참고문헌 (72)

1. 1. Armand S Decoulon G Bonnefoy-Mazure A . Gait analysis in children with cerebral palsy . EFORT Open Rev. ( 2016 ) 1 : 448 – 60 . 10.1302/2058-5241.1.000052 28698802 

   상세보기

2. 2. Marshall S Teasell R Bayona N Lippert C Chundamala J Villamere J . Motor impairment rehabilitation post acquired brain injury . Brain Inj. ( 2007 ) 21 : 133 – 60 . 10.1080/02699050701201383 17364529 

   상세보기

3. 3. Chen Y Fanchiang HD Howard A . Effectiveness of virtual reality in children with cerebral palsy: a systematic review and meta-analysis of randomized controlled trials . Phys Ther. ( 2018 ) 98 : 63 – 77 . 10.1093/ptj/pzx107 29088476 

   상세보기

4. 4. Porras DC Siemonsma P Inzelberg R Zeilig G Plotnik M Advantages of virtual reality in the rehabilitation of balance and gait: systematic review . Neurology. ( 2018 ) 90 : 1017 – 25 . 10.1212/WNL.0000000000005603 29720544 

   상세보기

5. 5. Aminov A Rogers JM Middleton S Caeyenberghs K Wilson PH . What do randomized controlled trials say about virtual rehabilitation in stroke? A systematic literature review and meta-analysis of upper-limb and cognitive outcomes . J NeuroEng Rehabil. ( 2018 ) 15 : 29 . 10.1186/s12984-018-0370-2 29587853 

   상세보기

6. 6. Ghai S Ghai I Effenberg AO . “Low road” to rehabilitation: a perspective on subliminal sensory neuroprosthetics . Neuropsychiatr Dis Treat. ( 2018 ) 14 : 301 – 7 . 10.2147/NDT.S153392 29398914 

   상세보기

7. 7. Saposnik G Levin M . Virtual reality in stroke rehabilitation: a meta-analysis and implications for clinicians . Stroke. ( 2011 ) 42 : 1380 – 6 . 10.1161/STROKEAHA.110.605451 21474804 

   상세보기

8. 8. Lamontagne A Fung J McFadyen BJ Faubert J . Modulation of walking speed by changing optic flow in persons with stroke . J NeuroEng Rehabil. ( 2007 ) 4 : 22 . 10.1186/1743-0003-4-22 17594501 

   상세보기

9. 9. Ghai S Ghai I . Effects of (music-based) rhythmic auditory cueing training on gait and posture post-stroke: a systematic review & dose-response meta-analysis . Sci Rep. ( 2019 ) 9 : 2183 . 10.1038/s41598-019-38723-3 30778101 

   상세보기

10. 10. Ghai S Schmitz G Hwang TH Effenberg AO . Training proprioception with sound: effects of real-time auditory feedback on intermodal learning . Ann N Y Acad Sci. ( 2019 ) 1438 : 50 – 61 . 10.1111/nyas.13967 30221775 

    상세보기

11. 11. Ghai S Schmitz G Hwang TH Effenberg AO . Auditory Proprioceptive Integration: effects of real-time kinematic auditory feedback on knee proprioception . Front Neurosci. ( 2018 ) 12 : 142 . 10.3389/fnins.2018.00142 29568259 

    상세보기

12. 12. Ghai S Ghai I . Role of sonification and rhythmic auditory cueing for enhancing gait associated deficits induced by neurotoxic cancer therapies: a perspective on auditory neuroprosthetics . Front Neurol. ( 2019 ) 10 : 21 . 10.3389/fneur.2019.00021 30761065 

    상세보기

13. 13. White D Burdick K Fulk G Searleman J Carroll J A virtual reality application for stroke patient rehabilitation . In: IEEE International Conference Mechatronics and Automation . Singapore ( 2005 ). p. 1081 – 1086 . 

14. 14. Andersen SAW Mikkelsen PT Konge L Cayé-Thomasen P Sørensen MS . Cognitive load in distributed and massed practice in virtual reality mastoidectomy simulation . Laryngoscope. ( 2016 ) 126 : E74 – E79 . 10.1002/lary.25449 26153783 

    상세보기

15. 15. Ghai S Ghai I Effenberg AO . Effects of dual tasks and dual-task training on postural stability: a systematic review and meta-analysis . Clinical Intervent Aging. ( 2017 ) 12 : 557 – 77 . 10.2147/CIA.S125201 28356727 

    상세보기

16. 16. Ghai S Proprioception and Performance: The Role of Below-Knee Compression Garments and Secondary Tasks. Thesis, Master of Sport and Leisure Studies (MSpLS), University of Waikato , Hamilton ( 2016 ). Retrieved from: https://hdl.handle.net/10289/10575 

17. 17. Ghai S Merging of the Senses: Interactions Between Auditory and Proprioceptive Modalities. Hannover : Gottfreid Wilhelm Leibniz Universität Diss ( 2019 ). 

