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:: Volume 24, Issue 1 (Bimonthly 2020) ::
Feyz 2020, 24(1): 80-89 Back to browse issues page
The effect of eye exercises with and without active movements on motor skills in children with amblyopia
Ensieh Sadat Askari-Tabar , Mohammad Reza Shahabi Kaseb , Zahra Stiri
Department of Sport Motor Behavior, Faculty of Physical Education and Sport Sciences, Hakim Sabzevari University, Sabzevar, I.R. Iran. , Mr.shahabi@hsu.ac.ir
Abstract:   (2092 Views)
Background: Nowadays, one of the exercising methods which lead to improvement in performance and progress on motor skills is eye exercising. Hence, the present research aimed to analyze the effect of eye exercises with and without active movements on motor skills in children with amblyopia.
Materials and Methods: the current paper is a semi-experimental research with a pretest-posttest pattern. A group of 40 children aged 5-8 years with amblyopia were randomly assigned into three groups: eye exercises without active movements, eye exercises with active movements (ocular, ocular and manual, and displacement), and control. The groups were trained in 12 sessions of 30 minutes and the subjects of control group were engaged in their daily activities. The subjects participated in Lincoln Oseretsky's test before and after exercises.
Results: One-way ANOVA and post-test post-hoc Tukey test showed that there was a significant  statistical difference between the experimental groups and the control group in the motor skills of children with amblyopia (P<0.05), yet there was no significant statistical difference between experimental groups (P>0.05).
Conclusion: In general, the results of this study showed that eye exercises with and without active movements can improve motor skills in children with amblyopia.
 
Keywords: Amblyopia, Visual training, Motor skill
Full-Text [PDF 302 kb]   (890 Downloads)    
Type of Study: Research | Subject: medicine, paraclinic
Received: 2019/06/8 | Revised: 2020/05/16 | Accepted: 2019/09/15 | Published: 2020/05/16
References
1. Moseley M, Fielder A. Improvement in amblyopic eye function and contralateral eye disease. Evidence of residual plasticity. J Lancet 2001; 357(9260): 902-4.‌
2. Case-Smith J, O'Brien J. Occupational therapy for children-E-Book. Elsevier Health Sciences 2013.
3. Von Noorden G. Binocular vision and ocular motility. Theory and management of strabismus.‌ J Ophthalmic Surgery 1990; 17(4): 519-524.
4. Lam B, Christ S, Lee D, Zheng D, Arheart K. Reported visual impairment and risk of suicide: the 1986-1996 national health interview surveys. Arc Ophthalmol 2008; 126(7): 975-980.
5. Morelli T, Foley J, Columna L, Lieberman L, Folmer E. VI-Tennis: a vibrotactile/audio exergame for players who are visually impaired. In Proceedings of the Fifth International Conference on the Foundations of Digital Games. ACM J 2010; 147-54.
6. Namani M, Hayat Roshanayi A, Milani F. Psychological Transformation, Education and Rehabilitation of the Blind. Samt Publications 2002; (1). [in Persian]
7. Bhagotra S, Sharma A, Raina B. Psycho-social adjustments and rehabilitation of the blind. Social Medicine 2008; 10(1): 48-52.‌
8. Lieberman L, Byrne H, Mattern C, Watt C, Fernández-Vivo, M. Health-related fitness of youths with visual impairments. J Vsual Impair Blin 2010; 104(6): 349-59.‌
9. Carlton J, Kaltenthaler E. Amblyopia and quality of life: a systematic review. J Carlton E Kaltenthaler 2011; 25(4); 403-413.‌
