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Self-reinforced piezoelectric chip for scaffold-free repair of critical-sized bone defects

Author

Listed:
  • Wei Li

    (Southern Medical University
    Southern Medical University)

  • Youtian Mo

    (Guangdong University of Education)

  • Shaohua Xie

    (South China University of Technology)

  • Lei Fu

    (Southern Medical University
    Southern Medical University)

  • Yan Ye

    (Southern Medical University
    Southern Medical University)

  • Yilin Zhou

    (Southern Medical University
    Southern Medical University)

  • Jianming Lai

    (Southern Medical University
    Southern Medical University)

  • Wenliang Wang

    (South China University of Technology)

  • Yao Lu

    (Southern Medical University
    Southern Medical University
    Southern Medical University)

  • Guoqiang Li

    (South China University of Technology)

  • Jing Tian

    (Southern Medical University
    Southern Medical University)

Abstract

The use of piezoelectric materials to treat critical-sized bone defects typically requires additional stimulation to generate their piezoelectric properties and the implantation of scaffolds to promote bone repair. Here we present a self-reinforced piezoelectric chip and demonstrate its efficacy in the treatment of critical-sized bone defects. Specifically, the chip is comprised of the third-generation semiconductor aluminum nitride (AlN) as a piezoelectric layer, molybdenum (Mo) electrodes, and a silicon substrate with an optimized internal cavity structure. All these components are confirmed to be non-cytotoxic. This design enables the chip to provide self-sustained and long-term electrical signals in response to physiological vibrations. After being implanted into a rabbit critical-sized femoral defect model, the chip creates a localized bioelectric microenvironment, thereby promoting vascularized bone repair within 4 weeks without using any scaffolds and additional tools. Moreover, the chip can be fixed onto the clinically used orthopedic plate system, representing a universal plug-and-play strategy.

Suggested Citation

  • Wei Li & Youtian Mo & Shaohua Xie & Lei Fu & Yan Ye & Yilin Zhou & Jianming Lai & Wenliang Wang & Yao Lu & Guoqiang Li & Jing Tian, 2025. "Self-reinforced piezoelectric chip for scaffold-free repair of critical-sized bone defects," Nature Communications, Nature, vol. 16(1), pages 1-15, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-61243-w
    DOI: 10.1038/s41467-025-61243-w
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    2. M. Gabriele Bixel & Kishor K. Sivaraj & Melanie Timmen & Vishal Mohanakrishnan & Anusha Aravamudhan & Susanne Adams & Bong-Ihn Koh & Hyun-Woo Jeong & Kai Kruse & Richard Stange & Ralf H. Adams, 2024. "Angiogenesis is uncoupled from osteogenesis during calvarial bone regeneration," Nature Communications, Nature, vol. 15(1), pages 1-22, December.
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