Cortical plasticity and neurological physical therapy techniques in neuroimage optic

Authors

  • Gabriela Barato Fisioterapeuta, Especialista em Fisioterapia Neurofuncional, pela Universidade Gama Filho – UGF, Rio Grande do Sul.
  • Tatiana Fernandes Fisioterapeuta, Especialista em Fisioterapia Neurofuncional, pela Universidade Gama Filho – UGF, Rio Grande do Sul.
  • Mariana Pacheco Fisioterapeuta, Colaboradora do Instituto Brasileiro de Biociências Neurais – IBBN, Rio de Janeiro, RJ
  • Victor Hugo Bastos Fisioterapeuta, Doutorando em Saúde Mental, Instituto de Psiquiatria (IPUB) da Universidade Federal do Rio de Janeiro - UFRJ, Professor Pesquisador do Centro Universitário Metodista do Rio, Professor-pesquisador do Instituto Brasileiro de Biociências Neurais (IBBN-RJ), Professor da Pós-Graduação em Fisioterapia Neurofuncional (UGF-RS), Rio de Janeiro, RJ
  • Sergio Machado Educador Físico, Doutorando em Saúde Mental (IPUB, UFRJ), Professor-pesquisador do Instituto Brasileiro de Biociências Neurais (IBBN-RJ), Rio de Janeiro, RJ.
  • Mariana Pimentel de Mello Fisioterapeuta, Aluna do Programa de Iniciação Científica do Serviço de Neurologia – UFF, Niterói, RJ.
  • Júlio Guilherme Silva Fisioterapeuta, Doutorando em Saúde Mental (IPUB/UFRJ), Coordenador da Pós-Graduação em Fisioterapia Neurofuncional (UGF-RS), Professor-pesquisador do Instituto Brasileiro de Biociências Neurais (IBBN-RJ), Rio de Janeiro, RJ
  • Marco Orsini Graduando em Medicina, Doutorando em Neurologia (Universidade Federal Fluminense - UFF), Professor Titular do Programa de Iniciação Científica da Escola Superior de Ensino Helena Antipoff (ESEHA), Niterói, RJ.

DOI:

https://doi.org/10.34024/rnc.2009.v17.8527

Keywords:

Stroke, Upper Extremity, Neuronal Plasticity, Magnetic Resonance

Abstract

The stroke generates an impact in the body’s structure and function, affecting the individual’s functional independence. New conceptual approaches has allowed a new view of the nervous system as a dynamic organ, constituting a functional unit with the body; the environment and plastic characteristics, producing structural modifications derive from functional exercises in different contexts. Therefore, the objective of this study was to check the dynamic of the central nervous system reorganization after the application of neurological physical therapy techniques, particularly, Constraint Induced Movement Therapy, Action Observation and Mental Practice, bounded for functional recovery of subjects with hemiparetic upper limb post-stroke through studies that used images from functional magnetic resonance imaging. According to selected studies, the results related to brain activation appeared to be inconsistent. Therefore, it appears that the brain finds different routes for its reorganization. This fact should be possibly the different injured areas and also due to different characteristics of each rehabilitation techniques used in the studies.

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References

Cicerone KD, Dahlberg C, Malec JF, Langenbahn DM, Felicetti T, Kneipp S, et al. Evidence-based cognitive rehabilitation: updated review of the literature from 1998 through 2002. Arch Phys Med Rehabil 2005;86:1681-92.

Stewart DG. Stroke rehabilitation. Epidemiologic aspects and acute management. Arch Phys Med Rehabil 1999; 80:S4-7.

Alexandrova ML, Bochev PG. Oxidative stress during the chronic phase after stroke. Free Radic Biol Med 2005; 39:297-316.

Haase VG, Lacerda SS. Neuroplasticidade, variação interindividual e recuperação funcional em neuropsicologia. Tem Psicol SBP 2003;11:28-42.

Cauraugh JH, Summers JJ. Neural plasticity and bilateral movements: A rehabilitation approach for chronic stroke. Prog Neurobiol 2005;75:309-20.

Szaflarski JP, Page SJ, Kissela BM, Lee J, Levine P, Strakowski SM. Cortical Reorganization Following Modified Constraint-Induced Movement Therepy: A Study of 4 Patients With Chronic Stroke. Arch Phys Med Rehabil 2006; 87:1052-8.

Mark VW, Taub E, Morris DM. Neuroplasticity and constraintinduced movement therapy. Eura Medicophys 2006;42:269-84.

Taub E, Uswatte G, Mark VW, Morris DM. The learned nonuse phenomenon: implications for rehabilitation. Eura Medicophys 2006;42:241-56.

Morris DM, Taub E, Mark VW. Constraint-induced movement therapy: characterizing the intervention protocol. Eura Medicophys 2006;42:257-68.

