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The influence of volume‐matched acute aerobic exercise on inhibitory control in late‐middle‐aged and older adults: A neuroelectric study

Chien‐Heng Chu, Shih‐Chun Kao, Charles H. Hillman, Feng‐Tzu Chen, Ruei‐Hong Li, Jingyi Ai, Yu‐Kai Chang

2023Psychophysiology11 citationsDOIOpen Access PDF

Abstract

Acute aerobic exercise has been shown to benefit inhibitory control; however, less attention has been devoted to the effects of varying intensity and duration with a predetermined exercise volume. The current study assessed the influence of three distinct exercise conditions, each equated with a predesignated exercise volume but varied in terms of exercise durations and intensities, on inhibitory control utilizing both behavioral and neuroelectric measures obtained among late-middle-aged and older adults. Thirty-four adults (61.76 ± 0.80 years) completed three exercise conditions [i.e., a 30-min low-intensity exercise (LIE), a 20-min moderate-intensity exercise (MIE), and a 16-min high-intensity exercise (HIE)] and a non-exercise reading control condition (CON) on separate days. The exercise volumes of LIE and HIE were designed to match the exercise volume of MIE. Following cessation of each condition, the Stroop task was performed while event-related potentials were recorded. Improved behavioral performance (i.e., shorter response time, higher accuracy, and smaller interference scores) was observed after LIE, MIE, and HIE than CON (ps < .005). Additionally, whereas a larger P3b amplitude was only observed following MIE compared to CON (p < .01), larger N2 and smaller N450 amplitudes were observed following all three exercise conditions compared to CON (ps < .005). These findings suggested that while MIE may provide additional benefits for attentional resource allocation, exercise conditions volume matched to MIE resulted in superior inhibitory control, paralleled by modulations of the neural underpinnings of conflict monitoring/detection.

Topics & Concepts

Stroop effectAerobic exercisePsychologyIntensity (physics)AudiologyInhibitory controlExercise intensityPhysical therapyPhysical exerciseP3bPhysical medicine and rehabilitationExercise physiologyEvent-related potentialMedicineInternal medicineElectroencephalographyCognitionNeuroscienceHeart rateBlood pressurePhysicsQuantum mechanicsNeural and Behavioral Psychology StudiesEEG and Brain-Computer InterfacesHeart Rate Variability and Autonomic Control