Bone healing is integral to orthopedic research,focusing on the restoration of bone function through a complex interplay of inflammatory responses,soft callus formation,hard callus development,and the final remodeling...Bone healing is integral to orthopedic research,focusing on the restoration of bone function through a complex interplay of inflammatory responses,soft callus formation,hard callus development,and the final remodeling phase.While the natural progression of bone healing is a finely tuned process,it can be disrupted by inflammatory dysregulation,ranging from chronic inflammation to acute inflammatory anomalies,and by the depletion of essential repair substances under both chronic and acute conditions.Current strategies to enhance bone healing employ a multifaceted approach,including biochemical modulation of the local microenvironment through essential nutrient supplementation(e.g.,calcium and vitamin D),biomechanical optimization via improved internal fixation stability,and advanced regenerative techniques incorporating bioactive factors,stem cell therapies,and functional biomaterials.Despite these efforts,challenges persist in the precise characterization of the local microenvironment and the precise control of in vivo bioactive molecule delivery.This review comprehensively summarizes the current research progress in bone healing,providing significant reference for understanding the mechanisms of bone healing and for guiding further research.It is expected to lay the theoretical foundation for the development of more effective therapeutic strategies for bone healing.展开更多
基金supported by funding from the National Key Research and Development Program of China(2022YFC2504300)the Joint Co-construction Project of Medical Science and Technology Tackling Program in Henan Province(LHGJ20240248)+1 种基金the Key R&D and Promotion Projects in Henan Province of China(242102311139)the 2024 Postdoctoral Research Initiation Grant for the First Affiliated Hospital of Zhengzhou University(72402)。
文摘Bone healing is integral to orthopedic research,focusing on the restoration of bone function through a complex interplay of inflammatory responses,soft callus formation,hard callus development,and the final remodeling phase.While the natural progression of bone healing is a finely tuned process,it can be disrupted by inflammatory dysregulation,ranging from chronic inflammation to acute inflammatory anomalies,and by the depletion of essential repair substances under both chronic and acute conditions.Current strategies to enhance bone healing employ a multifaceted approach,including biochemical modulation of the local microenvironment through essential nutrient supplementation(e.g.,calcium and vitamin D),biomechanical optimization via improved internal fixation stability,and advanced regenerative techniques incorporating bioactive factors,stem cell therapies,and functional biomaterials.Despite these efforts,challenges persist in the precise characterization of the local microenvironment and the precise control of in vivo bioactive molecule delivery.This review comprehensively summarizes the current research progress in bone healing,providing significant reference for understanding the mechanisms of bone healing and for guiding further research.It is expected to lay the theoretical foundation for the development of more effective therapeutic strategies for bone healing.
