21. EVALUATION OF GROSS MOTOR FUNCTIONAL ACTIVITIES GMFM-88 IN A CASE OF A CHILD WITH DEVELOPMENTAL DELAY
Main Article Content
Abstract
Objective: To evaluate the effectiveness of applying the GMFM scale in assessing and setting appropriate goals in the rehabilitation of a child with cerebral palsy.
Subjects and Methods: A case study was conducted on a child diagnosed with cerebral palsy, assessing the severity and setting treatment goals over an 8-week period.
Results: After 8 weeks of treatment, assessments using the GMFM scale showed improvements in domains A, B, C, and D with scores of 51, 12, 30, and 8, respectively. Domain E could not be evaluated as the patient discontinued treatment.
Article Details
Keywords
GMFM scale, cerebral palsy, rehabilitation.
References
[1] Bộ Y tế, Hướng dẫn chẩn đoán, điều trị phục hồi chức năng cho trẻ bạo não. 21/9/2018
[2] Raut A, Risaldar P, Naqvi WM et al., Case report of a spastic diplegic cerebral palsy patient: Clinical decision making in physical therapy. Medical Science. 2020;24(103):1809-13.
[3] Ryan JM, Cassidy EE, Noorduyn SG et al., Exercise interventions for cerebral palsy. Cochrane Database of Systematic Reviews, 2017(6).
[4] Asano D, Kikuchi N, Yamakawa T et al., Decline in motor function during the COVID-19 pandemic restrictions and its recovery in a child
with cerebral palsy: A case report. Children, 2021;8(6):511.
[5] Jauhari P, Singhi P, Sankhyan N et al., A comparison of spastic diplegia in term and pretermborn children. Journal of Child Neurology, 2018;33(5):333-9.
[6] Dodd KJ, Taylor NF, Graham HK, A randomized clinical trial of strength training in young people with cerebral palsy. Dev Med Child Neurol, 2003;45(10):652-7.
[7] Park EY, Kim WH, Effect of neurodevelopmental treatment-based physical therapy on the change of muscle strength, spasticity, and gross motor function in children with spastic cerebral palsy. J Phys Ther Sci, 2017;29(6):966-9.
[8] Liao HF, Liu YC, Liu WY et al., Effectiveness of loaded sit-to-stand resistance exercise for children with mild spastic diplegia: A randomized clinical trial. Arch Phys Med Rehabil, 2007;88(1):25-31.
[9] Stavsky M, Mor O, Mastrolia SA et al., Cerebral Palsy-Trends in Epidemiology and Recent Development in Prenatal Mechanisms of Disease, Treatment, and Prevention. Front Pediatr, 2017;5:21.
[2] Raut A, Risaldar P, Naqvi WM et al., Case report of a spastic diplegic cerebral palsy patient: Clinical decision making in physical therapy. Medical Science. 2020;24(103):1809-13.
[3] Ryan JM, Cassidy EE, Noorduyn SG et al., Exercise interventions for cerebral palsy. Cochrane Database of Systematic Reviews, 2017(6).
[4] Asano D, Kikuchi N, Yamakawa T et al., Decline in motor function during the COVID-19 pandemic restrictions and its recovery in a child
with cerebral palsy: A case report. Children, 2021;8(6):511.
[5] Jauhari P, Singhi P, Sankhyan N et al., A comparison of spastic diplegia in term and pretermborn children. Journal of Child Neurology, 2018;33(5):333-9.
[6] Dodd KJ, Taylor NF, Graham HK, A randomized clinical trial of strength training in young people with cerebral palsy. Dev Med Child Neurol, 2003;45(10):652-7.
[7] Park EY, Kim WH, Effect of neurodevelopmental treatment-based physical therapy on the change of muscle strength, spasticity, and gross motor function in children with spastic cerebral palsy. J Phys Ther Sci, 2017;29(6):966-9.
[8] Liao HF, Liu YC, Liu WY et al., Effectiveness of loaded sit-to-stand resistance exercise for children with mild spastic diplegia: A randomized clinical trial. Arch Phys Med Rehabil, 2007;88(1):25-31.
[9] Stavsky M, Mor O, Mastrolia SA et al., Cerebral Palsy-Trends in Epidemiology and Recent Development in Prenatal Mechanisms of Disease, Treatment, and Prevention. Front Pediatr, 2017;5:21.