Journal of Clinical and Diagnostic Research, ISSN - 0973 - 709X

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Original article / research
Year : 2018 | Month : June | Volume : 12 | Issue : 6 | Page : CC05 - CC10

Effects of Aerobic Exercise on Frontal EEG Asymmetry, Coherence and Mood: A Pilot Study

Vernon Bond JR, Alexis Osby, Thomas Obisesan, Krishna Kumar, Sudhakar Pemminati, Vasavi Rakesh Gorantla, Yulia Andreevna Volkova, Richard Mark Millis

1. Professor, Department of Recreation, Human Performance & Leisure Studies and Exercise Science & Human Nutrition, Howard University Cancer Centre, Washington DC, USA. 2. Ph.D. Student, Department of Recreation, Human Performance & Leisure Studies and Exercise Science & Human Nutrition, Howard University Cancer Centre, Washington DC, USA. 3. Professor, Department of Internal Medicine, Howard University College of Medicine & Howard University Hospital, Washington DC, USA. 4. Professor, Department of Pharmaceutical Sciences, Howard University, Washington DC, USA. 5. Associate Professor, Department of Medical Pharmacology, American University of Antigua College of Medicine, Antigua, St.John Antigua and Barbuda. 6. Associate Professor, Department of Behavioural and Neuroscience, American University of Antigua, College of Medicine, Antigua, St.John Antigua and Barbuda. 7. Tutor, Department of Clinical Medicine, American University American University of Antigua, College of Medicine,

Correspondence Address :
Dr. Richard Mark Millis,
Professor & Associate Dean for Research American University of Antigua College of Medicine University
Park Jabberwock Beach Road Coolidge, Antigua.
E-mail: rmillis@auamed.net

Abstract

Introduction: Electroencephalographically-measured frontal alpha asymmetry is shown to reflect changes in mood. Negative mood changes are purported to limit exercise capacity in some groups, thereby contributing to the current epidemic of overweight, obesity and related diseases.

Aim: This study tests the hypothesis that the mood changes associated with aerobic exercise are correlated with changes in frontal EEG asymmetry.

Materials and Methods: Healthy young adult African-American (AA) men (n=8) and women (n=8) were subjected to quantitative EEG brain mapping of delta, theta, alpha and beta bandwidths after a period of rest or a period of aerobic exercise at a fixed energy expenditure. Brain mapping was performed within 30 min after rest or exercise, immediately before completing a questionnaire which included a total mood disturbance score (tMDS) and specific mood subcategory scores consisting of vigor, fatigue, anger, confusion tension, depression. Prefrontal and inferior frontal asymmetry were evaluated. Significance of differences between rest and exercise prefrontal and inferior frontal AS was evaluated by one-way ANOVA.

Results: Exercise-related decrements in asymmetry were significant for prefrontal delta (p=0.05) and marginally significant for prefrontal alpha and theta (p=0.07) in the male subjects. There were significant decrements in tension and tMDS for the males and females and a decrement in depression score for the females between the post-control rest and the post-exercise conditions. Significant negative correlation between the tMDS and prefrontal beta asymmetry was found, across post-rest and post-exercise (r= -0.38, p=0.05, 30 df). There were also significant correlations between confusion and prefrontal beta asymmetry during rest (r= 0.48, p=0.05, 14 df), between vigor and inferior frontal beta asymmetry, between vigor and both inferior frontal theta asymmetry and inferior frontal delta asymmetry during exercise (r= 0.46, -0.54, p=0.05, 14 df), and between vigor, confusion, tension and inferior frontal delta asymmetry post-exercise (r= -0.49, -0.45, -0.49, p=0.05, 14 df).

Conclusion: The high prefrontal beta asymmetry associated with depressed mood in AA males and females, the lessening of prefrontal delta, theta and alpha asymmetry in the males and the lower depression scores after aerobic exercise in the females seem to support the hypothesis that decreased asymmetry with increased activation of the right prefrontal and frontal cortices may accompany the mood changes associated with aerobic exercise.

Keywords

African Americans, Brain mapping, Mood changes

How to cite this article :

Vernon Bond JR, Alexis Osby, Thomas Obisesan, Krishna Kumar, Sudhakar Pemminati, Vasavi Rakesh Gorantla, et al.. EFFECTS OF AEROBIC EXERCISE ON FRONTAL EEG ASYMMETRY, COHERENCE AND MOOD: A PILOT STUDY. Journal of Clinical and Diagnostic Research [serial online] 2018 June [cited: 2018 Jun 24 ]; 12:CC05-CC10. Available from
http://www.jcdr.net/back_issues.asp?issn=0973-709x&year=2018&month=June&volume=12&issue=6&page=CC05-CC10&id=11645

DOI and Others

DOI: 10.7860/JCDR/2018/32657.11645

Date of Submission: Sep 22, 2017
Date of Peer Review: Nov 13, 2017
Date of Acceptance: May 08, 2018
Date of Publishing: Jun 01, 2018

FINANCIAL OR OTHER COMPETING INTERESTS: As declared above.

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