18. 18. Yoo JW Lee DR Sim YJ You JH Kim CJ . Effects of innovative virtual reality game and EMG biofeedback on neuromotor control in cerebral palsy . Biomed Mater Eng. ( 2014 ) 24 : 3613 – 8 . 10.3233/BME-141188 25227075 

    상세보기

19. 19. Cameirão MS Si Badia B Oller ED Verschure PF . Neurorehabilitation using the virtual reality based Rehabilitation Gaming System: methodology, design, psychometrics, usability and validation . J NeuroEng Rehabil. ( 2010 ) 7 : 48 . 10.1186/1743-0003-7-48 20860808 

    상세보기

20. 20. Epure P Holte MB Analysis of motivation in virtual reality stroke rehabilitation . In: Interactivity, Game Creation, Design, Learning, and Innovation. Cham : Springer International Publishing ( 2018 ). p. 282 – 93 . Available online at: https://www.springerprofessional.de/analysis-of-motivation-in-virtual-reality-stroke-rehabilitation/15514020 

21. 21. Ravi DK Kumar N Singhi P . Effectiveness of virtual reality rehabilitation for children and adolescents with cerebral palsy: an updated evidence-based systematic review . Physiotherapy. ( 2017 ) 103 : 245 – 58 . 10.1016/j.physio.2016.08.004 28109566 

    상세보기

22. 22. Xiao X Lin Q Lo W-L Mao Y-R Shi X-C Cates RS . Cerebral reorganization in subacute stroke survivors after virtual reality-based training: a preliminary study . Behav. Neurol. ( 2017 ) 2017 : 6261479 . 10.1155/2017/6261479 28720981 

    상세보기

23. 23. Berger CC Gonzalez-Franco M Tajadura-Jiménez A Florencio D Zhang Z . Generic HRTFs may be good enough in virtual reality. Improving source localization through cross-modal plasticity . Front Neurosci. ( 2018 ) 12 : 21 . 10.3389/fnins.2018.00021 29456486 

    상세보기

24. 24. Cheung KL Tunik E Adamovich SV Boyd LA Neuroplasticity and virtual reality . In: Weiss PL Keshner EA Levin MF , editors. Virtual Reality for Physical and Motor Rehabilitation . New York, NY : Springer New York ( 2014 ). p. 5 – 24 . 

25. 25. Byl NN Pitsch EA Abrams GM . Functional outcomes can vary by dose: learning-based sensorimotor training for patients stable poststroke . NeuroRehabil Neural Repair. ( 2008 ) 22 : 494 – 504 . 10.1177/1545968308317431 18780884 

    상세보기

26. 26. Lang CE Lohse KR Birkenmeier RL . Dose and timing in neurorehabilitation: prescribing motor therapy after stroke . Curr Opin Neurol. ( 2015 ) 28 : 549 – 55 . 10.1097/WCO.0000000000000256 26402404 

    상세보기

27. 27. Ghai S . Effects of real-time (sonification) and rhythmic auditory stimuli on recovering arm function post stroke: a systematic review and meta-analysis . Front Neurol. ( 2018 ) 9 : 488 . 10.3389/fneur.2018.00488 30057563 

    상세보기

28. 28. Ghai S Ghai I Effenberg AO . Effect of rhythmic auditory cueing on aging gait: a systematic review and meta-analysis . Aging Dis. ( 2018 ) 9 : 901 – 23 . 10.14336/AD.2017.1031 30271666 

    상세보기

29. 29. Ghai S Ghai I Schmitz G Effenberg AO . Effect of rhythmic auditory cueing on Parkinsonian gait: A systematic review and meta-analysis . Sci Rep. ( 2018 ) 8 : 506 . 29323122 

    상세보기

30. 30. Ghai S Ghai I . Effects of rhythmic auditory cueing in gait rehabilitation for multiple sclerosis: a mini systematic review and meta-analysis . Front Neurol. ( 2018 ) 9 : 386 . 10.3389/fneur.2018.00386 29942278 

    상세보기

31. 31. Ghai S Ghai I Virtual reality training enhances gait post-stroke: a training dose-response meta-analysis . Sci Rep. ( In press ). 

