Efecto de un programa de rehabilitación virtual con Nintendo Wii Balance Board® en un grupo de pacientes de lesión medular establecida en la Clínica Universidad de La Sabana: Un estudio piloto

86 Páginas.

Autores:: Hoyos Gutiérrez, Juan Bernardo

Tipo de recurso:

Fecha de publicación:: 2013

Institución:: Universidad de la Sabana

Repositorio:: Repositorio Universidad de la Sabana

Idioma:: spa

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repository_id_str
dc.title.es_CO.fl_str_mv	Efecto de un programa de rehabilitación virtual con Nintendo Wii Balance Board® en un grupo de pacientes de lesión medular establecida en la Clínica Universidad de La Sabana: Un estudio piloto
title	Efecto de un programa de rehabilitación virtual con Nintendo Wii Balance Board® en un grupo de pacientes de lesión medular establecida en la Clínica Universidad de La Sabana: Un estudio piloto
spellingShingle	Efecto de un programa de rehabilitación virtual con Nintendo Wii Balance Board® en un grupo de pacientes de lesión medular establecida en la Clínica Universidad de La Sabana: Un estudio piloto Juegos de video -- Lesiones personales -- Colombia Video juegos -- Daños corporales -- Terapias alternativas -- Colombia Terapia recreativa -- Video juegos -- Colombia
title_short	Efecto de un programa de rehabilitación virtual con Nintendo Wii Balance Board® en un grupo de pacientes de lesión medular establecida en la Clínica Universidad de La Sabana: Un estudio piloto
title_full	Efecto de un programa de rehabilitación virtual con Nintendo Wii Balance Board® en un grupo de pacientes de lesión medular establecida en la Clínica Universidad de La Sabana: Un estudio piloto
title_fullStr	Efecto de un programa de rehabilitación virtual con Nintendo Wii Balance Board® en un grupo de pacientes de lesión medular establecida en la Clínica Universidad de La Sabana: Un estudio piloto
title_full_unstemmed	Efecto de un programa de rehabilitación virtual con Nintendo Wii Balance Board® en un grupo de pacientes de lesión medular establecida en la Clínica Universidad de La Sabana: Un estudio piloto
title_sort	Efecto de un programa de rehabilitación virtual con Nintendo Wii Balance Board® en un grupo de pacientes de lesión medular establecida en la Clínica Universidad de La Sabana: Un estudio piloto
dc.creator.fl_str_mv	Hoyos Gutiérrez, Juan Bernardo
dc.contributor.advisor.none.fl_str_mv	Díaz Quijano, Diana Marcela
dc.contributor.author.none.fl_str_mv	Hoyos Gutiérrez, Juan Bernardo
dc.subject.none.fl_str_mv	Juegos de video -- Lesiones personales -- Colombia Video juegos -- Daños corporales -- Terapias alternativas -- Colombia Terapia recreativa -- Video juegos -- Colombia
topic	Juegos de video -- Lesiones personales -- Colombia Video juegos -- Daños corporales -- Terapias alternativas -- Colombia Terapia recreativa -- Video juegos -- Colombia
description	86 Páginas.
publishDate	2013
dc.date.accessioned.none.fl_str_mv	2013-12-12T20:47:40Z
dc.date.available.none.fl_str_mv	2013-12-12T20:47:40Z
dc.date.created.none.fl_str_mv	2013
dc.date.issued.none.fl_str_mv	2013-12-12
dc.type.none.fl_str_mv	bachelorThesis
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dc.type.local.none.fl_str_mv	Tesis de especialización
dc.type.hasVersion.none.fl_str_mv	publishedVersion
dc.identifier.citation.none.fl_str_mv	Seelen HA, Potten YJ, Huson A, Spaans F, Reulen JP. Impaired balance control in paraplegic subjects. J Electromyogr Kinesiol. Llorens R, Colomer-Font C, Alcaniz M, Noe-Sebastian E. BioTrak virtual reality system: effectiveness and satisfaction analysis for balance rehabilitation in patients with brain injury. Neurologia: 2011 Sociedad Espanola de Neurologia. Published by Elsevier Espana; 2012 Behrman AL, Harkema SJ. Physical rehabilitation as an agent for recovery after spinal cord injury. Phys Med Rehabil Clin N Am. 18. United States2007. p. 183-202, v Penasco-Martin B, de los Reyes-Guzman A, Gil-Agudo A, Bernal-Sahun A, Perez-Aguilar B, de la Pena-Gonzalez AI. [Application of virtual reality in the motor aspects of neurorehabilitation]. Rev Neurol. 51. Spain2010. p. 481-8. Betker AL, Desai A, Nett C, Kapadia N, Szturm T. Game-based exercises for dynamic short-sitting balance rehabilitation of people with chronic spinal cord and traumatic brain injuries. Phys Ther. 87. United States2007. p. 1389-98. Kizony R, Raz L, Katz N, Weingarden H, Weiss PL. Video-capture virtual reality system for patients with paraplegic spinal cord injury. J Rehabil Res Dev. 2005;42(5):595-608. Monge Pereira E, Molina Rueda F, Alguacil Diego IM, Cano De La Cuerda R, De Mauro A, Miangolarra Page JC. Use of virtual reality systems as proprioception method in cerebral palsy: clinical practice guideline. Neurologia: A 2011 Sociedad Espanola de Neurologia. Published by Elsevier Espana; 2012. Levac D, Pierrynowski MR, Canestraro M, Gurr L, Leonard L, Neeley C. Exploring children's movement characteristics during virtual reality video game play. Hum Mov Sci. 29. Netherlands: 2010 Elsevier B.V; 2010. p. 1023-38 Gil-Gomez JA, Llorens R, Alcaniz M, Colomer C. Effectiveness of a Wii balance board-based system (eBaViR) for balance rehabilitation: a pilot randomized clinical trial in patients with acquired brain injury. J Neuroeng Rehabil. England2011. p. 30 Janssen-Potten YJ, Seelen HA, Drukker J, Reulen JP. Chair configuration and balance control in persons with spinal cord injury. Arch Phys Med Rehabil. 