Effect of 8 weeks of stretching, strength and central stability exercises on scoliosis of boy students

Year 2021, Volume: 7 Issue: 2, 59 - 65, 30.06.2021

Mohammadbagher Forghani Ozrudi

https://doi.org/10.31459/turkjkin.919399

Abstract

This study was conducted to determine the effect of 8 weeks of stretching, strength, and central stability exercises on scoliosis in boy aged 9 to 13 years. The study includes a comparative model. The statistical population of the present study was boy scoliosis, of whom 60 were scoliosis voluntarily participated in this study & were randomly divided into three groups of 20 people: Experimental Group 1 (EG 1): Tensile, strength; Experimental Group 2 (EG 2): Tensile, strength training and central stability, Control Group CG). Scoliosis was used to measure scoliosis between the first to the 12th breast (C7 to S1) and the photogrammetric method. The results showed that the mean lateral curvature angle of EG 1 and EG 2 decreased significantly after participating in the correctional exercise program. There was no significant difference between EG 1 and EG 2. The results of the ANOVA test showed that EG 1 and EG 2 were significantly different from CG. The results of this study showed that the corrective exercises used in this study might have an effective effect on reducing the lateral curvature of the spinal column of students with scoliosis.

Keywords

Boy Students, Central Stability, Scoliosis, Strength, Stretching

References

• Ameri, E., Behtash, H., Mobini, B., Bouzari, B., Shoushtarizadeh, T., & Kabiri, P. (2008). Investigation of pathology of paraspinal muscles in different scoliosis. Journal of Isfahan Medical School, 26(88), 46-53.
• Balzini, L., Vannucchi, L., Benvenuti, F., Benucci, M., Monni, M., Cappozzo, A., Stanhope, (2003). Clinical characteristics of flexed posture in Elderly women. American Geriatrics Society, 51(10), 1419-1426.
• Barrios, C., Tunon, M.T., Engstrom, W., & Canadell, J. (1989). Paraspinal muscle Pathology in experimental scoliosis. Arch other Trauma Surg, 108(6), 342-345.
• Bayes, M.C., & Wadsworth, L.T. (2009). Upper extremity injuries in golf. Phys Sports Med, 37(1), 92-96.
• Beaulieu, M., Toulotte, C., Gatto, L., Rivard, C. H., Teasdale, N., Simoneau, M., & Allard, P. (2009). Postural imbalance in non-treated adolescent idiopathic scoliosis at different periods of progression. Eur Spine J, 18(1), 38-44.
• Behtash, H., Ganjavian, M., Shahre Babaki, B., Fereshtehnejad, S.M, & Akbarnia, B. (2006). The effect of halo traction between anterior and posterior spinal fusion on the correction of scoliosis. Tehran Univ Med J, 64(10), 6-14.
• Bergmark, A. (1989). Stability of the lumbar spine. A study in mechanical engineering. Acta Other Scand, 230(suppl), 20-44.
• Chen, P. Q., Wang, J. L., Tsuang, Y. H., Liao, T. L., Huang, P. I., & Hang, Y. S. (1998). The postural stability control and gait pattern of idiopathic scoliosis adolescents. Clinical Biomechanics, 13(1), S52-S58.
• Crisco, J.J., & Panjabi, M.M. (1991). The intersegmental and multisegmental muscles of the spine: A biomechanical model comparing lateral stabilizing potential. Spine, 7, 793-799.
• Forghani Ozrudi, M.B., & Nikkhoo Amiri, F. (2021). Evaluation of Kyphosis in Mazandaran University of Science and Technology students and its relation to psychological factors. Turk J Kinesiol, 7(1), 39-43.
• Gheitasi, M., Alizadeh, M.H., Rajabi, R., Ebrahimi Takamjani, I., & Haghverdian, S. (2014). The effect of 8 weeks of regular corrective exercises (stretching-strengthening exercises) on the amount of lateral curvature of the spine in participants with unstructured scoliosis using photogrammetry. J Appl Sport Psychol, 10(20), 93-106.
• Ghiasi, F., Akbari, A., & Sangtarash, F. (2007). The effect of stabilization method and Williams exercise on improvement of functions in patients with mechanical chronic low back pain. J Shahrekord Univ Med Sci, 8(4), 21-28.
• Hirashima, M., Kadota, H., Sakurai, S., Kudo, K., & Ohtsuki, T. (2002). Sequentail muscle activity and its functional role in the upper extremity and trunk during overam throwing. J Sports Sci, 20, 301-310.
