Cilia and Nodal Flow in Asymmetry: An Engineering Perspective.

Madisyn Messmore, Alain J Kassab, Ray O Prather, David A Castillo Arceo, William DeCampli
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Abstract

Over the past several years, cilia in the primitive node have become recognized more and more for their contribution to development, and more specifically, for their role in axis determination. Although many of the mechanisms behind their influence remain undocumented, it is known that their presence and motion in the primitive node of developing embryos is the determinant of the left-right axis. Studies on cilial mechanics and nodal fluid dynamics have provided clues as to how this asymmetry mechanism works, and more importantly, have shown that direct manipulation of the flow field in the node can directly influence physiology. Although relatively uncommon, cilial disorders have been shown to have a variety of impacts on individuals from chronic respiratory infections to infertility, as well as situs inversus which is linked to congenital heart disease. After first providing background information pertinent to understanding nodal flow and information on why this discussion is important, this paper aims to give a review of the history of nodal cilia investigations, an overview of cilia mechanics and nodal flow dynamics, as well as a review of research studies current and past that sought to understand the mechanisms behind nodal cilia's involvement in symmetry-breaking pathways through a biomedical engineering perspective. This discussion has the additional intention to compile interdisciplinary knowledge on asymmetry and development such that it may encourage more collaborative efforts between the sciences on this topic, as well as provide insight on potential paths forward in the field.

不对称中的纤毛和节点流:工程学视角。
在过去的几年中,原始节点中的纤毛对发育的贡献,特别是在轴决定中的作用,越来越得到认可。尽管纤毛影响背后的许多机制仍未得到证实,但人们已经知道,纤毛在发育胚胎原始结节中的存在和运动是左右轴的决定因素。对纤毛力学和结节流体动力学的研究为这种不对称机制的运作提供了线索,更重要的是,研究表明直接操纵结节中的流场可以直接影响生理机能。纤毛失调虽然相对不常见,但已被证明会对个人产生各种影响,从慢性呼吸道感染到不孕不育,以及与先天性心脏病有关的坐位不正。本文首先介绍了了解结节流的相关背景信息,并说明了讨论的重要性,然后回顾了结节纤毛研究的历史,概述了纤毛力学和结节流动力学,并回顾了当前和过去的研究,这些研究试图通过生物医学工程的视角来了解结节纤毛参与对称性破坏途径背后的机制。本次讨论的另一个目的是汇集有关不对称和发育的跨学科知识,从而鼓励科学界就这一主题开展更多合作,并为该领域的潜在发展道路提供见解。
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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