口腔疾病防治 (Nov 2018)

The concept of“osteoimmunomodulation”and its application in the development of“osteoimmune ⁃ smart” bone substitute materials

  • CHEN Zetao,
  • WANG Xiaoshuang,
  • ZHANG Linjun

DOI
https://doi.org/10.12016/j.issn.2096⁃1456.2018.11.002
Journal volume & issue
Vol. 26, no. 11
pp. 688 – 698

Abstract

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The traditional biological principle for developing bone biomaterials is to directly stimulate the osteogenic differentiation of osteoblastic lineage cells, the direct effector cells for osteogenesis. This strategy has been successful for the development of bone biomaterials. However, recent progress in bone biology has revealed the vital role of the lo⁃ cal bone microenvironment, especially the immune environment, in controlling osteogenesis. Interdisciplinary osteoim⁃ munology has found that the osteoimmune and skeletal systems are closely related, sharing numerous cytokines and reg⁃ ulators. In addition, immune cells play an important role in the physiological and pathological processes of the skeletal system, suggesting that neglecting the importance of the immune response is a major shortcoming of the traditional strat⁃ egy. Based on this principle, we propose a novel“osteoimmunomodulation” ⁃based strategy to meet the strict require⁃ ments of new⁃generation bone biomaterials: instead of directly regulating the osteogenic differentiation of osteoblastic lin⁃ eage cells, we should focus more on manipulating the responses of immune cells and developing biomaterials to induce an immune environment that provides conditions that balance osteogenesis and osteoclastogenesis for optimal osseointe⁃ gration. This article reviews the recent progress on osteoimmunology and immunomodulatory biomaterials for the genera⁃ tion of the“osteoimmunomodulation”concept. Additionally, the outcomes of“osteoimmunomodulation” ⁃related studies have been summarized to guide the development of advanced“osteoimmune⁃smart”bone substitute materials.

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