81. United States2000. p. 401-8 Boswell-Ruys CL, Sturnieks DL, Harvey LA, Sherrington C, Middleton JW, Lord SR. Validity and reliability of assessment tools for measuring unsupported sitting in people with a spinal cord injury. Arch Phys Med Rehabil. 90. United States2009. p. 1571-7 Grangeon M, Gagnon D, Gauthier C, Jacquemin G, Masani K, Popovic MR. Effects of upper limb positions and weight support roles on quasi-static seated postural stability in individuals with spinal cord injury. Gait Posture. 36. England: 2012 Elsevier B.V; 2012. p. 572-9. Clark RA, Bryant AL, Pua Y, McCrory P, Bennell K, Hunt M. Validity and reliability of the Nintendo Wii Balance Board for assessment of standing balance. Gait Posture. 31. England: 2009 Elsevier B.V; 2010. p. 307-10. Sipski ML, Richards JS. Spinal cord injury rehabilitation: state of the science. Am J Phys Med Rehabil. 85. United States2006. p. 310-42. Avances fisiopatológicos para el entendimiento de la lesión medular traumática. 2013 Henao-Lema CP, Pérez-Parra JE. Lesiones medulares y discapacidad: revisión bibliográfica. Aquichan. 2013(2):157-72. Branco F, Cardenas DD, Svircev JN. Spinal cord injury: a comprehensive review. Phys Med Rehabil Clin N Am. 18. United States2007. p. 651-79, v. mexico drni. Daños Trazadores. Bellavista,Callao: Instituto Nacional de Rehabilitación2004 Lugo LH, Salinas F, Garcia HI. Out-patient rehabilitation programme for spinal cord injured patients: evaluation of the results on motor FIM score. Disabil Rehabil. 29. England2007. p. 873-81. A C. Lesiones no fatales en accidentes de tránsito Accidentes de tránsito. Instituto Nacional de Medicina Legal y Ciencias Colombia; 2006. Enrique JH. Traum Raquimedular, Guias para manejo de urgencias. fapafem. 2009. Garzón M. Trauma Raquimedular, factores predictivos de recuperación neurológica a largo plazo. Repertorio de Medicina y Cirugía2005. p. 74-8. Sharma A. Pharmacological management of acute spinal cord injury. J Assoc Physicians India. 2012;60 Suppl:13-8. Krause JS, Coker JL. Aging after spinal cord injury: A 30-year longitudinal study. J Spinal Cord Med. 2006;29(4):371-6. Henao CP. Situación de discapacidad de la población adulta con lesión medular de la ciudad de Manizales. Hacia la promoción de la salud. In: Pérez JE, editor. 2011. p. 52-67. Organization WH. World Health Organization - Classification, Assessment, and Terminology Team (CAT) -Department for Measurement and Health Information Systems. WHODAS II. . Training manual: a guide to administration, Geneva (Switzerland): Disability Assessment Schedule. ; 2004. p. 1-65. 27. Guttmann SL. Lesionados medulares: tratamiento global e investigación. Barcelona: Editorial JIMS. 1985 Gandolfo Conceição MI, Silva Gimenes LD. La utilización de la biorretroalimentación en el aprendizaje motor de personas con lesión medular. Avances en psicología latinoamericana, ISSN 1794-4724, Vol 27, Nº 1, 2009, págs 177-191. 2009 Fehlings MG, Wilson JR, Dvorak MF, Vaccaro A, Fisher CG. The challenges of managing spine and spinal cord injuries: an evolving consensus and opportunities for change. Spine (Phila Pa 1976). 35. United States2010. p. S161- 5 Jorgensen V, Elfving B, Opheim A. Assessment of unsupported sitting in patients with spinal cord injury. Spinal Cord. 49. England2011. p. 838-43 Taube W, Gruber M, Gollhofer A. Spinal and supraspinal adaptations associated with balance training and their functional relevance. Acta Physiol (Oxf). 193. England2008. p. 101-16. Bove M, Trompetto C, Abbruzzese G, Schieppati M. The posture-related interaction between Ia-afferent and descending input on the spinal reflex excitability in humans. Neurosci Lett. 397. Ireland2006. p. 301-6. Jacobs JV, Horak FB. Cortical control of postural responses. J Neural Transm. 2007;114(10):1339-48. Seelen HA, Potten YJ, Drukker J, Reulen JP, Pons C. Development of new muscle synergies in postural control in spinal cord injured subjects. J Electromyogr Kinesiol. 8. England1998. p. 23-34. Field-Fote EC, Ray SS. Seated reach distance and trunk excursion accurately reflect dynamic postural control in individuals with motor-incomplete spinal cord injury. Spinal Cord. 48. England2010. p. 745-9 Harkema SJ, Schmidt-Read M, Lorenz DJ, Edgerton VR, Behrman AL. Balance and ambulation improvements in individuals with chronic incomplete spinal cord injury using locomotor training-based rehabilitation. Arch Phys Med Rehabil. 