Effects of aerobic exercise and gender on visual and auditory P300, reaction time, and accuracy.

Y Yagi, K L Coburn, K M Estes, J E Arruda
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引用次数: 173

Abstract

Visual and auditory reaction times (RTs) have been reported to decrease during moderate aerobic exercise, and this has been interpreted as reflecting an exercise-induced activation (EIA) of cognitive information processing. In the present study we examined changes in several independent measures of information processing (RT, accuracy, P300 latency and amplitude) during exercise, and their relationship to visual or auditory modalities and to gender. P300 latencies offer independent measures of cognitive speed that are unrelated to motor output, and P300 amplitudes have been used as measures of attentional allocation. Twenty-four healthy college students [mean (SD) age 20 (2) years] performed auditory and visual "oddball" tasks during resting baseline, aerobic exercise, and recovery periods. Consistent with previous studies, both visual and auditory RTs during exercise were significantly shortened compared to control and recovery periods (which did not differ from each other). We now report that, paralleling the RT changes, auditory and visual P300 latencies decreased during exercise, indicating the occurrence of faster cognitive information processing in both sensory modalities. However, both auditory and visual P300 amplitudes decreased during exercise, suggesting diminished attentional resource allocation. In addition, error rates increased during exercise. Taken together, these results suggest that the enhancement of cognitive information processing speed during moderate aerobic exercise, although operating across genders and sensory modalities, is not a global facilitation of cognition, but is accompanied by decreased attention and increased errors.

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有氧运动和性别对视觉和听觉P300、反应时间和准确性的影响。
据报道,在适度有氧运动中,视觉和听觉反应时间(RTs)会减少,这被解释为反映了运动诱导的认知信息处理激活(EIA)。在本研究中,我们研究了运动过程中信息处理的几个独立指标(RT、准确性、P300潜伏期和振幅)的变化,以及它们与视觉或听觉模式和性别的关系。P300潜伏期提供了与运动输出无关的认知速度的独立测量,P300振幅已被用作注意力分配的测量。24名健康大学生[平均(SD)年龄20(2)岁]在静息基线、有氧运动和恢复期执行听觉和视觉“古怪”任务。与先前的研究一致,与对照组和恢复期相比,运动期间的视觉和听觉RTs都显着缩短(两者之间没有差异)。我们现在报告说,与RT变化平行,听觉和视觉P300潜伏期在运动期间减少,表明两种感觉模式的认知信息处理速度更快。然而,在运动过程中,听觉和视觉P300振幅均下降,表明注意力资源分配减少。此外,错误率在运动过程中也有所增加。综上所述,这些结果表明,适度有氧运动期间认知信息处理速度的增强,尽管是跨性别和感官模式的,但并不是认知的全面促进,而是伴随着注意力的减少和错误的增加。
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