تأثیر هفت هفته تمرینات ثبات مرکزی و تعادلی بر عملکرد حرکتی و نارسایی‏های شناختی زنان مبتلا به مولتیپل اسکلروزیس

شیری, هاجر; سلطانیان, محمدعلی; اصغری, نبی اله

doi:10.22089/mbj.2017.1479.1157

نوع مقاله : مقاله پژوهشی

نویسندگان

¹ کارشناس ارشد رفتار حرکتی دانشگاه سمنان

² استادیار رفتار حرکتی دانشگاه سمنان

³ استادیار عصب‏ شناسی دانشگاه علوم‌پزشکی سمنان

https://doi.org/10.22089/mbj.2017.1479.1157

چکیده

هدف از پژوهش حاضر، بررسی تأثیر هفت هفته تمرینات ثبات مرکزی و تعادلی بر عملکرد حرکتی و نارسایی‏های شناختی زنان مبتلا به مولتیپل اسکلروزیس بود. بدین‌منظور، 18 نفر از زنان مبتلا به مولتیپل اسکلروزیس (با مقیاس وضعیت ناتوانی گستردة‌‌ 0 تا 5/4 و میانگین سنی‌ 62/8‌±‌66/36‌سال) براساس شرایط ورود به پژوهش به‌طور هدفمند انتخاب شده و به‌صورت تصادفی در دو گروه کنترل و تجربی جای گرفتند (گروه کنترل 10 نفر و گروه تجربی هشت نفر). جهت ارزیابی عملکرد حرکتی از آزمون 25 فوت راه‎رفتن و آزمون برخاستن و حرکت‌کردن زماندار استفاده شد و به‌منظور بررسی نارسایی‏ های شناختی از پرسش‌نامه نارسایی‏ های شناختی بهر ه گرفته شد. درادامه، گروه تجربی به‌مدت هفت هفته و به‌صورت سه جلسه در هفته تمرینات را انجام داد. این تمرینات شامل: تمرینات ثبات مرکزی روی توپ سوییسی و زمین و تمرینات تعادلی بود. شایان‌ذکر است که طی این مدت گروه کنترل هیچ برنامة ورزشی را انجام نداد. جهت تحلیل نتایج از تحلیل کواریانس استفاده گردید. نتایج نشان می‌دهد که عملکرد حرکتی گروه تجربی در‌مقایسه با گروه کنترل پس از هفت هفته بهبود یافته است (P=0.002 برای آزمون 25 فوت راه‏رفتن و P=0.001 برای آزمون برخاستن و حرکت‌کردن زماندار)؛ اما ‌نمرة کلی نارسایی ‏های شناختی (P=0.001)، نمرة خرده‏ مقیاس حواس‌پرتی (P=0.001)، مشکلات حافظه (P=0.001) و مشکلات سهوی گروه تجربی کاهش داشته است (P=0.001)؛ بنابراین، می توان تمرینات ثبات مرکزی و تعادلی را برای بهبود عملکرد حرکتی و کاهش نارسایی‏ های شناختی از قبیل حواس‌پرتی، مشکلات حافظه و مشکلات سهوی در زنان مبتلا به مولتیپل اسکلروزیس به‌کار برد.

کلیدواژه‌ها

موضوعات

کنترل حرکتی

عنوان مقاله [English]

The Effect of 7 Weeks of Core Stability and Balance Training on Motor Function and Cognitive Failures in Women with Multiple Sclerosis

نویسندگان [English]

Hajar Shiri ¹
Mohammad Ali Soltanian ²
Nabiollah Asghari ³

¹ M.Sc. of Motor Behavior, University of Semnan

² Assistant Professor of Motor Behavior, University of Semnan

³ Assistant Professor of Neurology, University of Medical Sciences of Semnan

چکیده [English]

