Volume 2, Issue 4 (11-2020)                   IJMCL 2020, 2(4): 30-40 | Back to browse issues page


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Shenasa Z, Rostami R, Nazemzadehgan G, Hajaatnia B. (2020). Comparison the Effect of High and Low Contextual Interference Training on Performance Accuracy. IJMCL. 2(4), 30-40. doi:10.29252/ijmcl.2.4.31
URL: http://ijmcl.com/article-1-82-en.html
Associate Prof. of Motor Behavior, Shiraz University, Shiraz, Iran , Rostami@shirazu.ac.ir
Abstract:   (2595 Views)
Objective: The aim of this study was to determine the differences between different methods of contextual interference (High and Low) on accuracy.
 
Methods: The subjects were 51 people from Shiraz Mental Health Park Rehabilitation Center who were purposefully selected and after the pre-test, they were randomly divided into three groups. The High and Low interference groups performed 180 Frisbee attempts (backhand, forehand, and hammer) and the control group played a team game at the same time as the intervention groups. Then, acquisition, retention and immediate transfer tests were taken. Accuracy was measured using a researcher-made test.
 
Results: The results of repeated measures test showed no significant difference in the phase of acquisition and there was a significant difference between the groups in the phases of transfer (P = 0.011) and retention (P = 0.026).
 
Conclusion: It seems that the results of this study can be effective in reducing researchers' concerns in simultaneous training of several motor skills by emphasizing the movement pattern and achieving the goal of movement (accuracy). Findings indicate that the use of contextual interference methods, at high levels, leads to time savings and stabilizes the pattern of movement in the learning phases.
Full-Text [PDF 385 kb]   (1918 Downloads)    
Type of Study: Original Article | Subject: 1. Motor learning
Received: 2020/07/10 | Accepted: 2020/10/14