32. 32. Moher D Liberati A Tetzlaff J Altman DG Group P Preferred reporting items for systematic reviews and meta-analyses: the PRISMA statement . PLoS Med. ( 2009 ) 6 : e1000097 10.1371/journal.pmed.1000097 19621072 

    상세보기

33. 33. de Morton NA . The PEDro scale is a valid measure of the methodological quality of clinical trials: a demographic study . Aust J Physiother. ( 2009 ) 55 : 129 – 33 . 10.1016/S0004-9514(09)70043-1 19463084 

    상세보기

34. 34. Ackley BJ Evidence-Based Nursing Care Guidelines: Medical-Surgical Interventions . Elsevier Health Sciences ( 2008 ). Available online at: https://www.elsevier.com/books/evidence-based-nursing-care-guidelines/ackley/978-0-323-04624-4 

35. 35. Borenstein M Hedges LV Higgins J Rothstein HR . A basic introduction to fixed-effect and random-effects models for meta-analysis . Res Synth Methods. ( 2010 ) 1 : 97 – 111 . 10.1002/jrsm.12 26061376 

    상세보기

36. 36. Sue D Richard T Trim and fill: a simple funnel-plot–based method of testing and adjusting for publication bias in meta-analysis . Biometrics. ( 2000 ) 56 : 455 – 63 . 10.1111/j.0006-341X.2000.00455.x 10877304 

    상세보기

37. 37. AlSaif AA Alsenany S . Effects of interactive games on motor performance in children with spastic cerebral palsy . J Phys Ther Sci. ( 2015 ) 27 : 2001 – 3 . 10.1589/jpts.27.2001 26180367 

    상세보기

38. 38. Brien M Sveistrup H . An intensive virtual reality program improves functional balance and mobility of adolescents with cerebral palsy . Pediatr Phys Ther. ( 2011 ) 23 : 258 – 66 . 10.1097/PEP.0b013e318227ca0f 21829120 

    상세보기

39. 39. Cho C Hwang W Hwang S Chung Y . Treadmill training with virtual reality improves gait, balance, and muscle strength in children with cerebral palsy . Tohoku J Exp Med. ( 2016 ) 238 : 213 – 8 . 10.1620/tjem.238.213 26947315 

    상세보기

40. 40. Collange Grecco LA de Almeida Carvalho Duarte N Mendonça ME Galli M Fregni F Oliveira CS . Effects of anodal transcranial direct current stimulation combined with virtual reality for improving gait in children with spastic diparetic cerebral palsy: a pilot, randomized, controlled, double-blind, clinical trial . Clin Rehabil. ( 2015 ) 29 : 1212 – 23 . 10.1177/0269215514566997 25604912 

    상세보기

41. 41. Sajan JE John JA Grace P Sabu SS Tharion G . Wii-based interactive video games as a supplement to conventional therapy for rehabilitation of children with cerebral palsy: a pilot, randomized controlled trial . Dev Neurorehabil. ( 2017 ) 20 : 361 – 7 . 10.1080/17518423.2016.1252970 27846366 

    상세보기

42. 42. Mitchell LE Ziviani J Boyd RN . A randomized controlled trial of web-based training to increase activity in children with cerebral palsy . Dev Med Child Neurol. ( 2016 ) 58 : 767 – 73 . 10.1111/dmcn.13065 26877078 

    상세보기

43. 43. Tarakci D Ersoz Huseyinsinoglu B Tarakci E Razak Ozdincler A . Effects of Nintendo Wii-Fit® video games on balance in children with mild cerebral palsy . Pediatr Int. ( 2016 ) 58 : 1042 – 50 . 10.1111/ped.12942 26858013 

    상세보기

44. 44. Curtis DJ Bencke J Mygind B . The effect of training in an interactive dynamic stander on ankle dorsiflexion and gross motor function in children with cerebral palsy . Dev Neurorehabil. ( 2014 ) 17 : 393 – 7 . 10.3109/17518423.2013.844738 24865964 

    상세보기

45. 45. Gagliardi C Turconi AC Biffi E Maghini C Marelli A Cesareo A . Immersive virtual reality to improve walking abilities in cerebral palsy: a pilot study . Ann Biomed Eng. ( 2018 ) 46 : 1376 – 84 . 10.1007/s10439-018-2039-1 29704186 

