Effects of Aerobic Exercise on Brain Age and Health in Middle-Aged and Older Adults: A Single-Arm Pilot Clinical Trial

Life Pub Date : 2024-07-08 DOI:10.3390/life14070855
Ouyang An, Can Zhang, N. Adra, R. Tesh, Haoqi Sun, Dan Lei, Jin Jing, Peng Fan, Luis Paixao, W. Ganglberger, Logan Briggs, J. Salinas, M. Bevers, Christiane Dorothea Wrann, Z. Chemali, Gregory Fricchione, Robert J. Thomas, J. Rosand, Rudolph E. Tanzi, M. Westover
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Abstract

Backgrounds: Sleep disturbances are prevalent among elderly individuals. While polysomnography (PSG) serves as the gold standard for sleep monitoring, its extensive setup and data analysis procedures impose significant costs and time constraints, thereby restricting the long-term application within the general public. Our laboratory introduced an innovative biomarker, utilizing artificial intelligence algorithms applied to PSG data to estimate brain age (BA), a metric validated in cohorts with cognitive impairments. Nevertheless, the potential of exercise, which has been a recognized means of enhancing sleep quality in middle-aged and older adults to reduce BA, remains undetermined. Methods: We conducted an exploratory study to evaluate whether 12 weeks of moderate-intensity exercise can improve cognitive function, sleep quality, and the brain age index (BAI), a biomarker computed from overnight sleep electroencephalogram (EEG), in physically inactive middle-aged and older adults. Home wearable devices were used to monitor heart rate and overnight sleep EEG over this period. The NIH Toolbox Cognition Battery, in-lab overnight polysomnography, cardiopulmonary exercise testing, and a multiplex cytokines assay were employed to compare pre- and post-exercise brain health, exercise capacity, and plasma proteins. Results: In total, 26 participants completed the initial assessment and exercise program, and 24 completed all procedures. Data are presented as mean [lower 95% CI of mean, upper 95% CI of mean]. Participants significantly increased maximal oxygen consumption (Pre: 21.11 [18.98, 23.23], Post 22.39 [20.09, 24.68], mL/kg/min; effect size: −0.33) and decreased resting heart rate (Pre: 66.66 [63.62, 67.38], Post: 65.13 [64.25, 66.93], bpm; effect size: −0.02) and sleeping heart rate (Pre: 64.55 [61.87, 667.23], Post: 62.93 [60.78, 65.09], bpm; effect size: −0.15). Total cognitive performance (Pre: 111.1 [107.6, 114.6], Post: 115.2 [111.9, 118.5]; effect size: 0.49) was significantly improved. No significant differences were seen in BAI or measures of sleep macro- and micro-architecture. Plasma IL-4 (Pre: 0.24 [0.18, 0.3], Post: 0.33 [0.24, 0.42], pg/mL; effect size: 0.49) was elevated, while IL-8 (Pre: 5.5 [4.45, 6.55], Post: 4.3 [3.66, 5], pg/mL; effect size: −0.57) was reduced. Conclusions: Cognitive function was improved by a 12-week moderate-intensity exercise program in physically inactive middle-aged and older adults, as were aerobic fitness (VO2max) and plasma cytokine profiles. However, we found no measurable effects on sleep architecture or BAI. It remains to be seen whether a study with a larger sample size and more intensive or more prolonged exercise exposure can demonstrate a beneficial effect on sleep quality and brain age.
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有氧运动对中老年人脑年龄和健康的影响:单臂试点临床试验
背景:睡眠障碍在老年人中十分普遍。虽然多导睡眠图(PSG)是睡眠监测的黄金标准,但其广泛的设置和数据分析程序带来了巨大的成本和时间限制,从而限制了在普通大众中的长期应用。我们的实验室推出了一种创新的生物标志物,利用人工智能算法应用于 PSG 数据来估算脑年龄(BA),这一指标已在认知障碍人群中得到验证。然而,运动是公认的提高中老年人睡眠质量、降低脑年龄的方法,但其潜力仍未确定。研究方法我们进行了一项探索性研究,以评估为期 12 周的中等强度运动是否能改善缺乏运动的中老年人的认知功能、睡眠质量和脑年龄指数(BAI,一种通过夜间睡眠脑电图(EEG)计算得出的生物标志物)。在此期间,家用可穿戴设备用于监测心率和夜间睡眠脑电图。采用美国国立卫生研究院工具箱认知能力电池、实验室内通宵多导睡眠图、心肺运动测试和多重细胞因子检测来比较运动前后的大脑健康状况、运动能力和血浆蛋白。结果共有 26 人完成了初步评估和运动计划,24 人完成了所有程序。数据以平均值[平均值的下限 95% CI,平均值的上限 95% CI]表示。参与者的最大耗氧量明显增加(前:21.11 [18.98, 23.23],后:22.39 [20.09, 24.68],毫升/千克/分钟;效应大小:-0.33),静息耗氧量明显减少(前:22.39 [20.09, 24.68],毫升/千克/分钟;效应大小:-0.33):-0.33)和静息心率降低(前:66.66 [63.62,67.38],后:65.13 [64.25,67.38]):-0.02)和睡眠心率(前:64.55 [61.87,667.23],后:62.93 [60.78,667.23],bpm;效应大小:-0.02):62.93[60.78,65.09],bpm;效应大小:-0.15):-0.15).总认知能力(治疗前:111.1 [107.6, 114.6],治疗后:115.2 [111.9, 118.5];效应大小:0.49)显著提高。BAI 或睡眠宏观和微观结构的测量结果没有明显差异。血浆 IL-4(前:0.24 [0.18,0.3],后:0.33 [0.24,0.42],pg/mL;效应大小:0.49)升高,而 IL-8(前:5.5 [4.45,6.55],后:4.3 [3.66,5],pg/mL;效应大小:-0.57)降低。结论对于不爱运动的中老年人来说,为期12周的中等强度运动计划改善了他们的认知功能,有氧体能(VO2max)和血浆细胞因子谱也得到了改善。但是,我们没有发现运动对睡眠结构或 BAI 有明显的影响。至于样本量更大、运动强度更大或运动时间更长的研究能否证明其对睡眠质量和脑年龄的有益影响,我们拭目以待。
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