Research Models in Dentine Development and Regeneration.

Ya Lu Sun, Xi Heng Li, Shuang Shuang Wang, Hu En Li, Bei Chang, Hong Chen Sun
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Abstract

Dentine is a major component of teeth and is responsible for many of their functions, such as mastication and neural sensation/transduction. Over the past decades, numerous studies have focused on dentine development and regeneration using a variety of research models, including in vivo, ex vivo and in vitro models. In vivo animal models play a crucial role in the exploration of biochemical factors that are involved in dentine development, whereas ex vivo and in vitro models contribute mainly to the identification of biophysical factors in dentine regeneration, of which mechanical force is most critical. In the present review, research models involved in studies related to dentine development and regeneration were screened from publications released in recent years and summarised comprehensively, particularly in vivo animal models including prokaryotic microinjection, Cre/LoxP, CRISPR/Cas9, ZFN and TALEN, and scaffold-based in vitro and ex vivo models. The latter were further divided by the interactive forces. Summarising these research models will not only benefit the development of future dentine-related studies but also provide hints regarding the evolution of novel dentine regeneration strategies.

牙本质发育和再生研究模型。
牙本质是牙齿的主要组成部分,负责牙齿的许多功能,如咀嚼和神经感觉/传导。在过去的几十年中,许多研究都集中于牙本质的发育和再生,并使用了各种研究模型,包括体内、体外和体外模型。体内动物模型在探索牙本质发育过程中的生化因素方面起着至关重要的作用,而体外和体外模型则主要用于鉴定牙本质再生过程中的生物物理因素,其中机械力是最关键的因素。本综述从近年来发表的论文中筛选出了与牙本质发育和再生相关的研究模型,并对其进行了全面总结,尤其是体内动物模型,包括原核显微注射、Cre/LoxP、CRISPR/Cas9、ZFN 和 TALEN,以及基于支架的体外和体内模型。后者又按相互作用力进一步划分。总结这些研究模型不仅有利于未来牙科相关研究的发展,还能为新型牙科再生策略的演变提供提示。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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