哺乳动物牙齿多样性:再生牙科的进化模板

IF 1.5 Q3 DENTISTRY, ORAL SURGERY & MEDICINE
T. Popowics, Priti Mulimani
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引用次数: 0

摘要

发现对再生牙齿组织至关重要的成牙机制,并最终开发出用于替代的仿生人造全牙,是牙科临床医生和研究人员的一项持续努力。研究哺乳动物牙列的多样性、发育和进化变化,可以为牙列发生机制提供关键见解,用于再生牙科医学。预计哺乳动物的齿列将受到无数影响,我们的目标是强调系统发育、功能适应和发育对牙齿形状的贡献。将讨论牙齿形状分析的创新,如成像方法和定量比较、系统发育的分子生物学方法和牙齿形状的个体遗传学基础。对牙齿形状的物种间和物种内差异以及牙齿异常的研究为牙齿形状的进化变化机制提供了线索。因此,牙齿形状的表型变异也将被讨论,包括发育在创造牙齿形状差异中的作用,进化选择压力可能会作用于这些差异。功能适应发生在原始哺乳动物的系统发育信号背景下,以及每个系统发育分支的前身,实例将在食肉目、索总科和灵长目的成员中讨论。哺乳动物牙齿形状的比较研究有可能为牙齿研究领域提供信息,如牙齿变异的病因、牙齿形状异常、牙齿发育的分子机制和功能问题。最终,这些研究领域的见解可以潜在地转化为未来的临床应用,如各种牙齿组织层的再生和最终的全牙置换。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Mammalian dental diversity: an evolutionary template for regenerative dentistry
Discovery of odontogenic mechanisms essential for regenerating dental tissues and eventually developing a biomimetic artificial whole tooth for replacement is an ongoing aspiration for dental clinicians and researchers. Studying the diversity, development and evolutionary changes of mammalian dentitions, can provide key insights into the mechanisms of odontogenesis that can be harnessed for regenerative dental medicine. A myriad of influences is expected to have shaped the dentitions of mammals and our objective is to highlight the contributions of phylogeny, functional adaptation, and development to tooth shape. Innovations in tooth shape analysis will be discussed, such as in imaging methodologies and quantitative comparisons, molecular biology approaches to phylogeny and the ontogenetic basis of tooth form. Study of the inter and intra-species differences in tooth form as well as dental anomalies has provided clues toward the mechanisms of evolutionary change in dental form. Thus, phenotypic variation in tooth shape will also be discussed, including the role of development in creating tooth shape differences that evolutionary selection pressures may act upon. Functional adaptations have occurred in the context of the phylogenetic signal of primitive mammals, and predecessors to each phylogenetic branch, and examples will be discussed within members of the Order Carnivora, the Superfamily Suoidea and the Order Primates. The comparative study of mammalian tooth shape holds potential to inform dental research areas, such as etiopathogeneses of dental variation, and tooth shape anomalies, molecular mechanisms of tooth development and functional issues. Ultimately, insights from these research areas can be potentially translated for futuristic clinical applications like, regeneration of various tooth tissue layers and eventually full tooth replacement.
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CiteScore
2.10
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