The aim of this study was investigating the effect of 7 weeks of core stability and balance training on Motor function and Cognitive Failures in women with multiple sclerosis. For this purpose, 18 women with multiple sclerosis (Expanded Disability Status Scale 0-4.5, mean ± SD age; 36.66 ± 8.62 years) were selected based on the research entrance conditions with purposefully method and divided randomly to experimental and control groups (control group 10 persons and experimental group 8 persons). For evaluate Motor function, were used Timed 25 Foot Walking Test and Timed Up and Go Test. Too for evaluate Cognitive Failures was used Cognitive Failures Questionnaire, Then Experimental group conducted trainingfor 7 weeks, 3 sessions in week, training consist of Core stability training with Swiss ball, Core stability training without Swiss ball and balance training. At that time, Control group didn’t conduct any sport training. For analyzing data used analysis of covariance. Result showed that after 7 weeks, Experimental group in Compare with Control group improved Motor function (P=0.002 for Timed 25-Foot Walking Test, P=0.001 for Timed Up and Go Test) and decreased total score of Cognitive Failures (P=0.001), scores of subscales like Distractibility (P=0.001), Memory (P=0.001) and Blunders problems (0.001) for Experimental group. So, core stability and balance training can be used for improvement Motor function and decreasing Cognitive Failures like Distractibility, Memory and Blunders problems in women with multiple sclerosis.

کلیدواژه‌ها [English]

Motor Function
Cognitive Failures
Women with Multiple Sclerosis
Core Stability and Balance Training

مراجع

1. Karpatkin H I. Multiple sclerosis and exercise: A review of the evidence. International Journal of MS Care. 2005; 7(2): 36-41.

2. Organization W H. Atlas: Multiple sclerosis resources in the world 2008. 2008.

3. Basampour S S, Nikbakht Nasrabadi A, Faghihzadeh S, Monjazebi F. Assess the using and efficacy of fatigue reducing strategies in patients referred to Multiple Sclerosis association of Iran. Hayat. 2005; 11(4): 29-37. (In Persian).

4. Heesen C, Bohm J, Reich C, Kasper J, Goebel M, Gold SM. Patient perception of bodily functions in multiple sclerosis: Gait and visual function are the most valuable. Mult Scler. 2008; 14(7): 988–91.

5. Finlayson M. Concerns about the future among older adults with Multiple Sclerosis. Am J Occup Ther. 2004; 58(1): 54-63.

6. Wetzel J, Fry D, Pfalzer L. Six-minute walk test for persons with mild or moderate disability from multiple sclerosis: Performance and explanatory factors. Physiother Can. 2011; 63(2): 166-80.

7. Prosperini L, Kouleridou A, Petsas N, Leonardi L, Tona F, Pantano P. The relationship between infratentorial lesions, balance deficit and accidental falls in multiple sclerosis. J Neurol Sci. 2011; 304(1–2): 55–60.

8. Finlayson M L, Peterson E W, Cho C C. Risk factors for falling among people aged 45 to 90 years with multiple sclerosis. Archives of Physical Medicine and Rehabilitation. 2006; 87(9): 1274-9.

9. Martin C L, Phillips B, Kilpatrick T, Butzkueven H, Tubridy N, McDonald E, et al. Gait and balance impairment in early multiple sclerosis in the absence of clinical disability. Multiple Sclerosis. 2006; 12(5): 620-8.

10. Benedict R H, Zivadinov R. Risk factors for and management of cognitive dysfunction in multiple sclerosis. Nat Rev Neurol. 2011; 7(6): 332-42.

11. Lynch S G, Parmenter B A, Denney D R. The association between cognitive impairment and physical disability in multiple sclerosis. Multiple Sclerosis. 2005; 11(4): 467-‌9.

12. Amato M, Ponziani G, Siracusa G, Sorbi S. Cognitive dysfunction in early-onset multiple sclerosis: A reappraisal after 10 years. Arch Neurol. 2001; 58(10): 1602- 606.

13. Zivadinov R, Sepcic J, Nasuelli D, Masi R D, Bragadin L, Tommasi M. A longitudinal study of brain atrophy and cognitive disturbances in the early phase of relapsing- remitting multiple sclerosis. J Neurol Neurosurg Psychiatry. 2001; 70(6): 773-80.

14. Benedict R, Wahlig E, Bakshi R, Fishman I, Munschauer F, Zivadinov R, et al. Predicting quality of life in multiple sclerosis: Accounting for physical disability,fatigue, cognition, mood disorder, personality, and behaviorchange. J Neurol Sci. 2005; 231(1): 29-34.

