Effects of continuous and intermittent exercise on executive function in children aged 8-10 years
Effects of continuous and intermittent exercise on executive function in children aged 8-10 years
Understanding the effects of acute exercise on executive function in prepubescent children may be important for the enhancement of school performance. This study assessed the effect of an acute bout of continuous (CONT) or intermittent (INT), moderate-intensity treadmill exercise on executive function in young children. Twenty healthy children, mean (SD); age: 8.8 (0.8) years; height: 140 (9) cm; weight: 36 (11) kg; boys: n?=?9, performed a graded-exercise test to determine maximal oxygen uptake, and two 15-min submaximal bouts of treadmill exercise; protocols were either CONT or INT. During CONT, participants ran at 90% of gas exchange threshold. During INT, participants performed six consecutive 2.5 min blocks of exercise, which were designed to reflect children's typical activity patterns, comprising 45 s at a heavy intensity, 33 s at a moderate intensity, 10 s at a severe intensity, and 62 s at a low intensity. Participants performed the Stroop task before the submaximal exercise bouts and after, at 1-, 15-, and 30-min intervals. Near-infrared spectroscopy (NIRS) measured cerebral perfusion and oxygenation. Regardless of condition, Stroop performance was improved at 1 min after compared to before, 54.9 (9.8) s versus 57.9 (11) s, respectively, p?<?.01, and improvements were maintained until 30 min after. NIRS (oxyhemoglobin, total hemoglobin) explained a significant amount of variance in the change in Stroop performance for INT only (49%, p?<?.05). An acute bout of exercise, of either an intermittent or continuous nature, improves executive function in children, and effects are maintained for???30 min following exercise cessation. Accordingly, it is recommended that children should engage in physical activity during periods of school recess.
1335-1342
Lambrick, Danielle
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Stoner, Lee
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Grigg, Rebecca
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Faulkner, James
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September 2016
Lambrick, Danielle
1deafa4b-acf3-4eff-83c9-f8274e47e993
Stoner, Lee
0f9dd581-205f-490d-8879-7ba7cfa51450
Grigg, Rebecca
0d648efe-baa0-4b63-bbf2-43bce79bdcf3
Faulkner, James
1bedc0f0-8fa4-4bf3-8e31-abd084b0c148
Lambrick, Danielle, Stoner, Lee, Grigg, Rebecca and Faulkner, James
(2016)
Effects of continuous and intermittent exercise on executive function in children aged 8-10 years.
Psychophysiology, 53 (9), .
(doi:10.1111/psyp.12688).
(PMID:27314635)
Abstract
Understanding the effects of acute exercise on executive function in prepubescent children may be important for the enhancement of school performance. This study assessed the effect of an acute bout of continuous (CONT) or intermittent (INT), moderate-intensity treadmill exercise on executive function in young children. Twenty healthy children, mean (SD); age: 8.8 (0.8) years; height: 140 (9) cm; weight: 36 (11) kg; boys: n?=?9, performed a graded-exercise test to determine maximal oxygen uptake, and two 15-min submaximal bouts of treadmill exercise; protocols were either CONT or INT. During CONT, participants ran at 90% of gas exchange threshold. During INT, participants performed six consecutive 2.5 min blocks of exercise, which were designed to reflect children's typical activity patterns, comprising 45 s at a heavy intensity, 33 s at a moderate intensity, 10 s at a severe intensity, and 62 s at a low intensity. Participants performed the Stroop task before the submaximal exercise bouts and after, at 1-, 15-, and 30-min intervals. Near-infrared spectroscopy (NIRS) measured cerebral perfusion and oxygenation. Regardless of condition, Stroop performance was improved at 1 min after compared to before, 54.9 (9.8) s versus 57.9 (11) s, respectively, p?<?.01, and improvements were maintained until 30 min after. NIRS (oxyhemoglobin, total hemoglobin) explained a significant amount of variance in the change in Stroop performance for INT only (49%, p?<?.05). An acute bout of exercise, of either an intermittent or continuous nature, improves executive function in children, and effects are maintained for???30 min following exercise cessation. Accordingly, it is recommended that children should engage in physical activity during periods of school recess.
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Effects of continuous and intermittent exercise on executive function in children aged 8-10 Final Submission.pdf
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Accepted/In Press date: 10 May 2016
e-pub ahead of print date: 17 June 2016
Published date: September 2016
Organisations:
Faculty of Health Sciences
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Local EPrints ID: 396822
URI: http://eprints.soton.ac.uk/id/eprint/396822
ISSN: 0048-5772
PURE UUID: e88e78bf-7523-428a-8e2b-7c6a831d0d7c
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Date deposited: 14 Jun 2016 14:37
Last modified: 15 Mar 2024 05:40
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Author:
Lee Stoner
Author:
Rebecca Grigg
Author:
James Faulkner
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