The Journal of Korean Physical Therapy

  • 제34권5호
  • /
  • Pages.198-204
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  • 2022
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  • 1229-0475(pISSN)
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  • 2287-156X(eISSN)
대한물리치료학회 (The Korean Society of Physical Therapy)
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A Systematic Review on the Physical Rehabilitation of Children with Cerebral Palsy: Focusing on Domestic Literature

  • Kwon, Ae-Lyeong (Department of Special Education (Physics, Occupational Theraphy) Graduate of General, Dankook University) ;
  • Kim, Ki-Jeon (Department of Rehabilitation and Health, Graduate School of Health Science, Hallym University)
  • 투고 : 2022.09.23
  • 심사 : 2022.10.18
  • 발행 : 2022.10.31
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초록

Purpose: This paper sought to classify, analyze, and investigate domestic research papers on the physical rehabilitation of children with cerebral palsy, and to suggest a direction for rehabilitation after the coronavirus disease 2019 (COVID-19) pandemic. Methods: A literature search was conducted from June 1 to June 30, 2022, and only papers published in domestic journals during the past 10 years were searched. The main search term was "rehabilitation for children with cerebral palsy", and "rehabilitation" such as "exercise rehabilitation," "equestrian rehabilitation", and "aquatic rehabilitation" were reviewed when they appeared in the titles and abstracts. A total of 18 books were selected according to the exclusion criteria. Results: Rehabilitation by area was divided into exercise rehabilitation, Bobath rehabilitation, equestrian rehabilitation, and aquatic rehabilitation. Analysis was undertaken based on the period of rehabilitation, area wise from 2012 to 2017, except for aquatic rehabilitation, which was studied once in 2020. The intervention effects of exercise rehabilitation were summarized as PICO (Participants, Intervention, Comparison, Outcome), and most of the studies showed improvements in the subject's physical functions. Conclusion: Research on the physical rehabilitation of children with cerebral palsy is being conducted in multiple directions and through several methods. In addition to the Bobath and Vojta approaches, equestrian rehabilitation, aquatic rehabilitation using the buoyancy of water, and computer rehabilitation are conducted. For the physical rehabilitation of children with cerebral palsy in the context of COVID-19, programs that are linked with families and those that incorporate Information Communications Technology (ICT) could be developed.

