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Original Articles

Neural Reorganization Accompanying Upper Limb Motor Rehabilitation from Stroke with Virtual Reality-Based Gesture Therapy

, , , , , , & show all
Pages 197-209 | Published online: 05 Jan 2015

REFERENCES

  • Lloyd-Jones D, Adams RJ, Brown TM, et al (on behalf of the American Heart Association Statistics Committee Wylie-Rossett, and Stroke Statistics Subcommittee). Heart disease and stroke statistics - 201 0 update. A report from the American Heart Association. Circulation. 2010;121:e46–e215.
  • Langhorne P, Coupar F, Pollock A. Motor recovery after stroke: a systematic review. Lancet Neurol. 2009;8:741–754.
  • Lo AC, Guarino PD, Richards LG, etal. Robot-assisted therapy for long term upper-limb impairment after stroke. N Engl J Med. 2010;362(19):1772–1783.
  • August K, Bleichenbacher D, Adamovich S. Virtual reality physical therapy: a telerehabilitation tool for hand and finger movement exercise monitoring and motor skills analysis. In: Bioengineering Conference, 2005. Proceedings of the IEEE 31st Annual Northeast; April 2–3, 2005; pp. 73–74. doi: 10.1109/NEBC.2005.1431931
  • Sucar LE, Luis R, Leder R, Hernandez J, Sanchez I. Gesture therapy: a vision-based system for upper extremity stroke rehabilitation. In: 32nd Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBS); August 31-September 4, 2010; pp. 3690–3693.
  • Krakauer JW, Carmichael ST, Corbett D, Wittenberg GF. Getting neurorehabilitation right: What can be learned from animal models? Neurorehabil Neural Repair 2012;26(9):923–931.
  • Liepert J, Bauder H, Miltner WHR, Taub E, Weiller C. Treatment-induced cortical reorganization after stroke in humans. Stroke. 2000;31:1210–1216.
  • Chen R, Cohen LG, Hallet M. Nervous system reorganization following injury. Neuroscience. 2002;111 (4):761–773.
  • Jang SH, Ahn SH, Lee J, Cho WV, Son MS. Cortical reorganization of sensori-motor function in a patient with cortical infarct. NeuroRehabilitation. 2010;26:163–166.
  • Jang SH, Hong JH, Ahn SH, Son MS, Cho WV. Motor function reorganization in a patient with brainstem lesion: DTT, fMRI and TMS study. NeuroRehabilitation. 2010;26:167–171.
  • Liepert J, Miltner WHR, Bauder H, et al. Motor cortex plasticity during constraint-induced movement therapy in stroke patients. Neurosci Lett. 1998;250:5–8.
  • Liepert J, Uhde I, Graf S., Leidner 0, Weiller C. Motor cortex plasticity during force-use therapy in stroke patients: a preliminary study. J Neurol. 2001;248:315–321.
  • Altenmüller E, Marco-Pallares J, Write TF, Schneider S. Neural reorganization underlies improvement in stroke-induced motor dysfunction by music-supported therapy. Ann N Y Acad Sci. 2009;1169:395–405.
  • Grefkes C, Fink GR. Reorganization of cerebral networks after stroke: new insights from neuroimaging with connectivity approaches. Brain. 2011;134:1264–1276.
  • Holden MK. Virtual environments for motor rehabilitation: review. CyberPsychol Behav. 2005;8(3):187–211.
  • Adamovich SV, Fluet GG, Tunik E, Merians AS. Sensorimotor training in virtual reality: a review. NeuroRehabil. 2009;25(1):29.
  • Sucar LE, Molina A, Leder R, Hernandez J, Sanchez I. Gesture therapy: a clinical evaluation. In: 3rd International Conference of the Institute for Computer Sciences, Social-Informatics and Telecommunications Engineering (ICST)on PervasiveComputing Technologies for Healthcare (Pervasive Health 2009). 2009:1–5. doi: 10.410B/ICST.PERVASIVEHEALTH2009.6090
  • Jang SH, You SH, Hallet M, et al. Cortical reorganization and associated functional motor recovery after virtual reality in patients with chronic stroke: an experimenter-blind preliminary study. Arch Phys Med Rehabil. 2005;86:2218–2223.