15. Sullivan M, Edgley K. A survey of multiple sclerosis. Part 1: Perceived cognitive problems and compensatory strategy use. Can J Rehabil 1990; 4(1): 99–105.

16. McCulloch K L, Buxton E, Hackney J, Lowers S. Balance, attention, and dual-task performance during walking after brain injury: Associations with falls history. J Head Trauma Rehabil. 2010; 25(3): 155-63.

17. Amato M, Langdon D, Montalban X, Benedict R, DeLuca J, Krupp L, et al. Treatment of cognitive impairment in multiple sclerosis: Position paper. Neurol. 2013; 260(6): 1425-68.

18. Motl R W, Sandroff B M, Benedict R H B. Cognitive dysfunction and Multiple Sclerosis: Developing a rationale for considering the efficacy of exercise training. Mult Scle. 2011; 17(9): 1034-40.

19. Dalgas U, Stenager E, Ingemann-Hansen T. Multiple sclerosis and physical exercise: Recommendations for the application of resistance, endurance and combined training. Mult Scler.‌ 2008; 1(14): 35-53.

20. Rasova K, Havrdova E, Brandejsky P, Zálišová M, Foubikova B, Martinkova P. Comparison of theinfluence of different rehabilitation programmes on clinical, spirometric and spiroergometric parameters in patients with multiplesclerosis. Mult Scler. 2006; 12(2): 227-34.

21. Hodges P W, Richardson C A. Contraction of the abdominal muscles associated with movement of the lower limb. Physical Therapy. 1997; 77(2): 132-42.

22. Leetun D T, Ireland M L, Willson J D, Ballantyne B T, Davis I M. Core stability measures as risk factors for lower extremity injury in athletes. Medicine & Science in Sports & Exercise. 2004; 36(6): 926-34.

23. Peterson C. Strengthening the core from the inside out. Athletic Therapy Today. 2003; 8(4): 41-3.

24. Johnson E G, Larsen A, Ozawa H, Wilson C A, Kennedy K L. The effects of Pilates-based exercise on dynamic balance in healthy adults. Journal of Bodywork and Movement Therapies. 2007; 11(3): 238-42.

25. Cosio-Lima L M, Reynolds K L, Winter C, Paolone V, Jones M T. Effects of physioball and conventional floor exercises on early phase adaptations in back and abdominal core stability and balance in women. The Journal of Strength & Conditioning Research. 2003; 17(4): 721-5.

26. Freeman J, Gear M, Pauli A, Cowan P, Finnigan C, Hunter V, et al. The effect of core stability training on balance and mobility in ambulant individuals with Multiple Sclerosis: A multi-centre series of single case studies. Multiple Sclerosis. 2010; 16(11): 1377–84.

27. Sangelaji B, Nabavi S M, Estebsari F, Banshi M R, Rashidian H, Jamshidi E, et al. Effect of combination exercise therapy on walking distance, Postural balance, fatigue and quality of life in multiple sclerosis patients: A clinical trial study. Iran Red Crescent Med J. 2014; 16(6): e17173. (In Persian).

28. Shanazari Z, Marandi S M, Shayegan Nejad V. The effect of Pilates exercises and aquatic trainning on walking speed in women with Multiple Sclerosis. Journal of Research Development in Nursing & Midwifery‌. 2013; 10(2): 10-17. (In Persian).

29. Pilutti L, Lelli D, Paulseth J, Crome M, Jiang S, Rathbone M, et al. Effects of 12 weeks of supported treadmill training on functional ability and quality of life in progressive Multiple Sclerosis: A pilot study. Arch Phys Med Rehabil. 2011; 92(1): 31-6.

30. Briken S, Gold S, Patra S, Vettorazzi E, Harbs D, Tallner A, et al. Effects of exercise on fitness and cognition in progressive MS: A randomized, controlled pilot trial. Multiple Sclerosis Journal. 2014; 20(3): 382-‌90.

31. Beier M, Bombardier C, Hartoonian N, Motl R, Kraft G. Improved physical fitness correlates with improved cognition in Multiple Sclerosis. Archives of Physical Medicine and Rehabilitation. 2014; 95(7): 1328-‌34.

