Volume 4 Issue 1
Mar.  2025
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Xiang Xu, Yi Wang, Siyu Zhu, Qian Xu, Zulan Liu, Guotao Cheng, Dingpei Long, Lan Cheng, Fangyin Dai. Functionalized bio-spinning silk fiber scaffolds containing Mg2+ with osteoimmunomodulatory and osteogenesis abilities for critical-sized bone defect regeneration[J]. Materials Futures, 2025, 4(1): 015401. DOI: 10.1088/2752-5724/ad9e09
Citation: Xiang Xu, Yi Wang, Siyu Zhu, Qian Xu, Zulan Liu, Guotao Cheng, Dingpei Long, Lan Cheng, Fangyin Dai. Functionalized bio-spinning silk fiber scaffolds containing Mg2+ with osteoimmunomodulatory and osteogenesis abilities for critical-sized bone defect regeneration[J]. Materials Futures, 2025, 4(1): 015401. DOI: 10.1088/2752-5724/ad9e09
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Functionalized bio-spinning silk fiber scaffolds containing Mg2+ with osteoimmunomodulatory and osteogenesis abilities for critical-sized bone defect regeneration

© 2025 The Author(s). Published by IOP Publishing Ltd on behalf of the Songshan Lake Materials Laboratory
Materials Futures, Volume 4, Number 1
  • Received Date: August 04, 2024
  • Revised Date: November 16, 2024
  • Accepted Date: December 03, 2024
  • Available Online: December 12, 2024
  • Published Date: January 01, 2025
DOI: 10.1088/2752-5724/ad9e09

  • State Key Laboratory of Resource Insects, Key Laboratory of Sericultural Biology and Genetic Breeding, Ministry of Agriculture and Rural Affairs, College of Sericulture, Textile and Biomass Sciences, Yibin Academy, Southwest University, Chongqing 400715, People's Republic of China

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The research was supported by the National Natural Science Foundation of China (No. 32102613, 32330102, U20A2058), China Agriculture Research System of MOF and MARA (CARS-18-ZJ0102, CARS-18-ZJ0103), Natural Science Foundation of Chongqing, China (No. cstc2021jcyj-cxtt0005), Yibin Academy of Southwest University (XNDX2022020015, XNDX20221302), Chongqing Exceptional Young Talents Project (cstc2022ycjh-bgzxm0019), Venture and Innovation Support Program for Chongqing Overseas Returnees (cx2024003).

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  • Corresponding author:

    Lan Cheng,E-mail:lancheng@swu.edu.cn

    Fangyin Dai,E-mail:fydai@swu.edu.cn

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  • Severe bone defects remain a significant clinical challenge, necessitating the development of advanced bone repair scaffolds with excellent biocompatibility, precise immune modulation, and robust support for vascularization and osteogenesis. Silk fibroin (SF), a polymer renowned for its outstanding biocompatibility, has been widely used in bone repair scaffold materials. However, its complex fabrication process limits its broader clinical application. In this study, flat silkworm cocoon (FSC), characterized by continuous silk fibers, a porous hierarchical structure, and superior mechanical properties, was utilized for the first time to fabricate bio-scaffolds (TH-PDA@Mg) designed for sustained magnesium ion release in bone repair applications. FSC scaffolds featuring surface pores and extracellular matrix-like structures were successfully prepared using hot-press and surface modification techniques. Magnesium ions were effectively assembled onto FSC scaffolds via polydopamine (PDA)-mediated adhesive interactions. The resulting TH-PDA@Mg scaffolds demonstrated enhanced osteogenic properties, exceptional mechanical strength, superior surface characteristics, and excellent biocompatibility. In vitro analyses revealed that these scaffolds supported cell adhesion, promoted stem cell proliferation, and facilitated osteogenic differentiation due to the synergistic effects of SF and magnesium ions. Furthermore, they exhibited immunomodulatory properties by promoting M2 macrophage polarization while suppressing M1 macrophage activity. In vivo studies using a rat model of critical-sized cranial bone defects showed that the TH-PDA@Mg scaffolds accelerated bone regeneration, enhanced angiogenesis, and mitigated inflammation. These findings highlight the remarkable osteogenic and immunomodulatory potential of functional bio-spinning silk fiber scaffolds, underscoring their promise as a therapeutic strategy for the clinical treatment of bone defects.
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    1. Yang, K., Zhang, J., Zhang, C. et al. Hierarchical design of silkworm silk for functional composites. Chemical Society Reviews, 2025. DOI:10.1039/d4cs00776j

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