10. Hopkins B, Johnson S. Neurobiology of infant vision. Praeger; 2003 Jul.
11. Hadden B. Eye Surgeons and Surgery in New Zealand. Penguin Random House New Zealand Limited; 2014.
12. Carley M. The relationship between fundamental motor skill development and lifetime participation in physical activity. Psahpfrd 2010; 17(4): 31-3.‌
13. Fliers E, Franke B, Faraone, Rommelse N, Buitelaar J. Actual motor performance and self-perceived motor competence in children with attention-deficit hyperactivity disorder compared with healthy siblings and peers. J Dev Behav Pedlatr 2010; 31(1): 35-40.‌
14. Kopp S, Beckung E, Gillberg C. Developmental coordination disorder and other motor control problems in girls with autism spectrum disorder and/or attention-deficit/hyperactivity disorder. Research in developmental J Res Dev Disabil 2010; 31(2): 350-61.‌
15. Lee D, Gómez-Marín O, Lam B, Zheng D. Glaucoma and survival: the National Health Interview Survey 1986–1994. J Ophthalmol 2003; 110(8): 1476-83.‌
16. Smith O, Smith P. Developmental studies of spatial judgments by children and adults. Percept Mot Skills 1966; 22(1): 3.‌
17. Emck C, Bosscher R, Beek P, Doreleijers T. Gross motor performance and self‐perceived motor competence in children with emotional, behavioral, and pervasive developmental disorders: a review. Dev Med Child Neuro 2009; 51(7): 501-17.‌
18. Riesen A, Aarons L. Visual movement and intensity discrimination in cats after early deprivation of pattern vision. J Comparative Psychol 1959; 52(2): 142.‌
19. Galahv D, John C. Understanding motor development in different periods of life, translated by R. hemeyattalab and colleagues. Tehran: Sci Move 2009.
20. Payne V, Isaacs L. Human motor development: A lifespan approach. Routledge 2017.
21. Shahabi Kaseb MR, Askari E. The effect of selected visual and visual-motor exercise programs on visual perception components related to motion in children with amblyopia. J Daneshvar 2018; 26(137): 19-30. [In Persian]
22. Zwierko T, Puchalska N, Krzepota J, Markiewizka M, Wozniak J, Lubinski W. The effect of sport vision training on binocular vision function in female university athletes. J Hum Kinet 2015; 49(3): 296-87.
23. Bruininks R. Bruininks-Oseretsky test of motor proficiency. Circle Pine: American Guidance Service 2005.
24. Houwen S, Visscher C, Hartman E, Lemmink K. (2007). Gross motor skills and sports participation of children with visual impairments. Res Q Exerc Sport 2007; 78(2): 16-23.‌
25. Houwen S, Hartman E, Visscher C. Physical activity and motor skills in children with and without visual impairments. Med Sci Sports Exerc 2009; 41(1): 103-109.
26. Juliana I, Izuagbe R, Itsekor V, Fagbohun M, Asaolu A, Nwokeoma M. The Role of the School Library in Empowering Visually Impaired Children With Lifelong Information Literacy Skills. In Instructional Strategies in General Education and Putting the Individuals With Disabilities Act (IDEA) Into Practice. IGI Global 2018; 245-71.
27. Aki E, Atasavun S, Turan A, Kayihan H. Training motor skills of children with low vision. J Percept Mot Skills 2007; 104(3): 1328-36.‌
28. Sherman A. Overview of research information regarding vision and sports. J AM Optom Assoc 1980; 51(7): 661.‌
29. Yousefian M, Najafi Fard T, Ahmadi F. Effect of Initial Orientation and mobility training, and advanced. J Psychiatry Clin Psychol 2016; 3(1): 102-12.‌
30. Ariffin S, Omar B, Isa A, Sharif S. Validity and reliability multiple intelligent item using rasch measurement model. J Dev Behav Pediatr 2010; 12(9): 729-733.‌
31. Mallahi A, Ghasemi A, Gholami A. Effect of visual and sports exercises on visual and sports skills of beginner basketball players and table tennis players. J Motor Behave 2017; 14. 129-46. [In Persian]
32. Mahmoudi S, Badami R. Effect of visual training exercises on visual perception and motor skills in children aged 8 to 10 years old. J Med Res 2017; 74(12): 43-51. [in Persian]
33. Khezri A, Miner Z, Ghasemi A, Diasaranna B. The effect of visual training on the skill of receiving volleyball service. J Can Chiropr Assoc 2015; 4. 627-43. [in Persian]
