Reshaping the Cortical Connectivity Gradient by Long-Term Cognitive Training During Development / 神经科学通报·英文版

The organization of the brain follows a topological hierarchy that changes dynamically during development. However, it remains unknown whether and how cognitive training administered over multiple years during development can modify this hierarchical topology. By measuring the brain and behavior of school children who had carried out abacus-based mental calculation (AMC) training for five years (starting from 7 years to 12 years old) in pre-training and post-training, we revealed the reshaping effect of long-term AMC intervention during development on the brain hierarchical topology. We observed the development-induced emergence of the default network, AMC training-promoted shifting, and regional changes in cortical gradients. Moreover, the training-induced gradient changes were located in visual and somatomotor areas in association with the visuospatial/motor-imagery strategy. We found that gradient-based features can predict the math ability within groups. Our findings provide novel insights into the dynamic nature of network recruitment impacted by long-term cognitive training during development.

The ontogenetic model for CVA rehabilitation with transcranial stimulation

Currently, transcranial stimulation for CVA treatment is based on the interhemispheric rivalry model. This model has proven to have many anomalies, necessitating a new paradigm. Spontaneous recovery from post-CVA hemiplegia has an ontogenetic pattern. We reanalyzed the 2008 longitudinal London study and found that cortical disinhibition is the mechanism for ontogenetic CVA recovery. We propose that transcranial stimulation with 10 Hz rTMS or anode electrical microstimulation can produce CVA recovery similar to spontaneous recovery. (Acta Med Colomb 2022; 47. DOI:https://doi.org/10.36104/amc.2022.2466).

Actualmente la aplicación de la estimulación transcraneal para el tratamiento del ACV se realiza con base en el modelo de rivalidad interhemisférica. Este modelo ha mostrado muchas anomalías que hacen necesario un nuevo paradigma. La recuperación espontánea de la hemiplejia post-ACV tiene patrón ontogénico. Reanalizamos el estudio longitudinal de Londres 2008 y encontramos que su propuesta corresponde al mecanismo de recuperación ontogénica del ACV. Planteamos que la estimulación transcraneal, utilizando EMTr a 10 Hz o microestimulación eléctrica anódica, podría recuperar el ACV de manera similar a la recuperación espontánea. (Acta Med Colomb 2022; 47. DOI:https://doi.org/10.36104/amc.2022.2466).

Stroke improvement with magnetic stimulation recapitulates ontogeny / Mejoría del ACV con estimulación magnética recapitula la ontogenia

Abstract A patient with chronic brainstem CVA sequelae received one cycle of magnetic stimulation to treat her dysphagia and serendipitously obtained a minimal improvement in her axial movement. Two additional cycles gave her improved postural control and then distal movement, preceded by a display of ipsilateral and contralateral motor evoked potentials, respectively. Magnetic stimulation at 10 Hertz produces cortical disinhibition and reopens the critical neurodevelop ment periods. The ontogenic pattern of hemiplegia recovery in this patient may be explained by an increased and rejuvenated brain plasticity due to critical period reopening through cortical disinhibition. (Acta Med Colomb 2022; 47. DOI:https://doi.org/10.36104/amc.2022.2253).

Resumen Una paciente con secuelas crónicas de un ACV del tallo cerebral recibió un ciclo de estimulación magnética para el manejo de la disfagia y, por serendipia obtuvo mejoría leve del movimiento axial. Dos ciclos adicionales le permitieron mejoría del control postural y luego la aparición de movimiento distal, precedidos por la visualización de los potenciales evocados motores ipsilateral y contralateral, respectivamente. La estimulación magnética a 10 Hertz produce desinhibición cortical y reabre los periodos críticos del neurodesarrollo. Es posible, que el patrón ontogénico de recuperación de la hemiplejía en esta paciente se explique por el incremento y rejuvenecimiento de la plasticidad cerebral debido a la reapertura de los periodos críticos, por medio de la desinhibición cortical. (Acta Med Colomb 2022; 47. DOI:https://doi.org/10.36104/amc.2022.2253).

