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A biomimetically hierarchical polyetherketoneketone scaffold for osteoporotic bone repair.


ABSTRACT: Osteoporotic fractures are prevalent in society, and their incidence appears to be increasing as the worldwide population ages. However, conventional bone repair materials hardly satisfy the requirements for the repair of pathological fractures. Here, we developed a biomimetic polyetherketoneketone scaffold with a functionalized strontium-doped nanohydroxyapatite coating for osteoporotic bone defect applications. The scaffold has a hierarchically porous architecture and mechanical strength similar to that of osteoporotic trabecular bone. In vitro and in vivo studies demonstrated that the scaffold could promote osteoporotic bone regeneration and delay adjacent bone loss via regulating both osteoblasts and osteoclasts. In addition, the correlations between multiple preimplantation and postimplantation parameters were evaluated to determine the potential predictors of in vivo performance of the material. The current work not only develops a promising candidate for osteoporotic bone repair but also provides a viable approach for designing other functional biomaterials and predicting their translational value.

SUBMITTER: Yuan B 

PROVIDER: S-EPMC7732183 | biostudies-literature | 2020 Dec

REPOSITORIES: biostudies-literature

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A biomimetically hierarchical polyetherketoneketone scaffold for osteoporotic bone repair.

Yuan Bo B   Wang Linnan L   Zhao Rui R   Yang Xi X   Yang Xiao X   Zhu Xiangdong X   Liu Limin L   Zhang Kai K   Song Yueming Y   Zhang Xingdong X  

Science advances 20201211 50


Osteoporotic fractures are prevalent in society, and their incidence appears to be increasing as the worldwide population ages. However, conventional bone repair materials hardly satisfy the requirements for the repair of pathological fractures. Here, we developed a biomimetic polyetherketoneketone scaffold with a functionalized strontium-doped nanohydroxyapatite coating for osteoporotic bone defect applications. The scaffold has a hierarchically porous architecture and mechanical strength simil  ...[more]

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