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Sol-gel-derived calcium silicate cement incorporating collagen and mesoporous bioglass nanoparticles for dental pulp therapy.溶胶-凝胶衍生的掺入胶原和介孔生物玻璃纳米粒子的硅酸钙水泥用于牙髓治疗。
Dent Mater. 2024 Nov;40(11):1832-1842. doi: 10.1016/j.dental.2024.08.006. Epub 2024 Aug 24.
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Fibroblast growth factor 2 promotes osteo/odontogenic differentiation in stem cells from the apical papilla by inhibiting PI3K/AKT pathway.成纤维细胞生长因子 2 通过抑制 PI3K/AKT 通路促进根尖乳头干细胞的成骨/成牙分化。
Sci Rep. 2024 Aug 21;14(1):19354. doi: 10.1038/s41598-024-70123-0.
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Guidance on the assessment of biocompatibility of biomaterials: Fundamentals and testing considerations.医疗器械生物学评价 第 11 部分:生物降解:试验选择、评价与结果解读
Dent Mater. 2024 Nov;40(11):1773-1785. doi: 10.1016/j.dental.2024.07.020. Epub 2024 Aug 10.
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Mitigating lipopolysaccharide-induced impairment in human dental pulp stem cells with tideglusib-doped nanoparticles: Enhancing osteogenic differentiation and mineralization.用 tideglusib 掺杂纳米粒子减轻脂多糖诱导的人牙髓干细胞损伤:增强成骨分化和矿化。
Dent Mater. 2024 Oct;40(10):1591-1601. doi: 10.1016/j.dental.2024.07.012. Epub 2024 Jul 26.
6
Regenerative endodontic therapy: From laboratory bench to clinical practice.再生性牙髓治疗:从实验室研究到临床实践。
J Adv Res. 2025 Jun;72:229-263. doi: 10.1016/j.jare.2024.07.001. Epub 2024 Jul 3.
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Tissue engineering approaches for dental pulp regeneration: The development of novel bioactive materials using pharmacological epigenetic inhibitors.牙髓再生的组织工程方法:利用药理学表观遗传抑制剂开发新型生物活性材料。
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8
Proposing new standards for testing solubility of pulp preservation materials.提出测试纸浆保存材料溶解度的新标准。
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9
An injectable dental pulp-derived decellularized matrix hydrogel promotes dentin repair through modulation of macrophage response.一种可注射的牙髓脱细胞基质水凝胶通过调节巨噬细胞反应促进牙本质修复。
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Cytotoxicity effects and differentiation potential of ormocer-based and nanohybrid composite resins on human dental pulp stem cells.基于有机硅烷的细胞毒性作用和分化潜能纳米复合树脂对人牙髓干细胞。
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牙髓组织工程与再生研究中生物材料特性及生物学潜力评估指南。

Guidance for evaluating biomaterials' properties and biological potential for dental pulp tissue engineering and regeneration research.

作者信息

Rosa Vinicius, Cavalcanti Bruno Neves, Nör Jacques E, Tezvergil-Mutluay Arzu, Silikas Nikolaos, Bottino Marco C, Kishen Anil, Soares Diana Gabriela, Franca Cristiane M, Cooper Paul Roy, Duncan Henry F, Ferracane Jack L, Watts David C

机构信息

Faculty of Dentistry, National University of Singapore, Singapore; ORCHIDS: Oral Care Health Innovations and Designs Singapore, National University of Singapore, Singapore.

Department of Cariology, Restorative Sciences, and Endodontics, Division of Endodontics, School of Dentistry, University of Michigan, Ann Arbor, United States.

出版信息

Dent Mater. 2025 Mar;41(3):248-264. doi: 10.1016/j.dental.2024.12.003. Epub 2024 Dec 13.

DOI:10.1016/j.dental.2024.12.003
PMID:
39674710
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11875114/
Abstract

BACKGROUND

Dental pulp regeneration is a complex and advancing field that requires biomaterials capable of supporting the pulp's diverse functions, including immune defense, sensory perception, vascularization, and reparative dentinogenesis. Regeneration involves orchestrating the formation of soft connective tissues, neurons, blood vessels, and mineralized structures, necessitating materials with tailored biological and mechanical properties. Numerous biomaterials have entered clinical practice, while others are being developed for tissue engineering applications. The composition and a broad range of material properties, such as surface characteristics, degradation rate, and mechanical strength, significantly influence cellular behavior and tissue outcomes. This underscores the importance of employing robust evaluation methods and ensuring precise and comprehensive reporting of findings to advance research and clinical translation.

AIMS

This article aims to present the biological foundations of dental pulp tissue engineering alongside potential testing methodologies and their advantages and limitations. It provides guidance for developing research protocols to evaluate the properties of biomaterials and their influences on cell and tissue behavior, supporting progress toward effective dental pulp regeneration strategies.

摘要

背景

牙髓再生是一个复杂且不断发展的领域,需要能够支持牙髓多种功能的生物材料,这些功能包括免疫防御、感觉知觉、血管形成和修复性牙本质生成。再生涉及协调软结缔组织、神经元、血管和矿化结构的形成,这就需要具有定制生物和机械性能的材料。许多生物材料已进入临床实践,而其他一些材料正在为组织工程应用而研发。材料的组成以及广泛的材料特性,如表面特征、降解速率和机械强度,会显著影响细胞行为和组织结果。这凸显了采用可靠评估方法以及确保对研究结果进行准确全面报告以推动研究和临床转化的重要性。

目的

本文旨在介绍牙髓组织工程的生物学基础以及潜在的测试方法及其优缺点。它为制定研究方案以评估生物材料的性能及其对细胞和组织行为的影响提供指导,支持朝着有效的牙髓再生策略取得进展。