogenetic protein-2 from the implants accelerates bone formation and remodeling, leading to early bony fusion as shown by imaging, mechanical testing, histological analysis, and microarray assays. Moreover, no pin tract infection but tight osseointegration are observed. In contrast, conventional treatments show higher proportion of docking site nonunion and pin tract infection. The findings of this study demonstrate that the novel intramedullary implant holds great promise for advancing bone transport techniques by promoting bone regeneration and reducing complications in the treatment of bone defects.