93. United States: 2012 American Congress of Rehabilitation Medicine. Published by Elsevier Inc; 2012. p. 1508-17. Sayenko DG, Alekhina MI, Masani K, Vette AH, Obata H, Popovic MR, et al. Positive effect of balance training with visual feedback on standing balance abilities in people with incomplete spinal cord injury. Spinal Cord. 48. England2010. p. 886-93 Bjerkefors A, Carpenter MG, Thorstensson A. Dynamic trunk stability is improved in paraplegics following kayak ergometer training. Scand J Med Sci Sports. 17. Denmark2007. p. 672-9. Barclay-Goddard R, Stevenson T, Poluha W, Moffatt ME, Taback SP. Force platform feedback for standing balance training after stroke. Cochrane Database Syst Rev. 2004(4):CD004129. Mulder T, Hulstyn W. Sensory feedback therapy and theoretical knowledge of motor control and learning. Am J Phys Med. 1984;63(5):226-44. Bayón M, Martínez J. Rehabilitación del ictus mediante realidad virtual. Rehabilitación. 2010;44(3):256-60 Holden MK. Virtual environments for motor rehabilitation: review. Cyberpsychol Behav. 2005;8(3):187-211; discussion 2-9. Laver K, George S, Thomas S, Deutsch JE, Crotty M. Cochrane review: virtual reality for stroke rehabilitation. Eur J Phys Rehabil Med. 48. Italy2012. p. 523-30. Laver K, George S, Thomas S, Deutsch JE, Crotty M. Cochrane review: virtual reality for stroke rehabilitation. Eur J Phys Rehabil Med. 48. Italy2012. p. 523-30. Saposnik G, Levin M. Virtual reality in stroke rehabilitation: a meta-analysis and implications for clinicians. Stroke. 42. United States2011. p. 1380-6 Adamovich SV, Fluet GG, Tunik E, Merians AS. Sensorimotor training in virtual reality: a review. NeuroRehabilitation. 25. Netherlands2009. p. 29-44. Meldrum D, Glennon A, Herdman S, Murray D, McConn-Walsh R. Virtual reality rehabilitation of balance: assessment of the usability of the Nintendo Wii((R)) Fit Plus. Disabil Rehabil Assist Technol. 2012;7(3):205-10. Duncan PW, Weiner DK, Chandler J, Studenski S. Functional reach: a new clinical measure of balance. J Gerontol. 1990;45(6):M192-7. Datta S, Lorenz DJ, Harkema SJ. Dynamic longitudinal evaluation of the utility of the Berg Balance Scale in individuals with motor incomplete spinal cord injury. Arch Phys Med Rehabil. 93. United States: 2012 American Congress of Rehabilitation Medicine. Published by Elsevier Inc; 2012. p. 1565-73. Chen CL, Yeung KT, Bih LI, Wang CH, Chen MI, Chien JC. The relationship between sitting stability and functional performance in patients with paraplegia. Arch Phys Med Rehabil. 84. United States2003. p. 1276-81 Boswell-Ruys CL, Harvey LA, Barker JJ, Ben M, Middleton JW, Lord SR. Training unsupported sitting in people with chronic spinal cord injuries: a randomized controlled trial. Spinal Cord. 48. England2010. p. 138-43. Izquierdo M, Martinez-Ramirez A, Larrion JL, Irujo-Espinosa M, Gomez M. [Functional capacity evaluation in a clinical and ambulatory setting: new challenges of accelerometry to assessment balance and muscle power in aging population]. An Sist Sanit Navar. 2008;31(2):159-70. Holmes JD, Jenkins ME, Johnson AM, Hunt MA, Clark RA. Validity of the Nintendo Wii(R) balance board for the assessment of standing balance in Parkinson's disease. Clin Rehabil2012 Kamen G, Patten C, Du CD, Sison S. An accelerometry-based system for the assessment of balance and postural sway. Gerontology. 44. Switzerland1998. p. 40-5 Mancini M, Salarian A, Carlson-Kuhta P, Zampieri C, King L, Chiari L, et al. ISway: a sensitive, valid and reliable measure of postural control. J Neuroeng Rehabil. 9. England2012. p. 59. Seimetz C, Tan D, Katayama R, Lockhart T. A comparison between methods of measuring postrual stability: force plates versus accelerometers. Biomed Sci Instrum. 2012;48:386-92. Whitney SL, Roche JL, Marchetti GF, Lin CC, Steed DP, Furman GR, et al. A comparison of accelerometry and center of pressure measures during computerized dynamic posturography: a measure of balance. Gait Posture. 33. England: 2011 Elsevier B.V; 2011. p. 594-9. Moe-Nilssen R. Test-retest reliability of trunk accelerometry during standing and walking. Arch Phys Med Rehabil. 79. United States1998. p. 1377-85 Mancini M, Carlson-Kuhta P, Zampieri C, Nutt JG, Chiari L, Horak FB. Postural sway as a marker of progression in Parkinson's disease: a pilot longitudinal study. Gait Posture. 36. England: 2012 Elsevier B.V; 2012. p. 471-6. Tribunal Internacional de Núremberg. CÓDIGO DE NÚREMBERG. 1947. Departamento de Salud EyBdlEU. Principios éticos y pautas para la protección de los seres humanos en la investigación. 1979 Mombarg R, Jelsma D, Hartman E. Effect of Wii-intervention on balance of children with poor motor performance. Res Dev Disabil. 2013;34(9):2996-3003. Mhatre PV, Vilares I, Stibb SM, Albert MV, Pickering L, Marciniak CM, et al. Wii Fit Balance Board Playing Improves Balance and Gait in Parkinson Disease. Pm r. 2013. Bieryla KA, Dold NM. Feasibility of Wii Fit training to improve clinical measures of balance in older adults. Clin Interv Aging. 2013;8:775-81.