    상세보기

46. 46. Chen C-L Chen C-Y Liaw M-Y Chung C-Y Wang C-J Hong W-H . Efficacy of home-based virtual cycling training on bone mineral density in ambulatory children with cerebral palsy . Osteoporosis Int. ( 2013 ) 24 : 1399 – 406 . 10.1007/s00198-012-2137-0 23052930 

    상세보기

47. 47. Chiu H-C Ada L Lee S-D . Balance and mobility training at home using Wii Fit in children with cerebral palsy: a feasibility study . BMJ Open. ( 2018 ) 8 : e019624 . 10.1136/bmjopen-2017-019624 29764871 

    상세보기

48. 48. Levac D McCormick A Levin MF Brien M Mills R Miller E . Active video gaming for children with cerebral palsy: does a clinic-based virtual reality component offer an additive benefit? A pilot study . Phys Occup Ther Pediatr. ( 2018 ) 38 : 74 – 87 . 10.1080/01942638.2017.1287810 28375682 

    상세보기

49. 49. Luna-Oliva L Ortiz-Gutiérrez RM Cano-de la Cuerda R Piédrola RM Alguacil-Diego IM Sánchez-Camarero C . Kinect Xbox 360 as a therapeutic modality for children with cerebral palsy in a school environment: a preliminary study . NeuroRehabilitation. ( 2013 ) 33 : 513 – 21 . 10.3233/NRE-131001 24018364 

    상세보기

50. 50. van der Krogt MM Sloot LH Harlaar J . Overground versus self-paced treadmill walking in a virtual environment in children with cerebral palsy . Gait Posture. ( 2014 ) 40 : 587 – 93 . 10.1016/j.gaitpost.2014.07.003 25065627 

    상세보기

51. 51. Burdea GC Cioi D Kale A Janes WE Ross SA Engsberg JR . Robotics and gaming to improve ankle strength, motor control, and function in children with cerebral palsy-a case study series . IEEE Trans Neural Syst Rehabil Eng. ( 2013 ) 21 : 165 – 73 . 10.1109/TNSRE.2012.2206055 22773059 

    상세보기

52. 52. Jung S-H Song S-H Kim S-D Lee K Lee G-C . Does virtual reality training using the Xbox Kinect have a positive effect on physical functioning in children with spastic cerebral palsy? A case series . J Pediatr Rehabil Med. ( 2018 ) 11 : 95 – 101 . 10.3233/PRM-160415 30010148 

    상세보기

53. 53. Beyaert C Vasa R Frykberg GE . Gait post-stroke: pathophysiology and rehabilitation strategies . Neurophysiol Clin/Clin Neurophysiol. ( 2015 ) 45 : 335 – 55 . 10.1016/j.neucli.2015.09.005 26547547 

    상세보기

54. 54. de Rooij IJ van de Port IG Meijer J-WG . Effect of virtual reality training on balance and gait ability in patients with stroke: systematic review and meta-analysis . Phys. Ther. ( 2016 ) 96 : 1905 – 18 . 10.2522/ptj.20160054 27174255 

    상세보기

55. 55. Laver KE Lange B George S Deutsch JE Saposnik G Crotty M . Virtual reality for stroke rehabilitation . Cochrane Database Syst. Rev. ( 2017 ) 11 : CD008349 . 10.1002/14651858.CD008349.pub4 29156493 

    상세보기

56. 56. Hoon AHJr Stashinko EE Nagae LM Lin DD Keller J Bastian A . Sensory and motor deficits in children with cerebral palsy born preterm correlate with diffusion tensor imaging abnormalities in thalamocortical pathways . Dev Med Child Neurol. ( 2009 ) 51 : 697 – 704 . 10.1111/j.1469-8749.2009.03306.x 19416315 

    상세보기

57. 57. Adamovich S August K Merians A Tunik E . A virtual reality-based system integrated with fmri to study neural mechanisms of action observation-execution: a proof of concept study . Restor Neurol Neurosci. ( 2009 ) 27 : 209 – 23 . 10.3233/RNN-2009-0471 19531876 

    상세보기

58. 58. Ghai S Driller M Ghai I . Effects of joint stabilizers on proprioception and stability: a systematic review and meta-analysis . Phys Therapy Sport. ( 2017 ) 25 : 65 – 75 . 10.1016/j.ptsp.2016.05.006 28262354 

