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IJMCL 2021, 3(3): 33-45 |
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Rahman Gholhaki M, Molanorozi K, Ghasemi A. (2021). The Effect of Selected Motor Program on Neuropsychological Variability and Motor Function at Children with Developmental Coordination Disorder. IJMCL. 3(3), 33-45. doi:10.52547/ijmcl.3.3.33
URL: http://ijmcl.com/article-1-103-en.html
URL: http://ijmcl.com/article-1-103-en.html
PhD Candidate, Sport Sciences Department, Islamic Azad University, Science and Research Branch of Tehran, Tehran, Iran , melinazgholhaki@yahoo.com
Abstract: (2266 Views)
Objective: The purpose of this study was to investigate the effect of exercise intervention on some Event Related Potential and motor performance variables in children with developmental coordination disorder.
Methods: In this Quasi-experimental study were selected 28 people with Developmental Coordination Disorder among 7-10 years male students in Tehran. They were screened for study according to the 4th edition of the Diagnostic and Statistical Manual of Disorder. PsyTask software made by Mitsar Russia was used to build and run the response inhibition test. Movement Assessment Battery for Children (MABC-2) was used to measure motor function. The analysis of the covariance was used for data analysis.
Results: The analysis of the covariance the posttest ERP showed that latency of NoGo P300 component in Fz and P4 regions, amplitude of NoGo P300 component in Cz region improved significantly after exercise training. Likewise, the results showed that the experimental group improved significantly in manual dexterity, aiming and catching, balance, but there was no significant change in Threading Lace item.
Conclusion: According to the results of this study, it seems that Physical training interventions has a signification effect on some neuropsychological and motor performance indices of children with Developmental Coordination Disorder.
Methods: In this Quasi-experimental study were selected 28 people with Developmental Coordination Disorder among 7-10 years male students in Tehran. They were screened for study according to the 4th edition of the Diagnostic and Statistical Manual of Disorder. PsyTask software made by Mitsar Russia was used to build and run the response inhibition test. Movement Assessment Battery for Children (MABC-2) was used to measure motor function. The analysis of the covariance was used for data analysis.
Results: The analysis of the covariance the posttest ERP showed that latency of NoGo P300 component in Fz and P4 regions, amplitude of NoGo P300 component in Cz region improved significantly after exercise training. Likewise, the results showed that the experimental group improved significantly in manual dexterity, aiming and catching, balance, but there was no significant change in Threading Lace item.
Conclusion: According to the results of this study, it seems that Physical training interventions has a signification effect on some neuropsychological and motor performance indices of children with Developmental Coordination Disorder.
Keywords: Motor Program, Neuropsychological Variability, Motor Function, Developmental Coordination Disorder
Type of Study: Original Article |
Subject:
1-1. Motor Development
Received: 2021/03/17 | Accepted: 2021/06/18
Received: 2021/03/17 | Accepted: 2021/06/18
References
1. Akbaripour, Rouhallah, Daneshfar, Afkham, Shojaei, Masoumeh (2019). Reliability of the movement Assessment Battery for Children - Second Edition (MABC-2) in children aged 7-10 years in Tehran. J Rehab Med; 7(4): 90-96. (In Persian).
2. Alloway, T.P., & Archibald, L. (2008). Working Memory and Learning in Children with Developmental Coordination Disorder and Specific Language Impairment. Journal of Learning Disabilities, 41(3), 251-262. [DOI:10.1177/0022219408315815]
3. Brown, D. (2011). An ERP investigation of premotor sensory activity and response control in adults with Developmental Coordination Disorder. Doctoral thesis, Goldsmiths, University of London. [Thesis].
4. Díaz-Pérez A, Vicente-Nicolás G, Valero-García AV. (2020). Music, body movement, and dance intervention program for children with developmental coordination disorder. Psychology of Music; 10:1177-1186. [DOI:10.1177/0305735620936353]
5. EbrahimiSani, S., Sohrabi, M., Taheri, H., Agdasi, M. T., and Amiri, S. (2020). Effects of virtual reality training intervention on predictive motor control of children with DCD - A randomized controlled trial. Res. Dev. Disabil; 107, 1-15. [DOI:10.1016/j.ridd.2020.103768]
6. Farhat, F.Hsairi, I.Baati, H.Engelsman, S. Masmoudi,K. Mchirgui,R. Triki,CH. Moalla,W.(2016) The effect of a motor skills training program in the improvement of practiced and non-practiced tasks performance in children with developmental coordination disorder (DCD) .Human Movement Science,46.10-22. [DOI:10.1016/j.humov.2015.12.001]
7. Hajcak, Greg. Foti, Dan. (2020). Empirical, methodological, and theoretical connections between the late positive potential and P300 as neural responses to stimulus significance: An integrative review, Psychophysiology; 57(7):111-123. [DOI:10.1111/psyp.13570]
8. Houwen, Suzanne. Kamphorst, Erica. Van der Veer, Gerda. Cantell, Marja. (2019). identifying patterns of motor performance, executive functioning, and verbal ability in preschool children: A latent profile analysis, Research in Developmental Disabilities; 84: 3-15. [DOI:10.1016/j.ridd.2018.04.002]
9. Lingxiao Yu, Xu Wang, Yuanyuan Lyu, Li Ding, Jie Jia, Shanbao Tong, Xiaoli Guo, Electrophysiological Evidences for the Rotational Uncertainty Effect in the Hand Mental Rotation: An ERP and ERS/ERD Study, Neuroscience;432: 205-215. [DOI:10.1016/j.neuroscience.2020.02.040]
10. Mahmoodifar E, Movahedi A. R, Arabameri E, Faramarzi S. (2018). The Effects of Transcranial Direct Current Stimulation and Selective Motor Training on Gross Motor Skills in Children with Autism Spectrum Disorders. Motor Behavior; 10 (32):79-96. (In Persian).
