Motion sickness, nausea and thermoregulation: The “toxic” hypothesis

Temperature: Multidisciplinary Biomedical Journal Pub Date : 2014-12-31 DOI:10.4161/23328940.2014.982047

E. Nalivaiko, J. Rudd, R. So

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引用次数: 52

Abstract

Principal symptoms of motion sickness in humans include facial pallor, nausea and vomiting, and sweating. It is less known that motion sickness also affects thermoregulation, and the purpose of this review is to present and discuss existing data related to this subject. Hypothermia during seasickness was firstly noted nearly 150 years ago, but detailed studies of this phenomenon were conducted only during the last 2 decades. Motion sickness-induced hypothermia is philogenetically quite broadly expressed as besides humans, it has been reported in rats, musk shrews and mice. Evidence from human and animal experiments indicates that the physiological mechanisms responsible for the motion sickness-induced hypothermia include cutaneous vasodilation and sweating (leading to an increase of heat loss) and reduced thermogenesis. Together, these results suggest that motion sickness triggers highly coordinated physiological response aiming to reduce body temperature. Finally, we describe potential adaptive role of this response, and describe the benefits of using it as an objective measure of motion sickness-induced nausea.

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晕动病、恶心和体温调节:“有毒”假说

人类晕动病的主要症状包括脸色苍白、恶心、呕吐和出汗。很少有人知道晕动病也会影响体温调节，这篇综述的目的是介绍和讨论与这一主题相关的现有数据。晕船时的体温过低最早是在150年前发现的，但对这一现象的详细研究直到最近20年才进行。晕动病引起的低温症在生理学上的表现非常广泛，除人类外，在大鼠、麝鼠和小鼠中都有报道。来自人体和动物实验的证据表明，导致晕动病引起的体温过低的生理机制包括皮肤血管舒张和出汗(导致热损失增加)和产热减少。总之，这些结果表明，晕动病引发了旨在降低体温的高度协调的生理反应。最后，我们描述了这种反应的潜在适应性作用，并描述了将其作为运动病引起的恶心的客观测量的好处。

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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Temperature: Multidisciplinary Biomedical Journal

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