  • You SH, Jang SH, Kim YH, et al. Virtual reality-induced cortical reorganization and associated locomotor recovery in chronic stroke: an experimenter-blind randomized study. Stroke. 2005;36:1166–1171.
  • You SH, Jang SH, Kim YH, Kwon YH, Barrow I, Hallet M. Cortical reorganization induced by virtual reality therapy in a child with hemiparetic cerebral palsy. Develop Med Child Neurol. 2005;47:628–635.
  • Calautti C, Baron JC. Functional neuroimaging studies of motor recovery after stroke in adults. Stroke. 2003;34:1553–1566.
  • Buma FE, Linderman E, Ramsey NF, Kwakkel G. Functional neuroimaging studies of early upper limb recovery after stroke: a systematic review of the literature. Neurorehabil Neural Repair. 2010;24(7):589–608.
  • Avileés H, Luis R, Oropeza J, et al. Gesture therapy 2.0: adapting the rehabilitation therapy to the patient progress. In: Hommerson A, Lucas P, eds., Workshop on Probabilistic Problem Solving in Biomedicine in 13th Conference on Artificial Intelligence in Medicine (AIME'11). Bled, Slovenia; 2011: pp. 3–14. http://probiomed.cs.ru.nl/papers/aviles.pdf
  • Fugl-Meyer AR, Jääskö L, Leyman I, Olsson S, Steglind S. The post-stroke hemiplegic patient. 1. A method for evaluation of physical performance. Scand J Rehabil Med. 1975;7(1):13–31.
  • Demeurisse G, Demol O, Robaye E. Motor evaluation in vascular hemiplegia. Eur Neurol. 1980;19:382–389.
  • Statistical parametric mapping. http://www.fil.ion.ucl.ac.uk/spm/. Accessed February 25, 2013.
  • Small SL, Hlustik P, Noll DC, Genovese C, Solodkin A. Cerebellar hemispheric activation ipsilateral to the paretic hand correlates with functional recovery after stroke. Brain. 2002;125:1544–1557.
  • Tzourio-Mazoyer N, Landeau B, Papathanassiou D, et al. Automated anatomical labelling of activations in SPM using a macroscopic anatomical parcellation of the MNI MRI single-subject brain. Neurolmage. 2002;15:273–289.
  • Orihuela-Espina F, Sucar LE. Functional reorganization strategies associated to motor rehabilitation gesture therapy. Technical Report CCC-11-001. Coordinación de Ciencias Computacionales. Instituto Nacional de Astroffsíca, Öptica y Electrónica (INAOE); June 2011.
  • Leff DR, James DRC, Orihuela-Espina F., Yang GZ., Darzi AW.. The frontal cortex is activated during learning of endoscopic procedures (Ohuchida et al., Surgical Endoscopy, January 2009) [letter]. Surg Endosc. 2010;24:968–969.
  • James DRC, Orihuela-Espina F, Leff DR, et al. Cognitive burden estimation for visuomotor learning with fNIRS. In: Medical Image Computing and Computer-Assisted Intervention (MICCAI 2010)in Lecture Notes in Computer Science. 2010;6363:319-326. http://link.springer.com/chapter/10.1007%2F978-3-642-15711-0_40.
  • Feydy A, Carlier R, Roby-Brami A, et al. Longitudinal study of motor recovery after stroke: recruitment and focusing of brain activation. Stroke. 2002;33:1610–1617.
  • Calautti C, Leroy F, Guincestre JY, Baron JC. Dynamics of motor network overactivation after stratiocapsular stroke: a longitudinal pet study using a fixed-performance paradigm. Stroke. 2001;32:2534–2542.
  • Ward NS, Newton JM, Swayne OBC, et al. Motor system activation after subcortical stroke depends on corticospinal system integrity. Brain. 2006;129:809–819.
  • Nelles G, Spiekermann G, Jueptner M, et al. Evolution of functional reorganization in hemiplegic stroke: a serial positron emission tomographic activation study. Ann Neurol. 1999;46:901–909.
  • Nelles G, Jentzen W, Bockish A, Diener HC. Neural substrates of good and poor recovery after hemiplegic stroke: a serial PET study. J Neurol. 2011;258:2168–2175.

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