• Mahaudens, P., Thonnard, J.L., Detrembleur, C. (2005). Influence of structural pelvic disorders during standing and walking in adolescents with idiopathic scoliosis. Spine J, 5(4), 427-433.
• McIntire, K. L., Asher, M. A., Burton, D. C., & Liu, W. (2008). Treatment of adolescent idiopathic scoliosis with quantified trunk rotational strength training: a pilot study. Clin Spine Surg, 21(5), 349-358.
• Mclean, L. (2002). The effect of postural correction on muscle activation amplitudes recorded form the cervicobrachial region. J Electromyogr Kinesiol, 15, 527-535.
• Morningstar, M.W., & Joy, T. (2006). Scoliosis treatment using spinal manipulation and the Pettibon Weighting System a summary of 3 atypical presentations. Chiropr Man Therap, 14, 1. https://doi.org/10.1186/1746-1340-14-1
• Nadler, S. F., Malanga, G. A., DePrince, M., Stitik, T. P., & Feinberg, J. H. (2000). The relationship between lower extremity injury, low back pain, and hip muscle strength in male and female collegiate athletes. Clin J Sport Med, 10(2), 89-97.
• Naderi, A., Rezvani, M.H., Shaabani, F., & Bagheri, S. (2019). Effect of Kyphosis exercises on physical function, postural control and quality of life in elderly men with hypokyphosis. Salmand: Iranian Journal of Ageing, 13(4), 464-479.
• Najafi, H., & Seidi, F. (2014). The effect of an eight-week selected corrective exercises program on non-structural scoliosis deformity. Journal for Research in Sport Rehabilitation, 2(3), 11-19.
• Naqvi, U. (2019). Muscle strength grading. FL: StatPearls Publishing.
• Pingot, M., Czernicki, J., & Kubacki, J. (2007). Assessment of muscle strength of hip joints in children with idiopathic scoliosis. Ortopedia, Traumatologia, Rehabilitacja, 9(6), 636-643.
• Powers, C.M. (2003). The influence of altered lower-extremity kinematic on patellofemoral joint dysfunction: a theoretical perespectiv. J Orthop Sports Phys Ther, 33(11), 639-646.
• Rajbi, R. (2001). The inverstigation and comparison of scoliosis in special and common in students 11-15 School. J Sci Physiotr, 21(2), 56-58.
• Rajabi, R., & Samadi, H. (2009). Guide to the laboratory of corrective movements. Tehran: University of Tehran Publishing Institute.
• Richardson, C.A., & Jull, G.A. (1995). Muscle control-pain control. What exercises would you prescribe? Man Ther, 1, 2-10.
• Richarson, C.A., Jull, G. Toppenberg, R., & Comerford, M. (1992). Techniques for active lumbar stabilization for spinal protection:a pilot study. Aust J Physiother, 38, 105-112.
• Sadd, R.K., Colombo, A.S., & Amado Joao S.M. (2009). Reliability and Validity of the photogrammetry for scoliosis evaluation: a cross-sectional prospective study. Journal of Manipulative and Physiological Therapeutics, 32(6), 423-430.
• Schmidt, R.A., & Lee, T.D. (2011). Motor Control and learning: a behavioral emphasis. 5th ed. Champaign, IL: Human Kinetics.
• Shakeri, A., Sokhangoie, Y., & Hoseini, Y. (2018). The effects of a course of corrective exercises on postural and bio-mechanical parameters in patients with idiopathic scoliosis by using photogrammetry method. HRJBAQ, 3(2), 73-81.
• Sokhangoi, Y., & Afsharmand, Z. (2020). Corrective movements. Tehran: Publication of Hatami Publications and Partners.
• Szeto, G.P.Y., Straker, L., & Rain, S. (2002). A field comparison of neck and shoulder postures in symptomatic and asymptomatic office workers. Appl Ergo, 33, 57-84.
• Tse, M. A., McManus, A. M., & Masters, R. S. (2005). Development and validation of a core endurance intervention program: implications for performance in college-age rowers. J Strength Cond Res, 19(3), 547-552.
• Yakhdani, H. F., Kamran, S., Abasi, H., Kordi, M. H., & Abedinzadeh, S. (2016). Comparison of eight weeks of training in the water and land on changes in lumbar lordosis of girl students of Yazd City. J Clin Physiother Res, 2(4), 182-186.
• Zazulak, B.T., Hewett, T.E., Reeves, N.P., Goldberg, B., & Cholewicki, J. (2007). Deficits in neuromuscular control of the trunk predict knee injury risk. Am J Sports Med, 35(7), 1123-1130.