References
1. Arab-Ameri, E., Hemayattalab, R., Karimiyani, N., & Sami, S. (2012). Effect of Blocked, Random, and systematically Increasing Practice Schedules on Learning of Various Basketball Pass. JRSM, 1(2), 87-99.
2. Azizi, S., Saberi Kakhaki, A., & Daneshvar, A. (2009). Comparison of the effect of different levels of contextual interference (High and Low) on the acquisition, retention and transfer of simple and complex navigation and click skills with the mouse in the initial learning and training courses. In (pp. 40-45). Dissertation. Shahid Bahonar University of Kerman.
3. Cheldavi, H., Shakerian, S., Boshehri, S. N. S., & Zarghami, M. (2014). The effects of balance training intervention on postural control of children with autism spectrum disorder: Role of sensory information. Research in Autism Spectrum Disorders, 8(1), 8-14. [DOI:10.1016/j.rasd.2013.09.016]
4. Dang, K. V., Parvin, D. E., & Ivry, R. B. (2019). Exploring Contextual Interference in Implicit and Explicit Motor Learning. BioRxiv, 644211. [DOI:10.1101/644211]
5. Deakin, J. M., & Proteau, L. (2000). The role of scheduling in learning through observation. Journal of motor behavior, 32(3), 268-276. [DOI:10.1080/00222890009601377]
6. Dias, G., & Mendes, R. (2010). Efeitos do contínuo de níveis de interferência contextual na aprendizagem do" putt" do golfe. Revista Brasileira de Educação Física e Esporte, 24(4), 545-553. [DOI:10.1590/S1807-55092010000400011]
7. Feghhi, I., Abdoli, B., & Valizadeh, R. (2011). Compare contextual interference effect and practice specificity in learning basketball free throw. Procedia-Social and Behavioral Sciences, 15, 2176-2180. [DOI:10.1016/j.sbspro.2011.04.075]
8. Feghhi, I., Valizadeh, R., Rahimpour, M., Tehrani, M. A., & Karampour, S. (2015). Contextual interference in learning three table tennis services. Procedia-Social and Behavioral Sciences, 191(2), 546-549. [DOI:10.1016/j.sbspro.2015.04.427]
9. Ghasem Karimi, S., Mohammadzadeh Jahatlo, H., & Hosseini, F. (2013). Effect of Transitional Practice Schedule on Contextual Interference in Badminton Skills Learning (Long Service, Forehand Toss and Backhand Toss). Journal of Motor Learning and movment, 5(1), 2-21.
10. Guadagnoli, M. A., & Lee, T. D. (2004). Challenge point: a framework for conceptualizing the effects of various practice conditions in motor learning. Journal of motor behavior, 36(2), 212-224. [DOI:10.3200/JMBR.36.2.212-224]
11. Jo, E.-J., Noh, D.-H., & Kam, K.-Y. (2020). Effects of contextual interference on feeding training in patients with stroke. Human Movement Science, 69, 102560. [DOI:10.1016/j.humov.2019.102560]
12. Jones, L. L., & French, K. E. (2007). Effects of contextual interference on acquisition and retention of three volleyball skills. Perceptual and motor skills, 105(3), 883-890. [DOI:10.2466/pms.105.3.883-890]
13. Magill, R., & Anderson, D. (2010). Motor learning and control: Concepts and Applications: McGraw-Hill Publishing.
14. Magill, R. A. (2001). Motor Learning: Concepts and Applications (M. K. Vaez Mousavi & M. Shojaei, Trans.): Hannaneh Publication.
15. Magill, R. A., & Hall, K. G. (1990). A review of the contextual interference effect in motor skill acquisition. Human Movement Science, 9(3-5), 241-289. [DOI:10.1016/0167-9457(90)90005-X]
16. Majdara, A. (2013). Excercise For Everyone (Vol. 2): Avaye Zohor Pulication.
17. Moradi, H., Sohrabi, M., & Mones Tusi, M. (2017). The effect of exercises with contextual interference of training on attention problems in children with developmental coordination disorder. Journal of Shahrekord Uuniversity of Medical Sciences, 19.
18. Moreno-López, L., Stamatakis, E. A., Fernández-Serrano, M. J., Gómez-Rio, M., Rodríguez-Fernández, A., Pérez-García, M., & Verdejo-García, A. (2012). Neural correlates of hot and cold executive functions in polysubstance addiction: association between neuropsychological performance and resting brain metabolism as measured by positron emission tomography. Psychiatry Research: Neuroimaging, 203(2-3), 214-221. [DOI:10.1016/j.pscychresns.2012.01.006]
19. Moretto, N. A., Marcori, A. J., & Okazaki, V. H. A. (2018). Contextual interference effects on motor skill acquisition, retention and transfer in sport rifle shooting. Human Movement, 19(2), 99-104. [DOI:10.5114/hm.2018.74065]
20. Onla-Or, S., & Winstein, C. J. (2008). Determining the optimal challenge point for motor skill learning in adults with moderately severe Parkinson's disease. Neurorehabilitation and neural repair, 22(4), 385-395. [DOI:10.1177/1545968307313508]
21. Pauwels, L., Swinnen, S. P., & Beets, I. A. (2014). Contextual interference in complex bimanual skill learning leads to better skill persistence. PloS one, 9(6), e100906. [DOI:10.1371/journal.pone.0100906]
22. Penkman, L. (2004). Remediation of attention deficits in children: A focus on childhood cancer, traumatic brain injury and attention deficit disorder. Pediatric Rehabilitation, 7(2), 111-123. [DOI:10.1080/13638490310001649417]
23. Porter, J. M. (2008). Systematically increasing contextual interference is beneficial for learning novel motor skills. 50-57.
24. Porter, J. M., & Saemi, E. (2010). Moderately Skilled Learners Benefit by Practicing with Systematic Increases in Contextual Interference. International journal of coaching science, 4(2).
25. Prado, M. T. A., Fernani, D. C. G. L., da Silva, T. D., Smorenburg, A. R., de Abreu, L. C., & de Mello Monteiro, C. B. (2017). Motor learning paradigm and contextual interference in manual computer tasks in individuals with cerebral palsy. Research in Developmental Disabilities, 64, 56-63. [DOI:10.1016/j.ridd.2017.03.006]
26. Rommel, A.-S., Halperin, J. M., Mill, J., Asherson, P., & Kuntsi, J. (2013). Protection from genetic diathesis in attention-deficit/hyperactivity disorder: possible complementary roles of exercise. Journal of the American Academy of Child & Adolescent Psychiatry, 52(9), 900-910. [DOI:10.1016/j.jaac.2013.05.018]
27. Salehi, H., Khajeh, F., & NAMAZI, Z. M. (2010). Regular increasing contextual interference effect in learning of basketball passing. MOTOR BEHAVIOR (RESEARCH ON SPORT SCIENCE) 2(5), 107-126.
28. Salman, Z. (2015). Motion behavior Relationship mind and body with the goal of optimal performance: Hatmi Publication.
29. Schmidt, R. A., & Lee, T. D. (2009). Control and learning Motor (A. Farokhi, A. Bahram, & H. Khalaji, Trans. Vol. 1): Nersi publication.
30. Schmidt, R. A., & Lee, T. D. (2015). Learning and motor function (R. Hamayat Talab & A. Ghasemi, Trans. Vol. 2).
31. Shafizadeh, A., & Shaban, E. (2018). The effect of contextual interference on acquisition, retention and transfer of childrens basic gymnastics skills. Motor Behavior, 10(31), 161-176.
32. Sheikh, M. (2014). The Comparison of the Effect of Various Levels of Contextual Interference (Blocked, Random and Increasing) on Acquisition, Retention and Transfer of Movement Time Error and Cursor Error in Complex Motor - Perceptual Task. Journal of Motor Learning and Movement, 6(3), 293-308. doi:10.22059/jmlm.2014.51870
33. Thürer, B., Gedemer, S., Focke, A., & Stein, T. (2019). Contextual interference effect is independent of retroactive inhibition but variable practice is not always beneficial. Frontiers in human neuroscience, 13, 165. [DOI:10.3389/fnhum.2019.00165]
34. Tsai, C.-L., Wang, C.-H., & Tseng, Y.-T. (2012). Effects of exercise intervention on event-related potential and task performance indices of attention networks in children with developmental coordination disorder. Brain and cognition, 79(1), 12-22. [DOI:10.1016/j.bandc.2012.02.004]
35. Wright, D. L., Li, Y., & Coady, W. (1997). Cognitive processes related to contextual interference and observational learning: A replication of Blandin, Proteau, and Alain (1994). Research quarterly for exercise and sport, 68(1), 106-109. [DOI:10.1080/02701367.1997.10608872]
36. Zipp, G. P., & Gentile, A. (2010). Practice schedule and the learning of motor skills in children and adults: teaching implications. Journal of College Teaching & Learning (TLC), 7(2). [DOI:10.19030/tlc.v7i2.87]

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