    상세보기

59. 59. Ghai S Driller MW Masters RSW . The influence of below-knee compression garments on knee-joint proprioception . Gait Posture. ( 2018 ) 60 : 258 – 61 . 10.1016/j.gaitpost.2016.08.008 27523397 

    상세보기

60. 60. Mirelman A Patritti BL Bonato P Deutsch JE . Effects of virtual reality training on gait biomechanics of individuals post-stroke . Gait Posture. ( 2010 ) 31 : 433 – 7 . 10.1016/j.gaitpost.2010.01.016 20189810 

    상세보기

61. 61. Ronsse R Puttemans V Coxon JP Goble DJ Wagemans J Wenderoth N . Motor learning with augmented feedback: modality-dependent behavioral and neural consequences . Cerebral Cortex. ( 2011 ) 21 : 1283 – 94 . 10.1093/cercor/bhq209 21030486 

    상세보기

62. 62. Wierinck E Puttemans V Swinnen S van Steenberghe D . Effect of augmented visual feedback from a virtual reality simulation system on manual dexterity training . Eur J Dent Educ. ( 2005 ) 9 : 10 – 6 . 10.1111/j.1600-0579.2004.00351.x 15642018 

    상세보기

63. 63. Beretta E Romei M Molteni E Avantaggiato P Strazzer S . Combined robotic-aided gait training and physical therapy improve functional abilities and hip kinematics during gait in children and adolescents with acquired brain injury . Brain Inj. ( 2015 ) 29 : 955 – 62 . 10.3109/02699052.2015.1005130 25915458 

    상세보기

64. 64. Biffi E Beretta E Cesareo A Maghini C Turconi AC Reni G . An immersive virtual reality platform to enhance walking ability of children with acquired brain injuries . Methods Inf Med. ( 2017 ) 56 : 119 – 26 . 10.3414/ME16-02-0020 28116417 

    상세보기

65. 65. Mishra J Gazzaley A Closed-loop rehabilitation of age-related cognitive disorders. Sem Neurol . ( 2014 ) 34 : 584 – 90 . 10.1055/s-0034-1396011 

    상세보기

66. 66. Moreau NG Bodkin AW Bjornson K Hobbs A Soileau M Lahasky K . Effectiveness of rehabilitation interventions to improve gait speed in children with cerebral palsy: systematic review and meta-analysis . Phys Ther. ( 2016 ) 96 : 1938 – 54 . 10.2522/ptj.20150401 27313240 

    상세보기

67. 67. Ghai S Ghai I Effenberg AO . Effect of rhythmic auditory cueing on gait in cerebral palsy: a systematic review and meta-analysis . Neuropsychiatr Dis Treat. ( 2018 ) 14 : 43 – 59 . 10.2147/NDT.S148053 29339922 

    상세보기

68. 68. Carvalho I Pinto SM das Virgens Chagas D dos Santos JLP de Sousa Oliveira T Batista LA . Robotic gait training for individuals with cerebral palsy: a systematic review and meta-analysis . Arch Phys Med Rehabil. ( 2017 ) 98 : 2332 – 44 . 10.1016/j.apmr.2017.06.018 28751254 

    상세보기

69. 69. Mishra J Gazzaley A . Harnessing the neuroplastic potential of the human brain and the future of cognitive rehabilitation . Front Human Neurosci. ( 2014 ) 8 : 218 . 10.3389/fnhum.2014.00218 24782745 

    상세보기

70. 70. Saleh S Bagce H Qiu Q Fluet G Merians A Adamovich S . Mechanisms of neural reorganization in chronic stroke subjects after virtual reality training . In: Engineering in Medicine and Biology Society, EMBC, 2011 Annual International Conference of the IEEE. (IEEE). ( 2011 ). p. 8118 – 21 . 22256226 

71. 71. Wang Z-R Wang P Xing L Mei L-P Zhao J Zhang T . Leap Motion-based virtual reality training for improving motor functional recovery of upper limbs and neural reorganization in subacute stroke patients . Neural Regener Res. ( 2017 ) 12 : 1823 – 31 . 10.4103/1673-5374.219043 29239328 

    상세보기

72. 72. Fluet GG Deutsch JE . Virtual reality for sensorimotor rehabilitation post-stroke: the promise and current state of the field . Curr Phys Med Rehabil Rep. ( 2013 ) 1 : 9 – 20 . 10.1007/s40141-013-0005-2 24579058 

    상세보기