dc.identifier.uri.none.fl_str_mv	http://hdl.handle.net/10818/9231
dc.identifier.local.none.fl_str_mv	256460 TE06213
identifier_str_mv	Seelen HA, Potten YJ, Huson A, Spaans F, Reulen JP. Impaired balance control in paraplegic subjects. J Electromyogr Kinesiol. Llorens R, Colomer-Font C, Alcaniz M, Noe-Sebastian E. BioTrak virtual reality system: effectiveness and satisfaction analysis for balance rehabilitation in patients with brain injury. Neurologia: 2011 Sociedad Espanola de Neurologia. Published by Elsevier Espana; 2012 Behrman AL, Harkema SJ. Physical rehabilitation as an agent for recovery after spinal cord injury. Phys Med Rehabil Clin N Am. 18. United States2007. p. 183-202, v Penasco-Martin B, de los Reyes-Guzman A, Gil-Agudo A, Bernal-Sahun A, Perez-Aguilar B, de la Pena-Gonzalez AI. [Application of virtual reality in the motor aspects of neurorehabilitation]. Rev Neurol. 51. Spain2010. p. 481-8. Betker AL, Desai A, Nett C, Kapadia N, Szturm T. Game-based exercises for dynamic short-sitting balance rehabilitation of people with chronic spinal cord and traumatic brain injuries. Phys Ther. 87. United States2007. p. 1389-98. Kizony R, Raz L, Katz N, Weingarden H, Weiss PL. Video-capture virtual reality system for patients with paraplegic spinal cord injury. J Rehabil Res Dev. 2005;42(5):595-608. Monge Pereira E, Molina Rueda F, Alguacil Diego IM, Cano De La Cuerda R, De Mauro A, Miangolarra Page JC. Use of virtual reality systems as proprioception method in cerebral palsy: clinical practice guideline. Neurologia: A 2011 Sociedad Espanola de Neurologia. Published by Elsevier Espana; 2012. Levac D, Pierrynowski MR, Canestraro M, Gurr L, Leonard L, Neeley C. Exploring children's movement characteristics during virtual reality video game play. Hum Mov Sci. 29. Netherlands: 2010 Elsevier B.V; 2010. p. 1023-38 Gil-Gomez JA, Llorens R, Alcaniz M, Colomer C. Effectiveness of a Wii balance board-based system (eBaViR) for balance rehabilitation: a pilot randomized clinical trial in patients with acquired brain injury. J Neuroeng Rehabil. England2011. p. 30 Janssen-Potten YJ, Seelen HA, Drukker J, Reulen JP. Chair configuration and balance control in persons with spinal cord injury. Arch Phys Med Rehabil. 81. United States2000. p. 401-8 Boswell-Ruys CL, Sturnieks DL, Harvey LA, Sherrington C, Middleton JW, Lord SR. Validity and reliability of assessment tools for measuring unsupported sitting in people with a spinal cord injury. Arch Phys Med Rehabil. 90. United States2009. p. 1571-7 Grangeon M, Gagnon D, Gauthier C, Jacquemin G, Masani K, Popovic MR. Effects of upper limb positions and weight support roles on quasi-static seated postural stability in individuals with spinal cord injury. Gait Posture. 36. England: 2012 Elsevier B.V; 2012. p. 572-9. Clark RA, Bryant AL, Pua Y, McCrory P, Bennell K, Hunt M. Validity and reliability of the Nintendo Wii Balance Board for assessment of standing balance. Gait Posture. 31. England: 2009 Elsevier B.V; 2010. p. 307-10. Sipski ML, Richards JS. Spinal cord injury rehabilitation: state of the science. Am J Phys Med Rehabil. 85. United States2006. p. 310-42. Avances fisiopatológicos para el entendimiento de la lesión medular traumática. 2013 Henao-Lema CP, Pérez-Parra JE. Lesiones medulares y discapacidad: revisión bibliográfica. Aquichan. 2013(2):157-72. Branco F, Cardenas DD, Svircev JN. Spinal cord injury: a comprehensive review. Phys Med Rehabil Clin N Am. 18. United States2007. p. 651-79, v. mexico drni. Daños Trazadores. Bellavista,Callao: Instituto Nacional de Rehabilitación2004 Lugo LH, Salinas F, Garcia HI. Out-patient rehabilitation programme for spinal cord injured patients: evaluation of the results on motor FIM score. Disabil Rehabil. 29. England2007. p. 873-81. A C. Lesiones no fatales en accidentes de tránsito Accidentes de tránsito. Instituto Nacional de Medicina Legal y Ciencias Colombia; 2006. Enrique JH. Traum Raquimedular, Guias para manejo de urgencias. fapafem. 2009. Garzón M. Trauma Raquimedular, factores predictivos de recuperación neurológica a largo plazo. Repertorio de Medicina y Cirugía2005. p. 74-8. Sharma A. Pharmacological management of acute spinal cord injury. J Assoc Physicians India. 2012;60 Suppl:13-8. Krause JS, Coker JL. Aging after spinal cord injury: A 30-year longitudinal study. J Spinal Cord Med. 2006;29(4):371-6. Henao CP. Situación de discapacidad de la población adulta con lesión medular de la ciudad de Manizales. Hacia la promoción de la salud. In: Pérez JE, editor. 