32. Oken B, Kishiyama S, Zajdel D, Bourdette D, Carlsen J, Haas M, et al. Randomized controlled trial of Yoga and exercise in multiple sclerosis. Neurology. 2004; 62(11): 2058-64.

33. Kalmar J H, Gaudino E A, Moore N B, Halper J, Deluca J. The relationship between cognitive deficits and everyday functional activities in Multiple Sclerosis. Neuropsychology. 2008; 22(4): 442– 9.

34. Langdon D W, Thompson A J. Multiple Sclerosis: A preliminary study of selected variables affecting rehabilitation outcome. Mult Scler. 1999; 5(2): 94-100.

35. Kurtzke J. Rating neurologic impairment in Multiple Sclerosis: An expanded disability status scale (EDSS). Neurology. 1983; 33(11): 1444-52.

36. Daneshmandi H, Barati A, Ahmadi R. The effect of 8 weeks core stabilization training program on balance in deaf students. Medicina Sportive. 2013; 14(3): 16-24. (In Persian).

37. Cattaneo D, Regola A, Meotti M. Validity of six balance disorders scales in persons with Multiple Sclerosis. Disability & Rehabilitation. 2006; 28(12): 789-95.

38. Learmonth Y C, Paul L, McFadyen A K, Mattison P, Miller L. Reliability and clinical significance of mobility and balance assessments in Multiple Sclerosis. International Journal of Rehabilitation Research. 2012; 35(1): 69-74.

39. Cattaneo D, Regola A, Meotti M. Validity of six balance disorders scales in persons with Multiple Sclerosis. Disability and Rehabilitation. 2006; 12(28): 789‌–‌95.

40. Aslan Khani M, Farsi A, Fati Rezaie Z, Zamani Sani Sh, Aghdasi M T. Validity and reliability of the Timed Up & Go and the Functional Reach tests in evaluating fall risk in elderly. Salmand. 2015; 10(1): 2-13. (In Persian).

41. Bethoux F, Bennett S. Evaluating walking in patients with multiple sclerosis: Which assessment tools are useful in clinical practice. Int J MS Care. 2011; 13(1): 4-14.

42. Abolgasemi A, Kiamarsi A. Investigating relation between meta-cognition and cognitive failures in elderly. Cognitive Sciences of New Titles. 2009; 11(1): 8-15. (In Persian).

43. Craig Wallace J. Confirmatory factor analysis of the cognitive failures questionnaire: Evidence for dimensionality and construct validity. Personality and Individual Differences. 2004; 37(2): 307-24.

44. Wallace J C, Vodanovich S J. Workplace safety performance: Conscientiousness, cognitive failure, and their interaction. Journal of Occupational Health Psychology. 2003; 8(4): 316.

45. Brace N, Kemps R, Sangar R. Analyzing psychological data with spss. Translator: Aliabadi K, Samadi A. 3‌^rd‌ ed. Tehran‌: Doran-Didar Pub; 2010. P. 381‌. (In Persian).

46. Khan F, Ng L, Turner-Stokes L. Effectiveness of vocational rehabilitation intervention on the return to work and employment of persons with Multiple Sclerosis. Cochrane Database Sys Rev. 2009; 1(1): 56-‌72.

47. Panjabi M M. The stabilizing system of the spine. Part I. Function, dysfunction, adaptation,‌ and enhancement. Journal of Spinal Disorders & Techniques. 1992; 5(4): 383-9. (In Persian).‌

48. Kibler W, Press J, Sciascia A. The role of core stability in athletic function. Sports Med. 2006; 36(3): 189–98.

49. Samson K M, Sandrey M A, Hetrick A. A core stabilization training program for tennis athletes. Athletic Therapy Today. 2007; 12(3): 41.

تأثیر هفت هفته تمرینات ثبات مرکزی و تعادلی بر عملکرد حرکتی و نارسایی‏های شناختی زنان مبتلا به مولتیپل اسکلروزیس

مراجع

مراجع

دوره 9، شماره 27 - شماره پیاپی 27خرداد 1396صفحه 17-34

دوره 9، شماره 27 - شماره پیاپی 27
خرداد 1396
صفحه 17-34