Fabbri-Destro M, Rizzolatti G. Mirror neurons and mirror systems in monkeys and humans. Physiology (Bethesda) 2008;23:171-9.

Rizzolatti G, Sinigaglia C. Mirror neurons and motor intentionality. Funct Neurol 2007;22:205-10.

Decety J, Grèzes J. Neural mechanisms subserving the perception of human actions. Trends Cogn Sci 1999;3: 172-8.

Lotze M, Cohen LG. Volition and imagery in neurorehabilitation. Cogn Behav Neurol 2006;19:135-40.

Jackson PL, Doyon J, Richards CL, Malouin F. Potential role of mental practice using motor imagery in neurological rehabilitation. Arch Phys Med Rehabil 2001;82:1133-41.

Deiber MP, Ibanez V, Honda M, Sadato N, Ramans R, Hallett M. Cerebral processes related to visuomotor imagery and generation of finger movements studied with positron emission tomography. NeuroImage 1998;7: 73-85.

Ruby P, Decety J. Effect of subjective perspective taking during simulation of action: a PET investigation of agency. Nat Neurosci 2001;4:546-50.

Gómez-Fernández L. Plasticidad cortical y restauración de funciones neurológicas: una actualización sobre el tema. RevNeurol 2000;31:749-56.

Rocca MA, Filippi M. Functional MRI to study brain plasticity in clinical neurology. Neurol Sci 2006;27:24-6.

Díaz-Arribas MJ, Pardo-Hérvas P, Tabares-Lavado M, RiosLago M, Maestú F. Plasticidad del sistema nervioso central y estratégias de tratamiento para la reprogramación sensoriomotora: comparaciónde dos casos de accidente cerebrovascular isquêmico en el territorio de la arteria cerebral media. Rev Neurol 2006;42:153-8.

Hodics T, Cohen LG, Cramer SC. Functional Imaging of Intervention Effects in Stroke Motor Rehabilitation. Arch Phys Med Rehabil 2006;87:S36-42.

Hidler J, Hodics T, Xu B, Dobkin B, Cohen LG. MR compatible force sensing system for real-time monitoring of wrist moments during fMRI testing. J Neurosci Met 2006;155:300-7.

Schaechter JD, Kraft E, Hilliard TS, Dijkhuizen RM, Benner T, Finklestein SP, et al. Motor recovery and cortical reorganization after constraint-induced movement therapy in stroke patients: a preliminary study. Neurorehabil Neural Repair 2002;16:326-38.

Hamzei F, Liepert J, Dettmers C, Weiller C, Rijntjes M. Two different reorganization patterns after rehabilitative therapy: an exploratory study with fMRI and TMS. Neuroimage 2006;31:710-20.

Butler AJ, Page SJ. Mental Practice with Motor Imagery: Evidence for Motor Recovery and Cortical Reorganization after Stroke. Arch Phys Med Rehabil 2006;87:S2-S11. ce imaging, electrophysiology, and behavioral testing in rats. J Neurosci 2008;28:1022-9.

Ertelt D, Small S, Solodkin A, Dettmers C, McNamara A, Binkofski F, et al. Action observation has a positive impact on rehabilitation of motor deficits after stroke. Neurolmage 2007;36:164-73.

Ward NS. Functional reorganization of the cerebral motor system after stroke. Curr Opin Neurol 2004;17:725-30.

Gerloff C, Bushara K, Sailer A, Wassermann E, Chen R, Waldvogel D, et al. Multimodal imaging of brain reorganization in motor areas of the contralesional hemisphere of well recovered patients after capsular stroke. Brain 2006;129:791-808.

Cheatwood JL, Emerick AJ, Kartje GL. Neuronal plasticity and functional recovery after ischemic stroke. Top Stroke Rehabil 2008;15:42-50.

Weber R, Ramos-Cabrer P, Justicia C, Wiedermann D, Strecker C, Sprenger C, et al. Early prediction of functional recovery after experimental stroke: functional magnetic resonan

Stinear CM, Barber PA, Coxon JP, Fleming MK, Byblow WD. Priming the motor system enhances the effects of upper limb therapy in chronic stroke. Brain 2008;131:1381-90.

Gauthier LV, Taub E, Perkins C, Ortmann M, Mark VW, Uswatte G. Remodeling the brain: plastic structural brain changes produced by different motor therapies after stroke. Stroke 2008;39:1520-5.

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Published

2009-12-31

How to Cite

Barato, G., Fernandes, T., Pacheco, M., Bastos, V. H., Machado, S., Mello, M. P. de, … Orsini, M. (2009). Cortical plasticity and neurological physical therapy techniques in neuroimage optic. Revista Neurociências, 17(4), 342–348. https://doi.org/10.34024/rnc.2009.v17.8527

Issue

Vol. 17 No. 4 (2009)

Section

Revisão de Literatura
##plugins.generic.dates.received## 2019-02-15
##plugins.generic.dates.published## 2009-12-31

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