2011. p. 52-67. Organization WH. World Health Organization - Classification, Assessment, and Terminology Team (CAT) -Department for Measurement and Health Information Systems. WHODAS II. . Training manual: a guide to administration, Geneva (Switzerland): Disability Assessment Schedule. ; 2004. p. 1-65. 27. Guttmann SL. Lesionados medulares: tratamiento global e investigación. Barcelona: Editorial JIMS. 1985 Gandolfo Conceição MI, Silva Gimenes LD. La utilización de la biorretroalimentación en el aprendizaje motor de personas con lesión medular. Avances en psicología latinoamericana, ISSN 1794-4724, Vol 27, Nº 1, 2009, págs 177-191. 2009 Fehlings MG, Wilson JR, Dvorak MF, Vaccaro A, Fisher CG. The challenges of managing spine and spinal cord injuries: an evolving consensus and opportunities for change. Spine (Phila Pa 1976). 35. United States2010. p. S161- 5 Jorgensen V, Elfving B, Opheim A. Assessment of unsupported sitting in patients with spinal cord injury. Spinal Cord. 49. England2011. p. 838-43 Taube W, Gruber M, Gollhofer A. Spinal and supraspinal adaptations associated with balance training and their functional relevance. Acta Physiol (Oxf). 193. England2008. p. 101-16. Bove M, Trompetto C, Abbruzzese G, Schieppati M. The posture-related interaction between Ia-afferent and descending input on the spinal reflex excitability in humans. Neurosci Lett. 397. Ireland2006. p. 301-6. Jacobs JV, Horak FB. Cortical control of postural responses. J Neural Transm. 2007;114(10):1339-48. Seelen HA, Potten YJ, Drukker J, Reulen JP, Pons C. Development of new muscle synergies in postural control in spinal cord injured subjects. J Electromyogr Kinesiol. 8. England1998. p. 23-34. Field-Fote EC, Ray SS. Seated reach distance and trunk excursion accurately reflect dynamic postural control in individuals with motor-incomplete spinal cord injury. Spinal Cord. 48. England2010. p. 745-9 Harkema SJ, Schmidt-Read M, Lorenz DJ, Edgerton VR, Behrman AL. Balance and ambulation improvements in individuals with chronic incomplete spinal cord injury using locomotor training-based rehabilitation. Arch Phys Med Rehabil. 93. United States: 2012 American Congress of Rehabilitation Medicine. Published by Elsevier Inc; 2012. p. 1508-17. Sayenko DG, Alekhina MI, Masani K, Vette AH, Obata H, Popovic MR, et al. Positive effect of balance training with visual feedback on standing balance abilities in people with incomplete spinal cord injury. Spinal Cord. 48. England2010. p. 886-93 Bjerkefors A, Carpenter MG, Thorstensson A. Dynamic trunk stability is improved in paraplegics following kayak ergometer training. Scand J Med Sci Sports. 17. Denmark2007. p. 672-9. Barclay-Goddard R, Stevenson T, Poluha W, Moffatt ME, Taback SP. Force platform feedback for standing balance training after stroke. Cochrane Database Syst Rev. 2004(4):CD004129. Mulder T, Hulstyn W. Sensory feedback therapy and theoretical knowledge of motor control and learning. Am J Phys Med. 1984;63(5):226-44. Bayón M, Martínez J. Rehabilitación del ictus mediante realidad virtual. Rehabilitación. 2010;44(3):256-60 Holden MK. Virtual environments for motor rehabilitation: review. Cyberpsychol Behav. 2005;8(3):187-211; discussion 2-9. Laver K, George S, Thomas S, Deutsch JE, Crotty M. Cochrane review: virtual reality for stroke rehabilitation. Eur J Phys Rehabil Med. 48. Italy2012. p. 523-30. Saposnik G, Levin M. Virtual reality in stroke rehabilitation: a meta-analysis and implications for clinicians. Stroke. 42. United States2011. p. 1380-6 Adamovich SV, Fluet GG, Tunik E, Merians AS. Sensorimotor training in virtual reality: a review. NeuroRehabilitation. 25. Netherlands2009. p. 29-44. Meldrum D, Glennon A, Herdman S, Murray D, McConn-Walsh R. Virtual reality rehabilitation of balance: assessment of the usability of the Nintendo Wii((R)) Fit Plus. Disabil Rehabil Assist Technol. 2012;7(3):205-10. Duncan PW, Weiner DK, Chandler J, Studenski S. Functional reach: a new clinical measure of balance. J Gerontol. 1990;45(6):M192-7. Datta S, Lorenz DJ, Harkema SJ. Dynamic longitudinal evaluation of the utility of the Berg Balance Scale in individuals with motor incomplete spinal cord injury. Arch Phys Med Rehabil. 93. United States: 2012 American Congress of Rehabilitation Medicine. Published by Elsevier Inc; 2012. p. 1565-73. Chen CL, Yeung KT, Bih LI, Wang CH, Chen MI, Chien JC. The relationship between sitting stability and functional performance in patients with paraplegia. Arch Phys Med Rehabil. 