以羟基磷灰石为支架的可生物降解复合材料在牙髓组织修复中的性能

Performance of a Biodegradable Composite with Hydroxyapatite as a Scaffold in Pulp Tissue Repair.

作者信息

Okamoto Motoki, Matsumoto Sayako, Sugiyama Ayato, Kanie Kei, Watanabe Masakatsu, Huang Hailing, Ali Manahil, Ito Yuki, Miura Jiro, Hirose Yujiro, Uto Koichiro, Ebara Mitsuhiro, Kato Ryuji, Yamawaki-Ogata Aika, Narita Yuji, Kawabata Shigetada, Takahashi Yusuke, Hayashi Mikako

机构信息

Department of Restorative Dentistry and Endodontology, Osaka University Graduate School of Dentistry, 1-8, Yamadaoka, Suita, Osaka 565-0871, Japan.

Department of Basic Medicinal Science, Nagoya University, Chikusa, Nagoya 464-8601, Japan.

出版信息

Polymers (Basel). 2020 Apr 17;12(4):937. doi: 10.3390/polym12040937.

DOI:10.3390/polym12040937

PMID:32316615

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7240495/

Abstract

Vital pulp therapy is an important endodontic treatment. Strategies using growth factors and biological molecules are effective in developing pulp capping materials based on wound healing by the dentin-pulp complex. Our group developed biodegradable viscoelastic polymer materials for tissue-engineered medical devices. The polymer contents help overcome the poor fracture toughness of hydroxyapatite (HAp)-facilitated osteogenic differentiation of pulp cells. However, the composition of this novel polymer remained unclear. This study evaluated a novel polymer composite, P(CL--DLLA) and HAp, as a direct pulp capping carrier for biological molecules. The biocompatibility of the novel polymer composite was evaluated by determining the cytotoxicity and proliferation of human dental stem cells in vitro. The novel polymer composite with BMP-2, which reportedly induced tertiary dentin, was tested as a direct pulp capping material in a rat model. Cytotoxicity and proliferation assays revealed that the biocompatibility of the novel polymer composite was similar to that of the control. The novel polymer composite with BMP-2-induced tertiary dentin, similar to hydraulic calcium-silicate cement, in the direct pulp capping model. The BMP-2 composite upregulated wound healing-related gene expression compared to the novel polymer composite alone. Therefore, we suggest that novel polymer composites could be effective carriers for pulp capping.

摘要

活髓治疗是一种重要的牙髓治疗方法。利用生长因子和生物分子的策略在开发基于牙本质-牙髓复合体伤口愈合的盖髓材料方面是有效的。我们团队开发了用于组织工程医疗设备的可生物降解粘弹性聚合物材料。聚合物成分有助于克服羟基磷灰石（HAp）断裂韧性差的问题，促进牙髓细胞的成骨分化。然而，这种新型聚合物的组成仍不清楚。本研究评估了一种新型聚合物复合材料P（CL-DLLA）和HAp作为生物分子的直接盖髓载体。通过测定人牙干细胞在体外的细胞毒性和增殖来评估新型聚合物复合材料的生物相容性。将据报道可诱导第三期牙本质形成的含BMP-2的新型聚合物复合材料作为直接盖髓材料在大鼠模型中进行测试。细胞毒性和增殖试验表明，新型聚合物复合材料的生物相容性与对照组相似。在直接盖髓模型中，含BMP-2的新型聚合物复合材料诱导形成了第三期牙本质，类似于水硬性硅酸钙水泥。与单独的新型聚合物复合材料相比，含BMP-2的复合材料上调了伤口愈合相关基因的表达。因此，我们认为新型聚合物复合材料可能是有效的盖髓载体。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a8d9/7240495/755be5cff2fd/polymers-12-00937-g001.jpg

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以羟基磷灰石为支架的可生物降解复合材料在牙髓组织修复中的性能

Performance of a Biodegradable Composite with Hydroxyapatite as a Scaffold in Pulp Tissue Repair.

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