From heart beats to health recipes: The role of fractal physiology in the Ancestral Health movement.

Aaron P Blaisdell, Brent C Pottenger, John S Torday
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引用次数: 3

Abstract

The human body-an amazing biological system that scales up fractally from its cellular building blocks-exhibits an incredible ability to self heal. Why then, are chronic diseases and degeneration on the rise in the population? Why are we sicker, more obese, and more depressed and stressed than ever before in human history? Why can't we heal? The answers to these questions may lie in our ancestry, and modern departure from the human ecological niche. The ability to heal requires proper spatio-temporal inputs-nutrition, sleep, stress, activity, and socialization-in order for cellular signaling to occur properly across semi-permeable cell membranes. We first review key steps in the evolutionary history of multicellular life, focusing on the fundamental role of cell-cell interactions. Next, we present this as an important framework by which to understand how the entrainment of physiological signals in homeostatic mechanisms reveals new insights into the processes of disease. Examples are drawn from the evolution of metabolism, nutrition, and respiration in multicellular life. We argue that disease processes result from a mismatch between the physiological inputs an individual receives and their optimal amount and fractal distribution as determined by an individual's ancestry. A comparative analysis is a useful tool by which to illuminate deep homologies that reveal a mechanistic account for disease processes. This cell-molecular approach provides a useful contrast to the traditional reductionist approach to disease exemplified by the human genome project. As an example, we describe how cell-cell communication drives the ontogeny and phylogeny of physiology, producing the tissues, organs, and organ systems that hierarchically serve human physiology on various levels. Modern society, with its disconnected and stress-riddled lifestyle, is increasingly failing to provide the proper inputs for healthy gene expression and physiological function. Thus, the answers to our modern health woes-physical, mental, and social-may lie in acknowledging the powerful roles that our past has played in shaping our bodies. Finding ways to provide the proper inputs of the human ecological niche in the modern day may lead to significant, perhaps staggering improvements in our health and wellness. The fractal mathematics underpinning these dynamics also serves as a metaphor for the Ancestral Health Movement, which is currently arising as a multi-cultural, multi-national grass-roots pluralistic phenomenon.

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从心跳到健康食谱:分形生理学在祖先健康运动中的作用。
人体是一个神奇的生物系统,它由细胞组成部分逐步扩大,展现出令人难以置信的自愈能力。那么,为什么慢性病和退化在人口中呈上升趋势呢?为什么我们比人类历史上任何时候都更病、更肥胖、更抑郁、更有压力?为什么我们不能愈合?这些问题的答案可能在于我们的祖先,以及现代人对人类生态位的背离。愈合能力需要适当的时空输入——营养、睡眠、压力、活动和社交——以便细胞信号在半透性细胞膜上正确发生。我们首先回顾了多细胞生命进化史上的关键步骤,重点关注细胞-细胞相互作用的基本作用。接下来,我们将此作为一个重要的框架,通过它来理解生理信号在体内平衡机制中的夹带如何揭示对疾病过程的新见解。从多细胞生命的新陈代谢、营养和呼吸的进化中可以得到例子。我们认为,疾病过程是由于个体接受的生理输入与个体祖先决定的最佳数量和分形分布之间的不匹配造成的。比较分析是一种有用的工具,通过它可以阐明揭示疾病过程机制的深层同源性。这种细胞-分子方法与以人类基因组计划为例的传统还原论方法形成了有益的对比。作为一个例子,我们描述了细胞间通讯如何驱动生理学的个体发生和系统发生,产生组织、器官和器官系统,这些组织、器官和器官系统在不同水平上分层服务于人类生理学。现代社会的生活方式与外界脱节,压力重重,越来越不能为健康的基因表达和生理功能提供适当的输入。因此,我们现代健康问题的答案——身体上、精神上和社会上——可能在于承认我们的过去在塑造我们的身体方面所起的强大作用。在现代,找到提供适当的人类生态位输入的方法可能会导致我们的健康和健康得到显著的,也许是惊人的改善。支撑这些动态的分形数学也可以作为祖先健康运动的隐喻,它目前正在作为一个多文化、多民族的基层多元化现象出现。
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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From heart beats to health recipes: The role of fractal physiology in the Ancestral Health movement.
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