Volume 15, Issue 14 (10-2017)                   RSMT 2017, 15(14): 37-46 | Back to browse issues page

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behboodian N A, khajeh ali J, letafat kar A. Comparing the scores of functional movement screening tests in active and inactive subjects. RSMT 2017; 15 (14) :37-46
URL: http://jsmt.khu.ac.ir/article-1-234-en.html
Abstract:   (5900 Views)
Due to the necessity of screening injury the aim of this study was to screen the scores of Functional movement screening tests in active and inactive subject . The study population consisted of University Students aged 18 to 25 years out of which 50 students (25 active and 25 inactive) were selected. Functional Movement Screen by Cook were used for functional screening. After the normality of the overall scores for FMS, Independed-Samples T-Test was used in SPSS (version 16) to analyze the data at significant level of 0/05. According to the findings, overall scores of FMS was significantly different between active and inactive subjects (P=0/001). Cut-off point of 17 was obtained for all subjects. There was no significant difference in shoulder mobility and straight leg raise test scores in the active and inactive people but there was significant difference among the scores of other five tests This prospective study shows that due to the overall score FMS inactive people than in active people are more prone to injury.
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Type of Study: Research |
Received: 2016/10/9 | Accepted: 2017/11/14 | Published: 2017/12/6

References
1. Fong, D.T.P., Hong, Y., Chan, L.K., Yung, P.S.H., Chan, K.M. (2007). A systematic review on ankle injury and ankle sprain in sports. Sports Medicine. 37(1): 73-94.
2. Murphy, D., Connolly, D., Beynnon, B. (2003). Risk factors for lower extremity injury: a review of the literature. British Journal of Sports Medicine. 37(1): 13-29.
3. Bompa, T.O. (1993). Power training for sport: Plyometrics for maximum power development: Oakville, Ont. Mosaic Press. Gloucester, Ont. Coaching Association of Canada.
4. Collins, M.F. (2002). Sport for all as a multifaceted product of domestic and international influences. Worldwide Experiences and Trends in Sport for All (L Da Costa and A Miragaya, eds). 493-523.
5. Verhagen, E.A., van Stralen, M.M., Van Mechelen, W. (2010). Behaviour, the key factor for sports injury prevention. Sports Medicine. 40(11): 899-906.
6. Fu, F.H., Bennett, C.H., Ma, C.B., Menetrey, J., Lattermann C. (2000). Current trends in anterior cruciate ligament reconstruction part II. Operative procedures and clinical correlations. The American Journal of Sports Medicine. 28(1): 124-30.
7. Cook, G., Burton, L., Hoogenboom, B. (2006). Pre-participation screening: the use of fundamental movements as an assessment of function–part 1. North American Journal of Sports Physical Therapy. 1(2): 62-72.
8. Cook, G., Burton, L., Hoogenboom, B. (2006). Pre-participation screening: The use of fundamental movements as an assessment of function–Part 2. North American Journal of Sports Physical Therapy. 1(3): 132-9.
9. Beardsley, C., Contreras, B. (2014). The functional movement screen: A review. strength & Conditioning Journal. 36(5): 72-80.
10. Kiesel, K., Plisky, P.J., Voight, M.L. (2007). Can serious injury in professional football be predicted by a preseason functional movement screen. North American Journal of Sports Physical Therapy. 2(3): 147-58.
11. Lisman, P., O’Connor, F.G., Deuster, P.A., Knapik, J.J. (2013). Functional movement screen and aerobic fitness predict injuries in military training. Medicine Science Sports Exercise. 45(4): 636-43.
12. Overmyer, C.A., Chorba, R.S., Chorba, D.J., Bouillon, L.E., Landis, J.A. (2010). Use of a functional movement screening tool to determine injury risk in female collegiate athletes. North American Journal of Sports Physical Therapy. 5(2): 47-54.
13. Perry, F.T., Koehle, M.S. (2013). Normative data for the functional movement screen in middle-aged adults. The Journal of Strength & Conditioning Research. 27(2): 458-62.
14. Schneiders, A.G., Davidsson, A., Horman, E., Sullivan, S.J. (2011). Functional movement screen normative values in a young, active population. International Journal Sports Physical Therapy. 6(2): 75-82.
15. Cook, G. (2004). Athletic body in balance—optimal movement skills and conditioning for performance. Champaign, IL: Human Kinetics. 26-8.
16. Rejali, M., Mostajeran, M. (2010). Assessment of physical activity in medical and public health students of Isfahan university of medical sciences. Journal of Health System Research. 6(2). 75-8.
17. Salehzadeh, K., Fathi, R.Z., Sadr, H.K. (2011). Physical self-concept, body mass index, and physical activity level among college students. Journal of Iranian Psychologists. 8(29): 85-96.
18. Parenteau-G, E., Gaudreault, N., Chambers, S., Boisvert, C., Grenier, A., Gagné, G., Balg, F. (2014). Functional movement screen test: A reliable screening test for young elite ice hockey players. Physical Therapy in Sport. 15(3): 169-75.
19. Letafatkar, A., Hadadnezhad, M., Shojaedin, S., Mohamadi, E. (2014). Relationship between functional movement screening score and history of injury. International Journal of Sports Physical Therapy. 9(1): 21-7.
20. Cook, G., Burton, L., Hoogenboom, B.J., Voight, M. (2014). Functional movement screening: the use of fundamental movements as an assessment of function-part 2. International Journal of Sports Physical Therapy. 9(4): 549-63.
21. Peate, W., Bates, G., Lunda, K., Francis, S., Bellamy, K. (2007). Core strength: a new model for injury prediction and prevention. Journal Occupational Medicine Toxicology. 2(1): 1-9.
22. Cook, G., Burton, L., Hoogenboom, B.J., Voight, M. (2014). Functional movement screening: the use of fundamental movements as an assessment of function‐part 1. International Journal of Sports Physical Therapy. 9(3): 396-409.
23. Amiri, K.M., Mogharabi, M.M. (2013). Effect of different physical activity levels on the static and dynamic balance of dominant and non-dominant legs in females. Journal of Rehabilitation Sciences. 9(7): 1177-88.

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