84. United States2003. p. 1276-81 Boswell-Ruys CL, Harvey LA, Barker JJ, Ben M, Middleton JW, Lord SR. Training unsupported sitting in people with chronic spinal cord injuries: a randomized controlled trial. Spinal Cord. 48. England2010. p. 138-43. Izquierdo M, Martinez-Ramirez A, Larrion JL, Irujo-Espinosa M, Gomez M. [Functional capacity evaluation in a clinical and ambulatory setting: new challenges of accelerometry to assessment balance and muscle power in aging population]. An Sist Sanit Navar. 2008;31(2):159-70. Holmes JD, Jenkins ME, Johnson AM, Hunt MA, Clark RA. Validity of the Nintendo Wii(R) balance board for the assessment of standing balance in Parkinson's disease. Clin Rehabil2012 Kamen G, Patten C, Du CD, Sison S. An accelerometry-based system for the assessment of balance and postural sway. Gerontology. 44. Switzerland1998. p. 40-5 Mancini M, Salarian A, Carlson-Kuhta P, Zampieri C, King L, Chiari L, et al. ISway: a sensitive, valid and reliable measure of postural control. J Neuroeng Rehabil. 9. England2012. p. 59. Seimetz C, Tan D, Katayama R, Lockhart T. A comparison between methods of measuring postrual stability: force plates versus accelerometers. Biomed Sci Instrum. 2012;48:386-92. Whitney SL, Roche JL, Marchetti GF, Lin CC, Steed DP, Furman GR, et al. A comparison of accelerometry and center of pressure measures during computerized dynamic posturography: a measure of balance. Gait Posture. 33. England: 2011 Elsevier B.V; 2011. p. 594-9. Moe-Nilssen R. Test-retest reliability of trunk accelerometry during standing and walking. Arch Phys Med Rehabil. 79. United States1998. p. 1377-85 Mancini M, Carlson-Kuhta P, Zampieri C, Nutt JG, Chiari L, Horak FB. Postural sway as a marker of progression in Parkinson's disease: a pilot longitudinal study. Gait Posture. 36. England: 2012 Elsevier B.V; 2012. p. 471-6. Tribunal Internacional de Núremberg. CÓDIGO DE NÚREMBERG. 1947. Departamento de Salud EyBdlEU. Principios éticos y pautas para la protección de los seres humanos en la investigación. 1979 Mombarg R, Jelsma D, Hartman E. Effect of Wii-intervention on balance of children with poor motor performance. Res Dev Disabil. 2013;34(9):2996-3003. Mhatre PV, Vilares I, Stibb SM, Albert MV, Pickering L, Marciniak CM, et al. Wii Fit Balance Board Playing Improves Balance and Gait in Parkinson Disease. Pm r. 2013. Bieryla KA, Dold NM. Feasibility of Wii Fit training to improve clinical measures of balance in older adults. Clin Interv Aging. 2013;8:775-81. 256460 TE06213
url	http://hdl.handle.net/10818/9231
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language	spa
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dc.publisher.none.fl_str_mv	Universidad de La Sabana
dc.publisher.program.none.fl_str_mv	Especialización en Medicina Física y Rehabilitación
dc.publisher.department.none.fl_str_mv	Facultad de Medicina
publisher.none.fl_str_mv	Universidad de La Sabana
dc.source.none.fl_str_mv	Universidad de La Sabana Intellectum Repositorio Universidad de La Sabana
institution	Universidad de la Sabana
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spelling	Díaz Quijano, Diana MarcelaHoyos Gutiérrez, Juan BernardoEspecialista en Medicina Física y Rehabilitación2013-12-12T20:47:40Z2013-12-12T20:47:40Z20132013-12-12Seelen HA, Potten YJ, Huson A, Spaans F, Reulen JP. Impaired balance control in paraplegic subjects. J Electromyogr Kinesiol.Llorens R, Colomer-Font C, Alcaniz M, Noe-Sebastian E. BioTrak virtual reality system: effectiveness and satisfaction analysis for balance rehabilitation in patients with brain injury. Neurologia: 2011 Sociedad Espanola de Neurologia. Published by Elsevier Espana; 2012Behrman AL, Harkema SJ. Physical rehabilitation as an agent for recovery after spinal cord injury. Phys Med Rehabil Clin N Am. 18. United States2007. p. 183-202, vPenasco-Martin B, de los Reyes-Guzman A, Gil-Agudo A, Bernal-Sahun A, Perez-Aguilar B, de la Pena-Gonzalez AI. [Application of virtual reality in the motor aspects of neurorehabilitation]. Rev Neurol. 51. Spain2010. p. 481-8.Betker AL, Desai A, Nett C, Kapadia N, Szturm T. 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Lesionados medulares: tratamiento global e investigación. Barcelona: Editorial JIMS. 1985Gandolfo Conceição MI, Silva Gimenes LD. La utilización de la biorretroalimentación en el aprendizaje motor de personas con lesión medular. Avances en psicología latinoamericana, ISSN 1794-4724, Vol 27, Nº 1, 2009, págs 177-191. 2009Fehlings MG, Wilson JR, Dvorak MF, Vaccaro A, Fisher CG. The challenges of managing spine and spinal cord injuries: an evolving consensus and opportunities for change. Spine (Phila Pa 1976). 