The Effect of Selected Physical Activities with Different Levels of Cognitive-Motor Interaction on Children's Executive Functions

Lashkarizade, Amine; Roohollahi, Vahid; Zarezade, Mahshid; Khodabakhshzade, Amin

doi:10.22059/jmlm.2020.304332.1513

Document Type : Research Paper I Open Access I Released under CC BY-NC 4.0 license

Authors

¹ MSc, Department of Motor Behavior, Faculty of Physical Education and Sport Sciences, Shahid Bahonar University, Kerman, Iran

² Assistant Professor, Department of Motor Behavior, Faculty of Physical Education and Sport Sciences, Shahid Bahonar University, Kerman, Iran

³ Ph.D. of Physical Education, Teacher in Department of Education, Bam, Iran

https://doi.org/10.22059/jmlm.2020.304332.1513

Abstract

Exercise and physical activity have positive effects on physical and mental performance, but their effect on cognitive function needs to be explained in more detail. This study examined the effect of selected physical activities with different levels of cognitive-motor interaction on the executive functions of 76 girls aged 10 to 12 years in Bam city, with mean and standard deviation of body mass index of 18.5 1 1.5 and average intelligence of 10.5 9 9.9. Based on the pre-test score, they were randomly divided into four groups (high cognitive-high motor, low cognitive-high motor, high cognitive-low motor and low cognitive-low motor). The results of covariance analysis showed that high cognitive-motor lifting exercises have a positive effect on attention and memory function of executive functions of 10 to 12-year-old girls and low cognitive-high-motor and low-cognitive-high-motor cognitive exercises have a positive effect on attentional and inhibitory components. There was a significant difference between high-motor, high-motor, low-motor, low-cognitive, high-motor, and low-cognitive-motor cognitive exercises in the attention component, but no significant difference was found in the component of working memory and inhibition. Therefore, based on the results of this research, by designing high-mobility cognitive exercises in the educational environment, it is possible to provide improvement of executive functions. Therefore, it is hoped that researchers will use the results of this research to improve the executive functions of children .

Keywords

References

1. Morgan AB, Lilienfeld SO. A meta-analytic review of the relation between antisocial behavior and neuropsychological measures of executive function. Clin Psychol Rev. 2000;20(1):113–36.

2. Passolunghi MC, Siegel LS. Working memory and access to numerical information in children with disability in mathematics. J Exp Child Psychol. 2004;88(4):348–67.

3. Seidman LJ. Neuropsychological functioning in people with ADHD across the lifespan. Clin Psychol Rev. 2006;26(4):466–85.

4. Avila C, Parcet MA. Personality and inhibitory deficits in the stop-signal task: The mediating role of Gray’s anxiety and impulsivity. Pers Individ Dif. 2001;31(6):975–86.

5. Roberts RJ, Pennington BF. An Interactive Framework for Examining Prefrontal Cognitive Processes. Dev Neuropsychol. 1996;12(1):105–26.

6. Kasper RW, Elliott JC, Giesbrecht B. Multiple measures of visual attention predict novice motor skill performance when attention is focused externally. Hum Mov Sci. 2012;31(5):1161–74.

7. Berger L, Bernard-Demanze L. Age-related effects of a memorizing spatial task in the adults and elderly postural control. Gait Posture. 2011;33(2):300–2.

8. Fabel K, Wolf SA, Ehninger D, Babu H, Leal-Galicia P, Kempermann G. Additive effects of physical exercise and environmental enrichment on adult hippocampal neurogenesis in mice. Front Neurosci. 2009;3(NOV):1–7.

9. Langdon KD, Corbett D. Improved working memory following novel combinations of physical and cognitive activity. Neurorehabil Neural Repair. 2012;26(5):523–32.

10. Fathi Rezaei Z, Farsi A WMS. The effect of cognitive training on the performance of the executive control network Attention and accuracy of motor response. Res Rehabil Sci. 2015;11 (3):182-192(In Persian).

11. Guadagnoll MA, Lee TD. Challenge Point: A Framework for Conceptualizing the Effects of Various Practice Conditions in Motor Learning. J Mot Behav. 2004;36(2):212–24.

12. Alizade H. , Relationship between neurocognitive executive functions and developmental disorders. New Cogn Sci. 2006;8(4):57-70(In Persian).

13. Barkley RA, Poillion MJ. Attention Deficit Hyperactivity Disorder: A Handbook for Diagnosis and Treatment. Behav Disord. 1994;19(2):150–2.

14. Seif Naraghi, M., Naderi E. Special learning disabilities. 2016;37-49 (In Persian).

15. Diamond A. Executive functions. Annu Rev Psychol. 2013;64:135–68.

16. Wazini Taher A, Heirani A AM. The effect of cognitive motor exercises on risk factors for falls in the elderly. Syst Rev meta-analysis Int Evid. 2016;15(5):1-24(In Persian).

17. Fabel K, Kempermann G. Physical activity and the regulation of neurogenesis in the adult and aging brain. Neuromolecular Med [Internet]. Available from: https://link.springer.com/article/10.1007/s12017-008-8031-4

18. K.D. L, D. C. Improved working memory following novel combinations of physical and cognitive activity. Neurorehabil Neural Repair [Internet]. 2012;26(5):523–32. Available from: http://ovidsp.ovid.com/ovidweb.cgi?T=JS&PAGE=reference&D=emed10&NEWS=N&AN=2012271001

19. Schaefer S, Schumacher V. The interplay between cognitive and motor functioning in healthy Older adults: Findings from dual-task studies and suggestions for intervention. Gerontology. 2011;57(3):239–46.

20. Gomes da Silva S, Unsain N, Mascó DH, Toscano-Silva M, De Amorim HA, Silva Araújo BH, et al. Early exercise promotes positive hippocampal plasticity and improves spatial memory in the adult life of rats. Hippocampus. 2012;22(2):347–58.

Journal of Sports and Motor Development and Learning

The Effect of Selected Physical Activities with Different Levels of Cognitive-Motor Interaction on Children's Executive Functions

References

References

Volume 12, Issue 3
December 2020
Pages 349-364

The Effect of Selected Physical Activities with Different Levels of Cognitive-Motor Interaction on Children's Executive Functions

References

References

Volume 12, Issue 3December 2020Pages 349-364

Volume 12, Issue 3
December 2020
Pages 349-364