The Effects of Whole-body Cold-water Immersion on Brain Connectivity Related to the Affective State in Adults Using fMRI: A Protocol of a Pre-post Experimental Design.

Ala Yankouskaya, Heather Massey, John James Totman, Lin Hui Lai, Ruth Williamson
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Abstract

An emerging body of behavioural studies indicates that regular swimming in cold water has positive effects on mental health and wellbeing, such as reducing fatigue, improving mood, and lessening depressive symptoms. Moreover, some studies reported immediate effects of cold-water immersion (CWI) on elevating mood and increasing a positive emotional state. However, the neural mechanisms underlying these effects remain largely unknown. The lack of studies using neuroimaging techniques to investigate how a whole-body CWI affects neural processes has partly resulted from the lack of a tested experimental protocol. Previous protocols administered tonic limb cooling (1-10 °C) while recording functional magnetic resonance (fMRI) signals. However, using very low water temperature constitutes points of contrast to painful experiences that are different from what we experience after a whole-body head-out CWI. In our protocol, healthy adults unhabituated to cold water were scanned twice: immediately before (pre-CWI) and after (post-CWI) immersion in cold water (water temperature 20 °C) for 5 min. We recorded cardiac and ventilatory responses to CWI and assessed self-reported changes in positive and negative affects. Our protocol showed reliable changes in brain connectivity after a short exposure to cold water, thus enabling its use as a tested experimental framework in future studies.

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使用功能磁共振成像研究全身冷水浸泡对成人情感状态相关的脑连通性的影响:一种实验前-后设计方案。
一项新的行为研究表明,经常在冷水中游泳对心理健康和幸福有积极影响,比如减少疲劳,改善情绪,减轻抑郁症状。此外,一些研究报道了冷水浸泡(CWI)对提升情绪和增加积极情绪状态的直接影响。然而,这些影响背后的神经机制在很大程度上仍然未知。缺乏使用神经成像技术来研究全身CWI如何影响神经过程的研究,部分原因是缺乏经过测试的实验方案。先前的方案在记录功能磁共振(fMRI)信号的同时给予强直性肢体冷却(1-10°C)。然而,使用非常低的水温会产生不同于我们在全身穿刺CWI后所经历的痛苦体验。在我们的方案中,对不习惯冷水的健康成年人进行了两次扫描:在冷水(水温20°C)浸泡5分钟之前(CWI前)和之后(CWI后)。我们记录了心脏和通气对CWI的反应,并评估了自我报告的积极和消极影响的变化。我们的方案显示,在短时间接触冷水后,大脑连通性发生了可靠的变化,从而使其成为未来研究中经过测试的实验框架。
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