11. Mirabella, Giovanni. Mancini, Christian. Valente, Francesca. Cardona, Francesco. (2020). Children with primary complex motor stereotypies show impaired reactive but not proactive inhibition, Journal Cortex; 124: 250-259. [DOI:10.1016/j.cortex.2019.12.004]
12. Morrison, Cassandra. Taler, Vanessa. (2020). ERP measures of the effects of age and bilingualism on working memory performance, Neuropsychologia; 143, 107-120. [DOI:10.1016/j.neuropsychologia.2020.107468]
13. Morton, Caitriona. (2015). The effect of a group motor skills program on the participation and movement ability of children with developmental coordination disorder, Public Health, Physiotherapy and Sports Science Master Theses, University College Dublin. [Thesis].
14. Morton, S., & Bastian, A. (2004). Prism adaptation during walking generalizes to reaching and requires the cerebellum. Journal of Neurophysiology, 92, 2497-¬2509. [DOI:10.1152/jn.00129.2004]
15. Parke, E. M., Thaler, N. S., Etcoff, L. M., & Allen, D. N. (2020). Intellectual Profiles in Children with ADHD and Comorbid Learning and Motor Disorders. Journal of Attention Disorders; 24(9), 1227-1236. [DOI:10.1177/1087054715576343]
16. Parr Johnny V. V., Foster Richard J., Wood Greg, Thomas Neil M., Hollands Mark. (2020). A. Children With Developmental Coordination Disorder Show Altered Visuomotor Control During Stair Negotiation Associated With Heightened State Anxiety, Frontiers in Human Neuroscience; 14:512-523. [DOI:10.3389/fnhum.2020.589502]
17. Posner, M., Rothbart, M., & Sheese, B. (2007). Attention genes. Developmental Science, 10, 24-29. [DOI:10.1111/j.1467-7687.2007.00559.x]
18. Querne, L., Berquin, P., Vernier-Hauvette, M.-P., fall, S., Deltour, L., Meyer, M.-E., et al. (2008). Dysfunction of the attentional brain network in children with developmental coordination disorder: An fMRI study. Brain Research, 1244, 89-102. [DOI:10.1016/j.brainres.2008.07.066]
19. Riggins, Tracy. Scott, Lisa S., (2020). P300 development from infancy to adolescence, Psychophysiology; 57(7):133-146. [DOI:10.1111/psyp.13346]
20. Rinat, Shie, Izadi-Najafabadi, Sara, Zwicker, Jill G., (2020). Children with developmental coordination disorder show altered functional connectivity compared to peers, NeuroImage: Clinical; 27, 102-114. [DOI:10.1016/j.nicl.2020.102309]
21. Rivard L, Missiuna C, Pollock N, David KS. (2011). Developmental coordination disorder (DCD). In: Campbell SK, Palisano RJ, Orlin MN, editors. Physical therapy for children. 4th ed. St. Louis, MO: Elsevier; p. 498-538.
22. Roy, A. (2008). Connectionism, controllers and a brain theory. IEEE transactions on systems, man and cybernetics- part a: systems and humans, 38, 1434-1441. [DOI:10.1109/TSMCA.2008.2003484]
23. Sarrami L, Ghasemi A, Arabameri E, Kashi A. (2019). Psychometric properties of movement assessment battery for children-2 in 36 Years old children in Isfahan, MEJDS; 9:92. (In Persian).
24. Sartori, Rodrigo Flores. Valentini, Nadia Cristina, Fonseca, Rochele Paz, (2020). Executive function in children with and without developmental coordination disorder: A comparative study. Child: care, health and development, 2020; 46(3): 294-302 [DOI:10.1111/cch.12734]
25. Smits-Engelsman, Bouwien, Emmanuel, Bonney, , Ferguson, Gillian, Motor skill learning in children with and without Developmental Coordination Disorder, Human Movement Science;74:102-130 [DOI:10.1016/j.humov.2020.102687]
26. Soltani Nejad Salman, Kashi Ali, Zarezadeh Mahshid, Ghasemi Abdollah. (2020). Effectiveness of motor activities with and without music on manual dexterity in children with Autism Spectrum Disorder, Empowering Exceptional Children Journal; 11(33), Issue 1(33), 53-61. (In Persian).
27. Taghi garehbagh, M., Mohamadzadeh, H. (2020). The Effect of Selected Exercise Programs on the Simple and Selective Reaction Time among Students with Development Coordination Disorder. Psychology of Exceptional Individuals; 10(37), 59-74.
28. Tsai, C.-L., Pan, C. Y., Cherng, R. J., & Wu, S. K. (2009). Dual-task study of cognitive and postural interference: a preliminary investigation of the automatization deficit hypothesis of developmental co-ordination disorder. Child: Care, Health & Development, 35(4), 551-560. [DOI:10.1111/j.1365-2214.2009.00974.x]
29. Valentini NC, Ramalho MH, Oliveira MA. (2014). Movement assessment battery for children-2: translation, reliability, and validity for Brazilian children. Journal of Research in Developmental DisabilitieS; 35:733-740. [DOI:10.1016/j.ridd.2013.10.028]
30. Wilson, P. H., & Butson, M. (2006). Deficits underlying DCD. In R. H. Geuze (Ed.), Developmental coordination disorder. A review of current approaches (pp. 111-137). Marseille, France: Solal Editeurs.
31. Yu, Lin, Schack, Thomas, Koester, Dirk, (2021). Coordinating Initial and Final Action Goals in Planning Grasp-to-Rotate Movements: An ERP Study, Neuroscience; 459: 70-84. [DOI:10.1016/j.neuroscience.2021.01.033]
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