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참고문헌

  1. Kim DH. A phenomenological study on the experience of art. Korean Journal of Art Therapy. 2021;28(3):837-63. https://doi.org/10.35594/KATA.2021.28.3.011
  2. Park SW. Comparison before and after the application of the computerized cognitive rehabilitation program (CoTras-C) for children with cerebral palsy. JKMR. 2021;9(3):9-18. https://doi.org/10.19166/med.v9i1.4194
  3. Im JH, Huh JH. An investigation of the effects of rehabilitation horse riding on the gross motor function and muscle balance of mentally disabled children. KSSS. 2013;22(3):683-94.
  4. Kim JY. A review of virtual reality based rehabilitation of people with brain Injury: focused on overseas research from 2011 to 2021. Journal of Special Education. 2021;37(3):63-85. https://doi.org/10.31863/JSE.2021.08.37.3.63
  5. Min KC, Moon YS, Seo SM. Relation between gross motor function and eating and drinking ability, oral motor function in cerebral palsy. JCIT. 2015;11(8):168-75.
  6. Mun DJ, Park JC, Oh HJ. Effect of vibration exercise application on the trunk muscle thickness in children with spastic cerebral palsy. J Kor Phys Ther. 2022;34(2):68-72. https://doi.org/10.18857/jkpt.2022.34.2.68
  7. Kim DH, Kim MR, Ryu CS et al. Effects of exercise using virtual reality video game on gross motor and balance in the cerebral palsy: a single case study. Kor J Neuromuscul Rehabil. 2013;3(1):9-16.
  8. Kim SH, Kim TH, Hwang HC. Effects of spinal stabilization exercises using visual feedback on gross motor function and balance in children with cerebral palsy. Kor J Neuromuscul Rehabil. 2019;31(5):279-85.
  9. Ko JE. Effects of scapular and trunk exercise program on upper limb function, trunk control, and gross motor in cerebral palsy. Kor J Neuromuscul Rehabil. 2014;4(2):18-27.
  10. Yun YN, Choi GE, Lim HW. Assessment using the ICF-core set for children youth with cerebral palsy: a single case study. J Kor Phys Ther. 2019;31(2):103-10. https://doi.org/10.18857/jkpt.2019.31.2.103
  11. Park KO, Han KG. Literature analysis on the types of strengthening interventions according to age and GMFCS in children with cerebral palsy. Journal of Special Education. 2019;35(3):69-92. https://doi.org/10.31863/JSE.2019.12.35.3.69
  12. Jo SH, Oh BH, HwangBo G. The effects of hippotherapy on the activities of trunk muscles in preterm born children with spastic cerebral palsy. Journal of Special Education & Rehabiltion Science. 2012;51(1):349-64.
  13. Kang OD. The effects of horse riding program for developmental delay improvement in children with cerebral palsy. Journal of Special Education & Rehabiltion Science. 2014;53(2):1-17. https://doi.org/10.15870/jsers.2014.12.53.4.1
  14. Jung JH, Chung H. Therapeutic intervention and functional independence in children with cerebral palsy. Korean Journal of Adapted Physical Activity. 2015;23(4);75-85.
  15. Kwon HY. The effects of home-based program of classification for motor, balance and physical activities in children with cerebral palsy. JER. 2012;8(4):135-49.
  16. Lee JH, Kim JJ. The present and future of the rehabilitation exercise field in the fourth industrial revolution for health and welfare. ERS KERWA. 2020;191:19-25.
  17. Kim KS. Effects of horseback riding program on spasticity and range of motion children with spastic cerebral palsy. Sports Science. 2014;31(2):43-52.
  18. Yeom JN. A policy research for invigorating rehabilitation therapy for children and adolescents with cerebral palsy: focused on the perceptions of parents and therapists. Dankook University. Dissertation of Doctorate Degree. 2019.
  19. Lee HJ, Joo GC. The effects of vojta's reflex locomotion movement on respiratory capacity in children with spastic cerebral palsy. Journal of Special Education & Rehabiltion Science. 2014; 53(1):235-59.
  20. Ki BW, Lee HJ. Effects of aquatic exercise therapy on motor function and balance in children with spastic cerebral palsy. Journal of Special Education & Rehabiltion Science. 2015;54(1):75-94. https://doi.org/10.15870/jsers.2015.03.54.1.75
  21. Lee EJ. The effects of sling exercise based with bobath concept on the balance of spastic diplegia cerebral palsy: case report. JKSNT. 2018;22(3):11-8.
  22. Kwon SY. Behavior in infants with COVID-19 complete recovery, art therapy case study. Daegu University. Dissertation of Master's Degree. 2022.
  23. Son SM, Kwag SW. Changes in job commitment and state anxiety of life rehabilitation teacher in the residential care facility for the people with intellectual disability following the COVID-19 vaccination. KOEN. 222;16(3):177-84.
  24. Sarah DB, Laura C, Dawn AS et al. The COVID-19 rehabilitation pandemic. Age Aging. 2020;49(5):696-700. 2020; Suppl:696-700. https://doi.org/10.1093/ageing/afaa118
  25. M. Arbesman, J. Scheer, and D. Lieberman. Using AOTA's critically appraised topic (CAT) and critically papper (CAT) series to link evidence to practice. OT Practice. 2008;13(5):18-22.
  26. Chung EJ, Han SJ, Lee BH. The effects of cranio-cervical flexion based trunk stabilization exercise on gross motor function and posture alignment change in children with spastic cerebral palsy. J Korean Phys Ther Sci 2019;26(2):61-73. https://doi.org/10.26862/jkpts.2019.09.26.2.61
  27. Chang WN, Kim JH, Hwang BY. Effect of trunk facilitation based on the bobath concept on trunk alignment and weight distribution in patients with stroke. JKSNT. 2017;21(3):1-7.
  28. Lee SH, Kim MJ, Lee TH. The effect of bobath therapy on balance and walking in patients with stroke. J Kor Acad Clin Elec. 2013;11(1):1-10.
  29. Kim HW, Nam KS, Son SM. Effects of virtual reality horse riding simulator training using a head-mounted display on balance and gait functions in children with cerebral palsy: a preliminary pilot study. J Kor Phys Ther 2019;31(5):273-8. https://doi.org/10.18857/jkpt.2019.31.5.273
  30. Jeon YJ, Oh DW. Effects of 6-week aquatic exercise program on postural control in spastic diplegic cerebral palsy: a case report. Kor J Neural Rehabil. 2015;5(2):7-13.
  31. Kim KH. The effect of lower extremity exercise in water on balance ability of children with cerebral palsy. Daegu Catholic University. Dissertation of Master's Degree. 2017.
  32. Hwang JS. Effect of an end-effector type of robotic gait training on stand capability, locomotor function, and gait speed in individuals with spastic cerebral palsy. J Korean Soc Phys Med. 2021;16(3):123-30. https://doi.org/10.13066/kspm.2021.16.3.123
  33. Jung HC, Choi DK, Park MC. Design of personalized exercise data collection systembased on edge computing. JKSIC. 2021;26(5):61-8.
  34. Oh ES, Kim SP. Non-invasive brain-computer interfaces for motor rehabilitation. JKDIS. 2020;38(10):35-40.
  35. Kim SJ. A study on the effectiveness of physical interactive sport serious game. JDAEM. 2021;8(3):299-312. https://doi.org/10.29056/jdaem.2021.09.06
  36. Jeong YG, Kim WC. The effects of computer-assisted cognitive rehabilitation on visuospatial perception, visual field and attention, and visual memory in patients with unilateral spatial neglect from brain injury: a randomized controlled trial. Kor J Neuromuscul Rehabil. 2021;11(3):49-58. https://doi.org/10.37851/kjnr.2021.11.3.6
  37. Rocio LR, Juan Luis SG, Ines LR. Robotic systems for the physiotherapy treatment of children with cerebral palsy: a systematic review. Int J Environ Res Public Health. 2022:19(9);51116.