大脑结构与体育锻炼之间的双向关系：英国生物库纵向分析。

IF 3.7 3区医学 Q2 GERIATRICS & GERONTOLOGY Neurobiology of Aging Pub Date : 2024-03-04 DOI:10.1016/j.neurobiolaging.2024.03.001

María Rodriguez-Ayllon , Alexander Neumann , Amy Hofman , Meike W. Vernooij , Julia Neitzel

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引用次数: 0

摘要

体育锻炼是防止脑萎缩的一个保护性因素，而脑容量的损失也可能是体育锻炼的一个决定性因素。因此，我们旨在探索英国生物库中中老年人体育锻炼与大脑结构之间的双向联系。共有 3027 名参与者（62.45 ± 7.27 岁，51.3% 为女性）获得了两个时间点的数据。海马体积与总运动量（β=0.048，pFDR=0.016）相关，家庭运动量（β=0.075，pFDRFDR=0.028）也与家庭运动量相关。与此相反，步行与白质体积呈负相关（β=-0.026，pFDR=0.008）。所有这些关联都在线性混合模型中得到了证实。有趣的是，基线时的运动量与随访时的海马和额叶皮质体积有关，但在进行多重比较调整后，这些关联消失了（pall>0.104）。总之，我们发现更一致的证据表明，更健康的大脑结构预示着更高的体育锻炼水平，而不是更成熟的反向关系。

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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The bidirectional relationship between brain structure and physical activity: A longitudinal analysis in the UK Biobank

Physical activity is a protective factor against brain atrophy, while loss of brain volume could also be a determinant of physical activity. Therefore, we aimed to explore the bidirectional association of physical activity with brain structures in middle-aged and older adults from the UK Biobank. Overall, 3027 participants (62.45 ± 7.27 years old, 51.3% females) had data at two time points. Hippocampal volume was associated with total (β=0.048, p_FDR=0.016) and household (β=0.075, p_FDR<0.001) physical activity. Global fractional anisotropy (β=0.042, p_FDR=0.028) was also associated with household physical activity. In the opposite direction, walking was negatively associated with white matter volume (β=-0.026, p_FDR=0.008). All these associations were confirmed by the linear mixed models. Interestingly, sports at baseline were linked to hippocampal and frontal cortex volumes at follow-up but these associations disappeared after adjusting for multiple comparisons (p_all>0.104). In conclusion, we found more consistent evidence that a healthier brain structure predicted higher physical activity levels than for the inverse, more established relationship.

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来源期刊

Neurobiology of Aging 医学-老年医学

CiteScore

8.40

自引率

2.40%

发文量

225

审稿时长

67 days

期刊介绍： Neurobiology of Aging publishes the results of studies in behavior, biochemistry, cell biology, endocrinology, molecular biology, morphology, neurology, neuropathology, pharmacology, physiology and protein chemistry in which the primary emphasis involves mechanisms of nervous system changes with age or diseases associated with age. Reviews and primary research articles are included, occasionally accompanied by open peer commentary. Letters to the Editor and brief communications are also acceptable. Brief reports of highly time-sensitive material are usually treated as rapid communications in which case editorial review is completed within six weeks and publication scheduled for the next available issue.