35. United States2010. p. S161- 5Jorgensen V, Elfving B, Opheim A. Assessment of unsupported sitting in patients with spinal cord injury. Spinal Cord. 49. England2011. p. 838-43Taube W, Gruber M, Gollhofer A. Spinal and supraspinal adaptations associated with balance training and their functional relevance. Acta Physiol (Oxf). 193. England2008. p. 101-16.Bove M, Trompetto C, Abbruzzese G, Schieppati M. The posture-related interaction between Ia-afferent and descending input on the spinal reflex excitability in humans. Neurosci Lett. 397. Ireland2006. p. 301-6.Jacobs JV, Horak FB. Cortical control of postural responses. J Neural Transm. 2007;114(10):1339-48.Seelen HA, Potten YJ, Drukker J, Reulen JP, Pons C. Development of new muscle synergies in postural control in spinal cord injured subjects. J Electromyogr Kinesiol. 8. England1998. p. 23-34.Field-Fote EC, Ray SS. Seated reach distance and trunk excursion accurately reflect dynamic postural control in individuals with motor-incomplete spinal cord injury. Spinal Cord. 48. England2010. p. 745-9Harkema SJ, Schmidt-Read M, Lorenz DJ, Edgerton VR, Behrman AL. Balance and ambulation improvements in individuals with chronic incomplete spinal cord injury using locomotor training-based rehabilitation. Arch Phys Med Rehabil. 93. United States: 2012 American Congress of Rehabilitation Medicine. Published by Elsevier Inc; 2012. p. 1508-17.Sayenko DG, Alekhina MI, Masani K, Vette AH, Obata H, Popovic MR, et al. Positive effect of balance training with visual feedback on standing balance abilities in people with incomplete spinal cord injury. Spinal Cord. 48. England2010. p. 886-93Bjerkefors A, Carpenter MG, Thorstensson A. Dynamic trunk stability is improved in paraplegics following kayak ergometer training. Scand J Med Sci Sports. 17. Denmark2007. p. 672-9.Barclay-Goddard R, Stevenson T, Poluha W, Moffatt ME, Taback SP. Force platform feedback for standing balance training after stroke. Cochrane Database Syst Rev. 2004(4):CD004129.Mulder T, Hulstyn W. Sensory feedback therapy and theoretical knowledge of motor control and learning. Am J Phys Med. 1984;63(5):226-44.Bayón M, Martínez J. Rehabilitación del ictus mediante realidad virtual. Rehabilitación. 2010;44(3):256-60Holden MK. Virtual environments for motor rehabilitation: review. Cyberpsychol Behav. 2005;8(3):187-211; discussion 2-9.Laver K, George S, Thomas S, Deutsch JE, Crotty M. Cochrane review: virtual reality for stroke rehabilitation. Eur J Phys Rehabil Med. 48. Italy2012. p. 523-30.Laver K, George S, Thomas S, Deutsch JE, Crotty M. Cochrane review: virtual reality for stroke rehabilitation. Eur J Phys Rehabil Med. 48. Italy2012. p. 523-30.Saposnik G, Levin M. Virtual reality in stroke rehabilitation: a meta-analysis and implications for clinicians. Stroke. 42. United States2011. p. 1380-6Adamovich SV, Fluet GG, Tunik E, Merians AS. Sensorimotor training in virtual reality: a review. NeuroRehabilitation. 25. Netherlands2009. p. 29-44.Meldrum D, Glennon A, Herdman S, Murray D, McConn-Walsh R. Virtual reality rehabilitation of balance: assessment of the usability of the Nintendo Wii((R)) Fit Plus. Disabil Rehabil Assist Technol. 2012;7(3):205-10.Duncan PW, Weiner DK, Chandler J, Studenski S. Functional reach: a new clinical measure of balance. J Gerontol. 1990;45(6):M192-7.Datta S, Lorenz DJ, Harkema SJ. Dynamic longitudinal evaluation of the utility of the Berg Balance Scale in individuals with motor incomplete spinal cord injury. Arch Phys Med Rehabil. 93. United States: 2012 American Congress of Rehabilitation Medicine. Published by Elsevier Inc; 2012. p. 1565-73.Chen CL, Yeung KT, Bih LI, Wang CH, Chen MI, Chien JC. The relationship between sitting stability and functional performance in patients with paraplegia. Arch Phys Med Rehabil. 84. United States2003. p. 1276-81Boswell-Ruys CL, Harvey LA, Barker JJ, Ben M, Middleton JW, Lord SR. Training unsupported sitting in people with chronic spinal cord injuries: a randomized controlled trial. Spinal Cord. 48. England2010. p. 138-43.Izquierdo M, Martinez-Ramirez A, Larrion JL, Irujo-Espinosa M, Gomez M. [Functional capacity evaluation in a clinical and ambulatory setting: new challenges of accelerometry to assessment balance and muscle power in aging population]. An Sist Sanit Navar. 2008;31(2):159-70.Holmes JD, Jenkins ME, Johnson AM, Hunt MA, Clark RA. Validity of the Nintendo Wii(R) balance board for the assessment of standing balance in Parkinson's disease. Clin Rehabil2012Kamen G, Patten C, Du CD, Sison S. An accelerometry-based system for the assessment of balance and postural sway. Gerontology. 