用于牙科骨移植的压电生物复合材料

Piezoelectric Biocomposites for Bone Grafting in Dentistry.

作者信息

Dumitrescu Cristina Rodica, Neacsu Ionela Andreea, Trusca Roxana, Popescu Roxana Cristina, Raut Iuliana, Constantin Mariana, Andronescu Ecaterina

机构信息

Department of Impact of Build Environment and Nanomaterials, National Institute for Research and Development in Environmental Protection, 294 Splaiul Independenței Blv, 060031 Bucharest, Romania.

Department of Science and Engineering of Oxide Materials and Nanomaterials, Faculty of Chemical Engineering and Biotechnology, University Politehnica of Bucharest, 060042 Bucharest, Romania.

出版信息

Polymers (Basel). 2023 May 25;15(11):2446. doi: 10.3390/polym15112446.

DOI:10.3390/polym15112446

PMID:37299245

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10255500/

Abstract

In this research, Hydroxyapatite-Potassium, Sodium Niobate-Chitosan (HA-KNN-CSL) biocomposites were synthesized, both as hydrogel and ultra-porous scaffolds, to offer two commonly used alternatives to biomaterials in dental clinical practice. The biocomposites were obtained by varying the content of low deacetylated chitosan as matrix phase, mesoporous hydroxyapatite nano-powder, and potassium-sodium niobate (KNaNbO) sub-micron-sized powder. The resulting materials were characterized from physical, morpho-structural, and in vitro biological points of view. The porous scaffolds were obtained by freeze-drying the composite hydrogels and had a specific surface area of 18.4-24 m/g and a strong ability to retain fluid. Chitosan degradation was studied for 7 and 28 days of immersion in simulated body fluid without enzymatic presence. All synthesized compositions proved to be biocompatible in contact with osteoblast-like MG-63 cells and showed antibacterial effects. The best antibacterial effect was shown by the 10HA-90KNN-CSL hydrogel composition against and the fungal strain , while a weaker effect was observed for the dry scaffold.

摘要

在本研究中，合成了羟基磷灰石-钾、铌酸钠钠-壳聚糖（HA-KNN-CSL）生物复合材料，其形式为水凝胶和超多孔支架，为牙科临床实践中的生物材料提供了两种常用的替代物。通过改变作为基质相的低脱乙酰度壳聚糖、介孔羟基磷灰石纳米粉末和铌酸钠钾（KNaNbO）亚微米级粉末的含量来获得生物复合材料。从物理、形态结构和体外生物学角度对所得材料进行了表征。多孔支架通过冷冻干燥复合水凝胶获得，比表面积为18.4 - 24 m/g，具有很强的流体保留能力。研究了壳聚糖在无酶存在的模拟体液中浸泡7天和28天的降解情况。所有合成的组合物在与成骨样MG-63细胞接触时均被证明具有生物相容性，并表现出抗菌作用。10HA-90KNN-CSL水凝胶组合物对[具体细菌菌株]和真菌菌株显示出最佳抗菌效果，而干燥支架的效果较弱。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6f15/10255500/289f01f75536/polymers-15-02446-g001.jpg

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用于牙科骨移植的压电生物复合材料

Piezoelectric Biocomposites for Bone Grafting in Dentistry.

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