超越骨骼研究:气候适应中鼻腔气道功能的计算分析。

IF 1.7 2区 生物学 Q1 ANTHROPOLOGY American Journal of Biological Anthropology Pub Date : 2024-03-22 DOI:10.1002/ajpa.24932
Markus Bastir, Daniel Sanz-Prieto, Manuel A. Burgos, Alejandro Pérez-Ramos, Yann Heuzé, Laura Maréchal, Andrej Evteev, Viviana Toro-Ibacache, Francisco Esteban-Ortega
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引用次数: 0

摘要

研究目的人类鼻腔解剖学的生态地理变异历来都是根据骨骼形态学进行分析,并结合呼吸空调的气候适应性进行解释。只有少数研究分析了鼻腔软组织形态,而鼻腔软组织与空调生理密切相关:我们使用了来自柬埔寨、智利、俄罗斯和西班牙的成年个体(N = 146)的活体计算机断层扫描。我们利用计算流体动力学对吸气时的气流进行了模拟(N = 438),以分析鼻腔软组织在三种不同环境条件下(冷-干、热-干和热-湿)在流入道、功能道和流出道的空调能力。我们对不同人群和性别进行了统计比较:结果:在所有三种条件下,来自湿热地区的受试者的空调能力都明显低于来自寒冷地区的受试者,特别是在流入道的峡部区域和内部功能道的前部。功能束后部则没有发现差异。在任何一种条件下,任何一条管道都没有发现性别差异:讨论:我们的统计分析支持鼻前软组织形态的气候适应模型,该模型符合并补充了以前对干燥头骨的研究。然而,我们的研究结果对将空调能力完全归因于鼻腔内功能道的形态功能模型提出了质疑。相反,我们的研究结果支持那些认为外鼻和面部内软组织气道都有助于在吸气时有效地加温和加湿空气的研究。这支持了对现代中面部变异和进化的功能性解释。
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Beyond skeletal studies: A computational analysis of nasal airway function in climate adaptation

Objectives

Ecogeographic variation in human nasal anatomy has historically been analyzed on skeletal morphology and interpreted in the context of climatic adaptations to respiratory air-conditioning. Only a few studies have analyzed nasal soft tissue morphology, actively involved in air-conditioning physiology.

Materials and Methods

We used in vivo computer tomographic scans of (N = 146) adult individuals from Cambodia, Chile, Russia, and Spain. We conducted (N = 438) airflow simulations during inspiration using computational fluid dynamics to analyze the air-conditioning capacities of the nasal soft tissue in the inflow, functional, and outflow tract, under three different environmental conditions: cold–dry; hot–dry; and hot–humid. We performed statistical comparisons between populations and sexes.

Results

Subjects from hot–humid regions showed significantly lower air-conditioning capacities than subjects from colder regions in all the three conditions, specifically within the isthmus region in the inflow tract, and the anterior part of the internal functional tract. Posterior to the functional tract, no differences were detected. No differences between sexes were found in any of the tracts and under any of the conditions.

Discussion

Our statistical analyses support models of climatic adaptations of anterior nasal soft tissue morphology that fit with, and complement, previous research on dry skulls. However, our results challenge a morpho-functional model that attributes air-conditioning capacities exclusively to the functional tract located within the nasal cavity. Instead, our findings support studies that have suggested that both, the external nose and the intra-facial soft tissue airways contribute to efficiently warming and humidifying air during inspiration. This supports functional interpretations in modern midfacial variation and evolution.

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In Memoriam: Michael H. Crawford (1939-2024). Issue Information - Table of Contents Cover & Editorial Board Technical note: Effects of chemical, radiational, and thermal treatment of bone tissue on material stiffness and anisotropy. Relative facial width, and its association with canine size and body mass among chimpanzees and bonobos: Implications for understanding facial width-to-height ratio expression among human populations.
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