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Recent advances in smart stimuli-responsive biomaterials for bone therapeutics and regeneration

Authors :
Hongpu Wei
Jinjie Cui
Kaili Lin
Jing Xie
Xudong Wang
Source :
Bone Research. 10
Publication Year :
2022
Publisher :
Springer Science and Business Media LLC, 2022.

Abstract

Bone defects combined with tumors, infections, or other bone diseases are challenging in clinical practice. Autologous and allogeneic grafts are two main traditional remedies, but they can cause a series of complications. To address this problem, researchers have constructed various implantable biomaterials. However, the original pathological microenvironment of bone defects, such as residual tumors, severe infection, or other bone diseases, could further affect bone regeneration. Thus, the rational design of versatile biomaterials with integrated bone therapy and regeneration functions is in great demand. Many strategies have been applied to fabricate smart stimuli-responsive materials for bone therapy and regeneration, with stimuli related to external physical triggers or endogenous disease microenvironments or involving multiple integrated strategies. Typical external physical triggers include light irradiation, electric and magnetic fields, ultrasound, and mechanical stimuli. These stimuli can transform the internal atomic packing arrangements of materials and affect cell fate, thus enhancing bone tissue therapy and regeneration. In addition to the external stimuli-responsive strategy, some specific pathological microenvironments, such as excess reactive oxygen species and mild acidity in tumors, specific pH reduction and enzymes secreted by bacteria in severe infection, and electronegative potential in bone defect sites, could be used as biochemical triggers to activate bone disease therapy and bone regeneration. Herein, we summarize and discuss the rational construction of versatile biomaterials with bone therapeutic and regenerative functions. The specific mechanisms, clinical applications, and existing limitations of the newly designed biomaterials are also clarified.

Details

ISSN :
20956231
Volume :
10
Database :
OpenAIRE
Journal :
Bone Research
Accession number :
edsair.doi.dedup.....68c4960b779e41067d7e19efbd10f4e6
Full Text :
https://doi.org/10.1038/s41413-021-00180-y