核壳双相微球具有可调的壳微孑 L 密度，可提供可定制的骨再生。

Core-Shell Biphasic Microspheres with Tunable Density of Shell Micropores Providing Tailorable Bone Regeneration.

机构信息

1 Department of Orthopaedic Surgery, The Third Hospital Affiliated to Wenzhou Medical University , Rui'an, China .

2 Bio-Nanomaterials and Regenerative Medicine Research Division, Zhejiang-California International Nanosystem Institute, Zhejiang University , Hangzhou, China .

出版信息

Tissue Eng Part A. 2019 Apr;25(7-8):588-602. doi: 10.1089/ten.TEA.2018.0174. Epub 2018 Oct 27.

DOI:10.1089/ten.TEA.2018.0174

PMID:30215296

Abstract

We have developed the new core-shell bioceramic CSi-Sr4@CaP-px microspheres with tuning porous shell layer so that the biodegradation of both CSi-Sr4 core and CaP shell is readily adjusted synergistically. This is for the first time, to the best of our knowledge, that the bioceramic scaffolds concerning gradient distribution and microstructure-tailoring design is available for tailoring biodegradation and ion release (bioactivity) to optimizing osteogenesis. Furthermore, it is possibly helpful to develop new bioactive scaffold system for time-dependent tailoring bioactivity and microporous structure to significantly enhance bone regeneration and repair applications, especially in some non-load-bearing arbitrary 3D anatomical bone and teeth defects.

摘要

我们开发了具有可调多孔壳层的新型核壳生物陶瓷 CSi-Sr4@CaP-px 微球，使得 CSi-Sr4 核和 CaP 壳的生物降解能够协同地进行调整。据我们所知，这是首次提供有关梯度分布和微观结构设计的生物陶瓷支架，可用于调整生物降解和离子释放（生物活性）以优化成骨作用。此外，这可能有助于开发新的生物活性支架系统，以实现随时间变化的生物活性和微孔结构的定制，从而显著增强骨再生和修复应用，特别是在一些非承重的任意 3D 解剖骨和牙齿缺陷中。

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核壳双相微球具有可调的壳微孑 L 密度，可提供可定制的骨再生。

Core-Shell Biphasic Microspheres with Tunable Density of Shell Micropores Providing Tailorable Bone Regeneration.

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