Effect of an acute bout of exercise on executive function and sleep in children with attention deficit hyperactivity disorder and autism spectrum disorder

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS

ACS Applied Bio Materials Pub Date : 2024-08-03 DOI:10.1016/j.mhpa.2024.100624

Grace W. Walters , Shelley Taylor , Emma L. Sweeney , Simon B. Cooper , Ryan A. Williams , Karah J. Dring

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Abstract

Background and aims

The present study aimed to examine the effect of an acute bout of circuit-base exercise on executive function, visual perception and sleep parameters in neurodiverse children.

Methods

After familiarisation, 34 children (4 female) with ADHD and/or ASD completed two trials (30-min circuit-based exercise (E) or a rested control (C) trial) in a randomised, counterbalanced, crossover design. Participants completed cognitive function tests (Stroop test, Sternberg Paradigm and Visual Search Test) at baseline, immediately post-exercise, and the morning after exercise. Participants were provided with a wrist actigraph to wear overnight to determine sleep duration, wake after sleep onset, sleep efficiency, and sleep latency. Statistical analyses were conducted via ANCOVA, with diagnosis included as a covariate.

Results

Accuracy on the Stroop test (complex level) was better maintained following circuit-based exercise when compared with rest immediately post-exercise (E: 1.88% decreased accuracy; C: 4.73% decreased accuracy, p = 0.009), and on day two (E: 1.22% increased accuracy; C: 6.37% decreased accuracy; p < 0.001). Accuracy on the Sternberg Paradigm (5-item level) was improved immediately post-exercise on the exercise trial when compared with rest (E: 0.37% decreased accuracy; C: 7.29% decreased accuracy; p = 0.011). Improvements in accuracy across both tests were at the expense of response time, which was slower on the exercise trial (all p < 0.05). Sleep parameters did not differ across trials (all p > 0.05).

Conclusion

Moderate intensity circuit-based exercise is an ecologically valid exercise modality that, acutely, improves executive function (compared to rest), which may alleviate the impaired executive function in children with ADHD and ASD.

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急性运动对注意力缺陷多动障碍和自闭症谱系障碍儿童执行功能和睡眠的影响

背景和目的本研究旨在探讨急性电路基础锻炼对神经多样性儿童的执行功能、视觉感知和睡眠参数的影响。方法34名患有多动症和/或自闭症的儿童（4名女性）在熟悉情况后，以随机、平衡、交叉设计的方式完成了两项试验（30分钟电路基础锻炼试验（E）或休息对照试验（C））。参与者分别在基线、运动后立即和运动后第二天早上完成认知功能测试（斯特罗普测试、斯特恩伯格范式和视觉搜索测试）。研究人员还为参与者提供了一个可佩戴过夜的腕式动觉计，用于测定睡眠时间、睡眠开始后的唤醒情况、睡眠效率和睡眠潜伏期。通过方差分析进行统计分析，并将诊断作为协变量。结果与运动后立即休息（E：准确率下降 1.88%；C：准确率下降 4.73%，p = 0.009）和运动后第二天（E：准确率提高 1.22%；C：准确率下降 6.37%；p <0.001）相比，回路运动后的 Stroop 测试（复杂水平）准确率保持得更好。与休息时相比，运动后立即进行运动试验的斯腾伯格范式（5 项水平）准确性有所提高（E：准确性降低 0.37%；C：准确性降低 7.29%；p = 0.011）。这两项测试的准确性提高是以反应时间为代价的，运动试验的反应时间更慢（所有 p 均为 0.05）。结论：中等强度的巡回运动是一种生态学上有效的运动方式，它能迅速改善执行功能（与休息相比），从而缓解多动症和自闭症儿童执行功能受损的问题。

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

ACS Applied Bio Materials Chemistry-Chemistry (all)

CiteScore

9.40

自引率

2.10%

发文量

464