Regional gray matter volume correlates to physical and mental fatigue in healthy middle-aged adults

Q4 Neuroscience
Handityo Aulia Putra , Kaechang Park , Fumio Yamashita , Kei Mizuno , Yasuyoshi Watanabe
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引用次数: 2

Abstract

Previous studies on neural/molecular mechanisms of fatigue focused on a variety of brain functions, morphological changes, and neurochemical functions such as neurotransmitter and neuroimmune dynamics. However, MRI morphological changes were adopted primarily to compare patients with Myalgic Encephalomyelitis/Chronic Fatigue Syndrome (ME/CFS) and healthy controls. A few studies have been done on healthy subjects with fatigue scores; one study with 63 adults (their ages of 53.2 ± 8.3) showed the gray matter volume (GMV) reduction in good correlation with a higher score of fatigue. The other one with university students (their ages of 20.7 ± 1.8) demonstrated no significant correlation between regional GMV (rGMV) and fatigue severity. To elucidate the brain structural underpinning in parallel with fatigue development, a large number of healthy middle-aged adults (n = 1873; aged 54.1 ± 5.4) without ME/CFS were recruited, and the correlation between both rGMV in the cerebrum including basal ganglia and Chalder's fatigue questionnaire (CFQ) with physical and mental categories were investigated. A higher CFQ score denotes a higher perceived fatigue level by the participant. The physical fatigue scores of CFQ showed a significantly negative correlation (i.e., smaller rGMV for higher CFQ score) with the volume of the right planum temporale and supplemental motor cortex (SMC), while the left putamen, middle temporal gyrus (MTG), parietal operculum, and right precentral gyrus showed a significantly positive correlation (i.e., bigger rGMV for higher CFQ score). In the mental fatigue scores, the right SMC and left lateral orbital gyrus (LOG) showed a significantly negative correlation, while only the left fusiform gyrus showed a significantly positive correlation. In total scores of (both physical and mental) fatigue, the right SMC and orbital part of the inferior frontal gyrus (OIFG) showed a negative correlation, while the left putamen and MTG showed a positive correlation. Therefore, the right SMC may play a critical role in fatigue progression because of the only common factor among physical, mental, and total fatigue. The left putamen may play a compensatory role with a positive correlation to physical and total fatigue. Additionally, identifying the other gray matter regions that positively or negatively correlated to CFQ of healthy adults may help deepen the understanding of early-stage fatigue progression, leading to the future establishment of preventive measures through volumetrics by using MRI.

Abstract Image

区域灰质体积与健康中年人身心疲劳相关
以往对疲劳的神经/分子机制的研究主要集中在多种脑功能、形态学变化和神经化学功能,如神经递质和神经免疫动力学。然而,MRI形态学改变主要用于比较肌痛性脑脊髓炎/慢性疲劳综合征(ME/CFS)患者和健康对照组。一些研究是针对有疲劳评分的健康受试者进行的;一项对63名成年人(年龄为53.2±8.3)的研究显示,灰质体积(GMV)的减少与较高的疲劳评分有良好的相关性。大学生(20.7±1.8岁)的区域GMV (rGMV)与疲劳程度无显著相关。为了阐明与疲劳发展并行的大脑结构基础,大量健康中年人(n = 1873;招募年龄54.1±5.4岁,无ME/CFS的受试者,研究包括基底节区在内的大脑rGMV与Chalder’s疲劳问卷(CFQ)与身心类别的相关性。CFQ得分越高,受试者的疲劳感知水平越高。CFQ体力疲劳评分与右侧颞平面和辅助运动皮层(SMC)体积呈显著负相关(即rGMV越小,CFQ评分越高),而左侧壳核、颞中回、顶盖、右侧中央前回体积呈显著正相关(即rGMV越大,CFQ评分越高)。在精神疲劳评分中,右侧SMC与左侧外侧眼眶回呈显著负相关,只有左侧梭状回呈显著正相关。在体力和精神疲劳总分中,右侧SMC与额下回眶部呈负相关,左侧壳核与MTG呈正相关。因此,右SMC可能在疲劳进展中起关键作用,因为它是身体、精神和全身疲劳的唯一共同因素。左壳核可能起代偿作用,与体力和总疲劳呈正相关。此外,确定与健康成人CFQ呈正相关或负相关的其他灰质区域可能有助于加深对早期疲劳进展的理解,从而通过MRI体积测量建立未来的预防措施。
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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来源期刊
Neuroimage. Reports
Neuroimage. Reports Neuroscience (General)
CiteScore
1.90
自引率
0.00%
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0
审稿时长
87 days
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