44. Switzerland1998. p. 40-5Mancini M, Salarian A, Carlson-Kuhta P, Zampieri C, King L, Chiari L, et al. ISway: a sensitive, valid and reliable measure of postural control. J Neuroeng Rehabil. 9. England2012. p. 59.Seimetz C, Tan D, Katayama R, Lockhart T. A comparison between methods of measuring postrual stability: force plates versus accelerometers. Biomed Sci Instrum. 2012;48:386-92.Whitney SL, Roche JL, Marchetti GF, Lin CC, Steed DP, Furman GR, et al. A comparison of accelerometry and center of pressure measures during computerized dynamic posturography: a measure of balance. Gait Posture. 33. England: 2011 Elsevier B.V; 2011. p. 594-9.Moe-Nilssen R. Test-retest reliability of trunk accelerometry during standing and walking. Arch Phys Med Rehabil. 79. United States1998. p. 1377-85Mancini M, Carlson-Kuhta P, Zampieri C, Nutt JG, Chiari L, Horak FB. Postural sway as a marker of progression in Parkinson's disease: a pilot longitudinal study. Gait Posture. 36. England: 2012 Elsevier B.V; 2012. p. 471-6.Tribunal Internacional de Núremberg. CÓDIGO DE NÚREMBERG. 1947.Departamento de Salud EyBdlEU. Principios éticos y pautas para la protección de los seres humanos en la investigación. 1979Mombarg R, Jelsma D, Hartman E. Effect of Wii-intervention on balance of children with poor motor performance. Res Dev Disabil. 2013;34(9):2996-3003.Mhatre PV, Vilares I, Stibb SM, Albert MV, Pickering L, Marciniak CM, et al. Wii Fit Balance Board Playing Improves Balance and Gait in Parkinson Disease. Pm r. 2013.Bieryla KA, Dold NM. Feasibility of Wii Fit training to improve clinical measures of balance in older adults. Clin Interv Aging. 2013;8:775-81.http://hdl.handle.net/10818/9231256460TE0621386 Páginas.¿Cuál es el efecto de la rehabilitación con realidad virtual, modalidad Nintendo Wii®, aplicada durante 6 semanas a un grupo de pacientes con lesión medular establecida, previamente sometidos a rehabilitación interdisciplinaria durante un periodo mínimo de tres meses con programa PIR® (programa interdisciplinario de rehabilitación) en la Clínica Universidad de La Sabana? Determinar el efecto de la rehabilitación postural con realidad virtual, Nintendo Wii fit balance board aplicada durante 6 semanas en un grupo de pacientes con lesión medular instaurada y sometidos previamente a rehabilitaciónspaUniversidad de La SabanaEspecialización en Medicina Física y RehabilitaciónFacultad de MedicinaUniversidad de La SabanaIntellectum Repositorio Universidad de La SabanaJuegos de video -- Lesiones personales -- ColombiaVideo juegos -- Daños corporales -- Terapias alternativas -- ColombiaTerapia recreativa -- Video juegos -- ColombiaEfecto de un programa de rehabilitación virtual con Nintendo Wii Balance Board® en un grupo de pacientes de lesión medular establecida en la Clínica Universidad de La Sabana: Un estudio pilotobachelorThesisTesis de especializaciónpublishedVersionhttp://purl.org/coar/version/c_970fb48d4fbd8a85http://purl.org/coar/resource_type/c_7a1fhttp://purl.org/coar/access_right/c_abf2LICENSElicense.txtlicense.txttext/plain; charset=utf-8498https://intellectum.unisabana.edu.co/bitstream/10818/9231/2/license.txtf52a2cfd4df262e08e9b300d62c85cabMD52Juan Bernardo Hoyos Gutiérrez (Carta).pdfJuan Bernardo Hoyos Gutiérrez (Carta).pdfapplication/pdf240706https://intellectum.unisabana.edu.co/bitstream/10818/9231/4/Juan%20Bernardo%20Hoyos%20Guti%c3%a9rrez%20%28Carta%29.pdfeff04afeceb058e7d89d124a3e3ecbe0MD54ORIGINALHoyos Gutiérrez, Juan Bernardo (TESIS).pdfHoyos Gutiérrez, Juan Bernardo (TESIS).pdfVer documento en PDFapplication/pdf1388919https://intellectum.unisabana.edu.co/bitstream/10818/9231/1/Hoyos%20Guti%c3%a9rrez%2c%20Juan%20Bernardo%20%20%28TESIS%29.pdf7eb2a50b98816368d0a6d3179442e37bMD51TEXTHoyos Gutiérrez, Juan Bernardo (TESIS).pdf.txtHoyos Gutiérrez, Juan Bernardo (TESIS).pdf.txtExtracted Texttext/plain86https://intellectum.unisabana.edu.co/bitstream/10818/9231/3/Hoyos%20Guti%c3%a9rrez%2c%20Juan%20Bernardo%20%20%28TESIS%29.pdf.txte6cc0aadcc647aee77937501ab3b5c08MD5310818/9231oai:intellectum.unisabana.edu.co:10818/92312019-07-25 17:48:41.606Intellectum Universidad de la Sabanacontactointellectum@unisabana.edu.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

Efecto de un programa de rehabilitación virtual con Nintendo Wii Balance Board® en un grupo de pacientes de lesión medular establecida en la Clínica Universidad de La Sabana: Un estudio piloto

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