34. Ramezanzadeh H, Abdoli B, Farsi A, Sanjari M. The effect of visual-auditory integrity on the accuracy of the implementation and learning of a motor function. J Motor Behave 2014; 11 (1): 1-10. [in Persian]
35. Balasaheb T, Maman P, Sandhu J. The impact of visual skills training on batting performance in cricketers. J Sports Sci 2008; 2: 17-23. [in Persian]
36. Paul M, Biswas S, Sandhu J. Role of sports vision and eye hand coordination training in performance of table tennis players. Brazilian j Physics 2011; 5(2): 106-16.‌
37. Moghimifar P, Seidi M. Evaluation of the effectiveness of sensory systems involved in postural control in Deaf athletes and non-athletes. [Thesis for M.Sc. Physical Education]. Physical Education and Sport Sciences, Tehran University; J Exceptional Educat 2012; 49–55. [in Persian]
38. Ahmadpour A. Effects of rhythmic exercise& compound exercises (rhythmic and visual training) on the control balance & Dazzled stability of Hearing impaired children with Deficient vestibular [Thesis for Phd. in Physical Education]. [Tehran, Iran]: Physical Education and Sport Sciences, Shahid Beheshti University; J Motor Behave 2015; 40-65. [in Persian]
39. Rajendran V, Roy F, Jeevanantham D. Effect of exercise intervention on vestibular related impairments in hearing-impaired children. Alexandria J Med 2013; 49(1): 7-12.‌
40. Zupan M, Arata A, Wile A, Parker R. Visual adaptations to sports vision enhancement training. Optometry today. J Sports Vision 2006; 46(1): 43-8.
41. Paul M, Biswas S, Sandhu J. Role of sports vision and eye hand coordination training in performance of table tennis players. Brazilian j physics 2011; 5(2): 106-16.‌
42. Reimer A, Cox R, Nijhuis-Van der Sanden M, Boonstra F. Improvement of fine motor skills in children with visual impairment: an explorative study. J Med Res 2011; 32(5): 1924-33.‌
43. Tsai C, Pan C, Cherng R, Hsu Y, Chiu H. Mechanisms of deficit of visuospatial attention shift in children with developmental coordination disorder: A neurophysiological measure of the endogenous Posner paradigm. J Abbr Database 2009; 71(3): 246-58.‌
44. Harvey W, Reid G, Grizenko N, Mbekou V, Ter-Stepanian M, Joober R. Fundamental movement skills and children with attention-deficit hyperactivity disorder: peer comparisons and stimulant effects. J Abnorm Child Psychol 2007; 35(5): 871-82.
45. Staples K, Reid G. Fundamental movement skills and autism spectrum disorders. J Autism Dev Disord 2010: 40(2): 209-17.‌
46. Imami M, Bahrami, Shiri v. The effect of exercise exercises on perceived vision of mentally retarded children. J Motor Behav 2018; 10(2): 277-92. [in Persian]
47. Azimzadeh E, Ghasemi A, Gholami A. The effect of a period of visual and sport selective training on improving visual acuity. J Motor Behav 2015. [in Persian]
48. Hemboashi L, Arab Ameri A, Shahbazi M, Zeidabadi R. The effect of dependent and non-moving perceptual perception exercises on perceived depth and acuity in children. J Med 2018; 25(3). [in Persian]
49. Abernethy B, Wood JM. Do generalized visual training programmes for sport really work? An experimental investigation. J Sports Sci 2001; 19(3): 203-22.
50. Poon K. The effect of a computerized visual perception and visual-motor integration training program on improving Chinese handwriting of children with handwriting difficulties. J Med Res 2010; 31(6): 1552-60.
51. Sadeghinejad M, Khalaji H, Jalali S. Comparison of gross motor skills and participation in sports activities of children with visual impairment with children aged 7-11 years old. Proceedings of the Sixth National Conference on Physical Education Students and Sport Sciences, Tehran, Iran. J Motor Behav 2001. [in Persian]
52. Lewis M. The promise of dynamic systems approaches for an integrated account of human development. J Child Develop 2000; 71(1): 36-43.‌
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Askari-Tabar E S, Shahabi Kaseb M R, Stiri Z. The effect of eye exercises with and without active movements on motor skills in children with amblyopia. Feyz 2020; 24 (1) :80-89
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Volume 24, Issue 1 (Bimonthly 2020) Back to browse issues page
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