Smoking and High‐Altitude Exposure Affect Intrinsic Neural Activity: A fMRI Study of Interactive Effects
Qingqing Lv, Minghe Wang, Chunxiao Bu, Junjie Liao, Kefan Wang, Hui Xu, Xijuan Liang, Ning Zheng, Liangjie Lin, Longyao Ma, Weijian Wang, Zhen Ma, Meiying Cheng, Xin Zhao, Lin Lu, Yong Zhang

TL;DR
This study finds that both smoking and high-altitude exposure affect brain activity, with a combined impact in specific brain regions.
Contribution
The study is among the first to investigate the interactive effects of smoking and high-altitude exposure on intrinsic brain activity using fMRI.
Findings
Smoking and high-altitude exposure each independently increased ALFF in multiple brain regions.
A significant interaction effect was observed in the right precentral gyrus between smoking and high-altitude exposure.
Post hoc analysis showed increased ALFF in HA smokers compared to HA nonsmokers and sea-level smokers.
Abstract
Smoking and high‐altitude (HA) exposure both adversely affect human health, with smoking linked to various cancers and high‐altitude environments causing physiological and neurological changes. Although the effects of smoking and HA exposure on brain structure and function have been studied separately, their combined impact is still rarely explored. This study aims to investigate the interactive effects of smoking and HA exposure on intrinsic brain activity using the resting‐state functional magnetic resonance imaging (rs‐fMRI) analysed by the amplitude of low‐frequency fluctuations (ALFF) method. We used a mixed sample design, including four groups: (i) HA smokers (n = 22); (ii) HA nonsmokers (n = 22); (iii) sea‐level (SL) smokers (n = 26); and (iv) SL nonsmokers (n = 26), for a total of 96 male participants. All subjects underwent resting‐state functional magnetic resonance imaging.…
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Taxonomy
TopicsFunctional Brain Connectivity Studies · Heart Rate Variability and Autonomic Control · Health, Environment, Cognitive Aging