Role of an enriched environment in ameliorating early life stress-induced changes in structure and functions of hippocampus and amygdala in rats

Objectives: This study aimed to understand whether an enriched environment (EE) in adulthood benefits in mitigating the early life stress-induced changes in the structure and functions of the hippocampus and amygdala. Materials and Methods: Male Wistar rats were exposed daily for 6 h to early maternal separation and isolation (MS) stress from postnatal days (PND) 4–14 and later at PND 60–70 days subjected to EE, while, the normal control (NC) rats were not subjected to stress but reared with the mother under standard housing conditions. The effects of MS and EE on adulthood behaviour were not subjected to stress but assessed by measuring the ambulatory, repetitive and anxiety-like behaviour. The study has also done the plasma corticosterone concentrations. The dendritic remodelling in the amygdala and hippocampus was assessed using the Golgi cox staining approach. Finally, the present study compared the reactive oxygen species-induced lipid peroxidation and total antioxidant capacity in MS rats as an indirect measure of oxidative stress to study the impact of MS stress on the limbic circuit and peripheral organs. Results: MS rats showed increased anxiety and lower plasma corticosterone levels. The pyramidal neurons’ dendritic plasticity displayed a different pattern, with shrinkage in the CA1 hippocampal neurons and hypertrophy in the amygdala’s primary neurons. Variations in antioxidant activity and peroxidation observed in NC to MS across tissues indicate the occurrence and management of oxidative stress in MS. The 10 days of EE in young adulthood helped to reduce MS stress-induced structural abnormalities in hippocampal and amygdala pyramidal neurons, as well as anxiety and plasma corticosterone levels. Conclusion: These findings together indicate that exposure to adverse experiences may cause harmful effects on brain plasticity and behaviour in young adulthood. Exposure to EE may be beneficial in reducing the early life stress-induced pathophysiology later in life.

Efficacy of vision therapy in impaired stereoscopic depth with intermittent exotropia (true divergence excess) with unilateral amblyopia: a case report

Divergence excess (DE) can be described clinically as exotropia at far greater than the near deviation by at least 10 prism dioptres (PD). We are reporting a rare case of 25-year-old female visited in the eye department for a routine eye check-up with a history of decreased vision in one eye. On examination, it was detected as a case of unilateral amblyopia with intermittent exotropia of true divergence excess with high accommodative-convergence over accommodation (AC/A) ratio. The patient was asymptomatic from exo-deviation due to the presence of binocular vision and good fusional reserve. The patient was started on active conventional vision therapy along with occlusion therapy. Post 16 weeks of constant therapy, a vision assessment with complete squint assessment along with binocular vision tests were performed. The result interprets to support the use of active conventional vision therapy as an integral part of the clinical treatment of amblyopia and intermittent exotropia. The rate of recovery of several monocular functions monitored during the vision therapy period provides the evidence of neural plasticity at multiple sites in the visual pathway in this adult amblyope. Therefore, if an ordered plan is being followed for the management of the patient of unilateral amblyopia and divergence excess, it can yield long-lasting improvement in visual acuity and binocular functions of any age.

Brain-computer Interface and Comprehensive Training for Stroke: A Resting State Functional Magnetic Resonance Imaging Study / 中国康复理论与实践

Objective:To investigate the topological alterations in brain functional networks following comprehensive treatment including brain-computer interface (BCI) training in subacute stroke subjects. Methods:From January, 2018 to June, 2019, 14 subacute stroke patients with moderate to severe upper limbs paralysis accepted routine physical therapy, occupational therapy and BCI training based on motor imagery, for four weeks. They were assessed with Fugl-Meyer Assessment-Upper Extremities (FMA-UE), Action Research Arm Test (ARAT) and Wolf Motor Function Test (WMFT) before and after treatment, while the functional connectivity (FC) was investigated with resting state functional magnetic resonance imaging. Results:The scores of FMA-UE, ARAT and WMFT increased after treatment (|t| > 5.298, Z = -3.297, P < 0.01). The FC also increased across the whole brain, including temporal, parietal, occipital lobes and subcortical regions. The FC between left piriform cortex of parietal lobule (BA5L) and right medial surface of temporal lobe (BA48R), as well as those between left precentral gyrus (BA4L) and right anterior transverse temporal gyrus (BA41R) (r > 0.416, P < 0.05). Conclusion:Comprehensive rehabilitation including BCI training may promote recovery of motor function and activities of FC in brain in subacute stroke patients.

Research progresses of neonatal cerebral network reorganization following hypoxic ischemic injury / 中国医学影像技术

Hypoxic ischemia (HI) is a fatal cause of neonatal encephalopathy and death. The developing brain can adjust the structures and function of brain according to different states due to neural plasticity. Understanding the pathophysiological process and cerebral network reorganization of neural damage after HI is very important for early diagnosis and intervention of disease. The research progresses of mechanism of neonatal cerebral network reorganization following HI were reviewed in this article.

