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An instantly fixable and self-adaptive scaffold for skull regeneration by autologous stem cell recruitment and angiogenesis

Author

Listed:
  • Gonggong Lu

    (Sichuan University
    Sichuan University
    Sichuan University)

  • Yang Xu

    (Sichuan University
    Sichuan University)

  • Quanying Liu

    (Sichuan University
    Sichuan University)

  • Manyu Chen

    (Sichuan University
    Sichuan University)

  • Huan Sun

    (Sichuan University
    Sichuan University)

  • Peilei Wang

    (Sichuan University
    Sichuan University)

  • Xing Li

    (Sichuan University
    Sichuan University)

  • Yuxiang Wang

    (Sichuan University
    Sichuan University)

  • Xiang Li

    (Sichuan University)

  • Xuhui Hui

    (Sichuan University)

  • En Luo

    (Sichuan University)

  • Jun Liu

    (Southeast University)

  • Qing Jiang

    (Sichuan University
    Sichuan University)

  • Jie Liang

    (Sichuan University
    Sichuan University
    Sichuan University)

  • Yujiang Fan

    (Sichuan University
    Sichuan University)

  • Yong Sun

    (Sichuan University
    Sichuan University)

  • Xingdong Zhang

    (Sichuan University
    Sichuan University)

Abstract

Limited stem cells, poor stretchability and mismatched interface fusion have plagued the reconstruction of cranial defects by cell-free scaffolds. Here, we designed an instantly fixable and self-adaptive scaffold by dopamine-modified hyaluronic acid chelating Ca2+ of the microhydroxyapatite surface and bonding type I collagen to highly simulate the natural bony matrix. It presents a good mechanical match and interface integration by appropriate calcium chelation, and responds to external stress by flexible deformation. Meanwhile, the appropriate matrix microenvironment regulates macrophage M2 polarization and recruits endogenous stem cells. This scaffold promotes the proliferation and osteogenic differentiation of BMSCs in vitro, as well as significant ectopic mineralization and angiogenesis. Transcriptome analysis confirmed the upregulation of relevant genes and signalling pathways was associated with M2 macrophage activation, endogenous stem cell recruitment, angiogenesis and osteogenesis. Together, the scaffold realized 97 and 72% bone cover areas after 12 weeks in cranial defect models of rabbit (Φ = 9 mm) and beagle dog (Φ = 15 mm), respectively.

Suggested Citation

  • Gonggong Lu & Yang Xu & Quanying Liu & Manyu Chen & Huan Sun & Peilei Wang & Xing Li & Yuxiang Wang & Xiang Li & Xuhui Hui & En Luo & Jun Liu & Qing Jiang & Jie Liang & Yujiang Fan & Yong Sun & Xingdo, 2022. "An instantly fixable and self-adaptive scaffold for skull regeneration by autologous stem cell recruitment and angiogenesis," Nature Communications, Nature, vol. 13(1), pages 1-20, December.
    • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-30243-5
    DOI: 10.1038/s41467-022-30243-5
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    References listed on IDEAS

    as
    1. Xiaojin Zhang & Yan Li & Y. Eugene Chen & Jihua Chen & Peter X. Ma, 2016. "Cell-free 3D scaffold with two-stage delivery of miRNA-26a to regenerate critical-sized bone defects," Nature Communications, Nature, vol. 7(1), pages 1-15, April.
    2. Hyunwoo Yuk & Claudia E. Varela & Christoph S. Nabzdyk & Xinyu Mao & Robert F. Padera & Ellen T. Roche & Xuanhe Zhao, 2019. "Dry double-sided tape for adhesion of wet tissues and devices," Nature, Nature, vol. 575(7781), pages 169-174, November.
    3. Yi Hong & Feifei Zhou & Yujie Hua & Xianzhu Zhang & Chengyao Ni & Dihao Pan & Yiqing Zhang & Deming Jiang & Long Yang & Qiuning Lin & Yiwei Zou & Dongsheng Yu & David E. Arnot & Xiaohui Zou & Linyong , 2019. "A strongly adhesive hemostatic hydrogel for the repair of arterial and heart bleeds," Nature Communications, Nature, vol. 10(1), pages 1-11, December.
    4. Wen-Ching Shen & Yung-Chih Lai & Ling-Hui Li & Kolin Liao & Hung-Chang Lai & Shou-Yen Kao & John Wang & Cheng-Ming Chuong & Shih-Chieh Hung, 2019. "Methylation and PTEN activation in dental pulp mesenchymal stem cells promotes osteogenesis and reduces oncogenesis," Nature Communications, Nature, vol. 10(1), pages 1-13, December.
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