AI Article Synopsis
- Bone healing is a complex process involving different cells, cytokines, and growth factors, starting with the formation of a hematoma that plays a key role in initial recovery.
- Clotting factor XIII (FXIII) is crucial in regulating bone repair through various mechanisms during the healing stages.
- The review discusses how FXIII influences bone regeneration by interacting with the extracellular matrix, collagen, and blood vessels, and highlights the need for further research into FXIII-related biomaterials for enhancing bone healing.
Article Abstract
The biologic process of bone healing is complicated, involving a variety of cells, cytokines, and growth factors. As a result of bone damage, the activation of a clotting cascade leads to hematoma with a high osteogenic potential in the initial stages of healing. A major factor involved in this course of events is clotting factor XIII (FXIII), which can regulate bone defect repair in different ways during various stages of healing. Autografts and allografts often have defects in clinical practice, making the development of advanced materials that support bone regeneration a critical requirement. Few studies, however, have examined the promotion of bone healing by FXIII in combination with biomaterials, in particular, its effect on blood coagulation and osteogenesis. Therefore, we mainly summarized the role of FXIII in promoting bone regeneration by regulating the extracellular matrix and type I collagen, bone-related cells, angiogenesis, and platelets, and described the research progress of FXIII = related biomaterials on osteogenesis. This review provides a reference for investigators to explore the mechanism by which FXIII promotes bone healing and the combination of FXIII with biomaterials to achieve targeted bone tissue repair.
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| http://dx.doi.org/10.1089/ten.TEB.2023.0016 | DOI Listing |
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