Auditory training in autism spectrum disorder: a case report / Treinamento auditivo no transtorno do espectro autista: relato de caso

ABSTRACT This study aimed to measure the effects of a Computer-based Auditory Training Program (CBATP) on an adolescent diagnosed with Autism Spectrum Disorder (ASD) and Central Auditory Processing Disorder (CAPD). This is the case report of a male, 14-year-old adolescent diagnosed with ASD. The individual was submitted to basic audiological evaluation, central auditory processing assessment and hearing electrophysiology (EP), pre- and post-therapeutic intervention. Central auditory processing (CAP) was assessed by means of the following instruments: Time-compressed Speech Test (TCST), Random Gap Detection Test (RGDT), Staggered Spondaic Word Test (SSWT), Frequency (Pitch) Pattern Sequence Test (FPST), and Duration Pattern Test (DPT). The P300 component of the Event-related Potential (ERP) was used in the hearing EP. Pre-intervention assessment of CAP showed changes in the auditory skills of closure, figure-ground and temporal ordering, but normal temporal resolution ability. Post-intervention evaluation of CAP showed improvement in all previously mentioned auditory skills, except for the figure-ground ability, which remained unchanged. Regarding the findings of the hearing EP, a decrease in the latency of the P300 component was observed pre- and post-intervention. This study demonstrated that the use of a CBATP resulted in improvement in the hearing abilities assessed in an adolescent diagnosed with ASD.

RESUMO O objetivo deste estudo foi mensurar o efeito do treinamento auditivo computadorizado em um adolescente diagnosticado com Transtorno do Espectro Autista e Transtorno do Processamento Auditivo. Participou do estudo um adolescente de 14 anos, do sexo masculino, diagnosticado com Transtorno do Espectro Autista. O sujeito foi submetido à avaliação audiológica básica, avaliação do processamento auditivo central e avaliação eletrofisiológica da audição pré e pós-intervenção. A avaliação do processamento auditivo foi composta do Teste de Fala Comprimida (FC), Randon Gap Detection Test (RGDT), Staggered Spondaic Words (SSW), Teste de Padrão de Frequência (TPF) e Teste de Padrão de Duração (TPD). Na avaliação eletrofisiológica, utilizou-se o Potencial Evocado Auditivo Cognitivo (P300). Na avaliação do processamento auditivo central pré-intervenção terapêutica, observou-se alteração nas habilidades de fechamento auditivo, figura-fundo e ordenação temporal. Na habilidade auditiva de resolução temporal, o sujeito da pesquisa demonstrou desempenho dentro dos padrões de normalidade. Na realização do processamento auditivo central, foi possível observar melhora nos resultados de todas as habilidades auditivas citadas anteriormente, exceto na habilidade de figura-fundo, que permaneceu alterada. Quantos aos achados da avaliação eletrofisiológica da audição, verificou-se diminuição da latência do componente P300 na comparação dos resultados pré e pós-treinamento auditivo. Este estudo demonstrou que a utilização de treinamento auditivo trouxe como efeito uma melhora das habilidades auditivas avaliadas de um adolescente diagnosticado com Transtorno do Espectro Autista.

Advance in Exercise and Related Mechanisms for Parkinson's Disease (review) / 中国康复理论与实践

Parkinson's disease is a common degenerative disease of central nervous system. Exercise for Parkinson's disease includes Taiji Quan, treadmill, dance and balance training, etc. Taiji Quan exercise is mainly for balance function, and treadmill training for gait obstacles. Dance can improve not only balance and gait, but also cognition and emotion. The possible molecular mechanism may involve to adjust the content of dopaminergic neurons in the nigrostatin, increase the content of non-dopaminergic transmitters, increase brain-derived neurotrophic factors, promote the plasticity of nerve cells, reduce oxidative stress, enhance mitochondrial activity, and activate the immune system, etc., to slow the degeneration of dopaminergic neurons and improve the symptoms of Parkinson's disease.

Advance in Neural Plasticity of Cerebral Motor Cortex for Upper-limb Amputee (review) / 中国康复理论与实践

Nerve conduction block, proprioceptive loss and phantom limb pain after amputation may result in brain plasticity. In addition, the mirror neuron system of amputees plays an important role in their learning ability. However, there are few studies on adaptability of the motor cortex in upper limb amputees, and the central mechanism of motor control and learning of the residual limb or prosthesis needs more studies.

Perineuronal nets-a double-edged sword regulating neuropsychiatric disorders / 中国药理学通报

Perineuronal nets (PNNs) are unique extracellular matrix (ECM) structures surrounding parvalbumin (PV) positive intemeurons in the central nervous system (CNS). The intact structure of PNNs is critical to the function of CNS. PNNs regulate the function of GABA neurons, inhibit the damage of neurons induced by reactive oxygen species, and also participate in the regulation of neuroplasticity and the development of central nervous system. They will change in quantity and quality after mental disorders, aging, memory and drug abuse. Here the focus is on how the PNNs protect interneuron and control plasticity , and on the role of PNNs in memory in normal aging, Alzheimer's disease and drug addiction, and the association with altered PNNs formation. Understanding the molecular mechanism on PNNs would offer insights into new treatments of relevant diseases.

