Julia Dimitrova1,2, Michael Hogan3, Patrick Khader4, Denis O'Hora3, Liam Kilmartin3, Jane C Walsh3, Richard Roche5, Cay Anderson-Hanley6. 1. Ludwig-Maximillians-University Munich, Munich, Germany. julia.dimitrova@camh.ca. 2. Centre for Addiction and Mental Health, 1001 Queen Street West, Unit 4-1, Toronto, ON, M6J1H4, Canada. julia.dimitrova@camh.ca. 3. National University Ireland, Galway, Ireland. 4. Ludwig-Maximillians-University Munich, Munich, Germany. 5. National University of Ireland, Maynooth, Ireland. 6. Union College, Schenectady, NY, USA.
Abstract
BACKGROUND: Physical exercise has been shown to improve cognitive and neural functioning in older adults. AIMS AND METHODS: The current study compared the effects of an acute bout of physical exercise with a bout of interactive mental and physical exercise (i.e., "exergaming") on executive (Stroop) task performance and event-related potential (ERP) amplitudes in younger and older adults. RESULTS: Results revealed enhanced executive task performance in younger and older adults after exercise, with no differences in performance between exercise conditions. Stroop (RT) performance in older adults improved more than in younger adults from pre- to post-exercise. A significant increase in EEG amplitude from pre- to post-exercise was found at the Cz site from 320 to 700 ms post-stimulus for both younger and older adults, with older adults demonstrating a larger Stroop interference effect. While younger adults exhibited overall greater EEG amplitudes than older adults, they showed no differences between congruent and incongruent trials (i.e., minimal interference). Compared to peers with higher BMI (body mass index), older adults with lower BMI showed a greater reduction in Stroop interference effects from pre- to post-exercise. DISCUSSION AND CONCLUSIONS: The beneficial effects of an acute bout of physical exercise on cognitive and neural functioning in younger and older adults were confirmed, with no difference between standard exercise and exergaming. Findings suggest that BMI, sometimes used as a proxy for fitness level, may modulate benefits that older adults derive from an acute bout of exercise. Findings have implications for future research that seeks to investigate unique effects of exergaming when compared to standard physical exercise.
BACKGROUND: Physical exercise has been shown to improve cognitive and neural functioning in older adults. AIMS AND METHODS: The current study compared the effects of an acute bout of physical exercise with a bout of interactive mental and physical exercise (i.e., "exergaming") on executive (Stroop) task performance and event-related potential (ERP) amplitudes in younger and older adults. RESULTS: Results revealed enhanced executive task performance in younger and older adults after exercise, with no differences in performance between exercise conditions. Stroop (RT) performance in older adults improved more than in younger adults from pre- to post-exercise. A significant increase in EEG amplitude from pre- to post-exercise was found at the Cz site from 320 to 700 ms post-stimulus for both younger and older adults, with older adults demonstrating a larger Stroop interference effect. While younger adults exhibited overall greater EEG amplitudes than older adults, they showed no differences between congruent and incongruent trials (i.e., minimal interference). Compared to peers with higher BMI (body mass index), older adults with lower BMI showed a greater reduction in Stroop interference effects from pre- to post-exercise. DISCUSSION AND CONCLUSIONS: The beneficial effects of an acute bout of physical exercise on cognitive and neural functioning in younger and older adults were confirmed, with no difference between standard exercise and exergaming. Findings suggest that BMI, sometimes used as a proxy for fitness level, may modulate benefits that older adults derive from an acute bout of exercise. Findings have implications for future research that seeks to investigate unique effects of exergaming when compared to standard physical exercise.
Keywords:
Aging; Interference; Mental and aerobic exercise; Stroop task
Authors: Cay Anderson-Hanley; Nicole M Barcelos; Earl A Zimmerman; Robert W Gillen; Mina Dunnam; Brian D Cohen; Vadim Yerokhin; Kenneth E Miller; David J Hayes; Paul J Arciero; Molly Maloney; Arthur F Kramer Journal: Front Aging Neurosci Date: 2018-05-04 Impact factor: 5.750
Authors: Kate E Devenney; Emer M Guinan; Áine M Kelly; Bibiana C Mota; Cathal Walsh; Marcel Olde Rikkert; Stefan Schneider; Brian Lawlor Journal: BMJ Open Sport Exerc Med Date: 2019-06-11
Authors: Jaisalmer de Frutos-Lucas; Pablo Cuesta; Federico Ramírez-Toraño; Alberto Nebreda; Esther Cuadrado-Soto; África Peral-Suárez; David Lopez-Sanz; Ricardo Bruña; Silvia Marcos-de Pedro; María Luisa Delgado-Losada; Ana María López-Sobaler; Inmaculada Concepción Rodríguez-Rojo; Ana Barabash; Juan Manuel Serrano Rodriguez; Simon M Laws; Alberto Marcos Dolado; Ramón López-Higes; Belinda M Brown; Fernando Maestú Journal: Alzheimers Res Ther Date: 2020-09-22 Impact factor: 6.982