Advance of Enriched Environment in Neural Plasticity post Hypoxic-ischemic Brain Damage (review) / 中国康复理论与实践

@#The enriched environment is an artificial environment for animal models of rodentia. In the enriched environment, model animals may improve synaptic plasticity, inhibit apoptisis and regulate autophage after hypoxic-ischemic brain damage, that promote the recovery.

The Persisted Effects of Low-Frequency Repetitive Transcranial Magnetic Stimulation to Augment Task-Specific Induced Hand Recovery Following Subacute Stroke: Extended Study

OBJECTIVE: To examine the long-term effects of the low-frequency repetitive transcranial magnetic stimulation (LFrTMS) combined with task-specific training on paretic hand function following subacute stroke. METHODS: Sixteen participants were randomly selected and grouped into two: the experimental group (real LFrTMS) and the control group (sham LF-rTMS). All the 16 participants were then taken through a 1-hour taskspecific training of the paretic hand. The corticospinal excitability (motor evoke potential [MEP] amplitude) of the non-lesioned hemisphere, and the paretic hand performance (Wolf Motor Function Test total movement time [WMFT-TMT]) were evaluated at baseline, after the LF-rTMS, immediately after task-specific training, 1 and 2 weeks after the training. RESULTS: Groups comparisons showed a significant difference in the MEP after LF-rTMS and after the training. Compared to the baseline, the MEP of the experimental group significantly decreased after LF-rTMS and after the training and that effect was maintained for 2 weeks. Group comparisons showed significant difference in WMFT-TMT after the training. Only in the experimental group, the WMFT-TMT of the can lifting item significantly reduced compared to the baseline and the effect was sustained for 2 weeks. CONCLUSION: The results of this study established that the improvement in paretic hand after task-specific training was enhanced by LF-rTMS and it persisted for at least 2 weeks.

Research Progress on mechanism of ERK signaling pathway in drug addiction / 中国药理学通报

Drug addiction is a chronic relapsing brain disease. Repeated drug exposure can cause neuroadaptations in major brain circuitries,leading to compulsive drug consumption behav-ior and relapse after abstinence.Many studies have found that intercellular signaling cascades mediated central nervous system remodeling in the rewarding circuitry and addiction associated neuroplasticity of learning and memory are important molecular mechanism of drug addiction.Studies show that extracellular sig-nal-regulated kinase (ERK)is associated with drug-mediated psychomotor activity,rewarding properties and relapse of drug seeking behaviors.Therefore,this article has reviewed the role of ERK signaling pathway in drug addiction.Research on the role of ERK signaling pathway in drug addiction will provide im-portant theoretical foundation for in-depth understanding of the molecular mechanism of drug addiction and shine a light on new molecular targets and treatment strategies for drug addiction.

A wearable system for adaptation to left–right reversed audition tested in combination with magnetoencephalography

Exposure of humans to unusual spaces is effective to observe the adaptive strategy for an environment. Though adaptation to such spaces has been typically tested with vision, little has been examined about adaptation to left–right reversed audition, partially due to the apparatus for adaptation. Thus, it is unclear if the adaptive effects reach early auditory processing. Here, we constructed a left–right reversed stereophonic system using only wearable devices and asked two participants to wear it for 4 weeks. Every week, the magnetoencephalographic responses were measured under the selective reaction time task, where they immediately distinguished between sounds delivered to either the left or the right ear with the index finger on the compatible or incompatible side. The constructed system showed high performance in sound localization and achieved gradual reduction of a feeling of strangeness. The N1m intensities for the response-compatible sounds tended to be larger than those for the response-incompatible sounds until the third week but decreased on the fourth week, which correlated with the initially shorter and longer reaction times for the compatible and incompatible conditions, respectively. In the second week, disruption of the auditory-motor connectivity was observed with the largest N1m intensities and the longest reaction times, irrespective of compatibility. In conclusion, we successfully produced a high-quality space of left–right reversed audition using our system. The results suggest that a 4-week exposure to the reversed audition causes optimization of the auditory-motor coordination according to the new rule, which eventually results in the modulation of early auditory processing.

Bilateral arm training and cortical reorganization in cerebral infarction: A functional MRI study / 中华物理医学与康复杂志

Objective To study the effect of bilateral arm training on cortical reorganization in cerebral infarction patients using blood oxygen level-dependent functional MRI (BOLD-fMRI).Methods Fourteen cerebral infarction subjects with moderate to severe upper limb impairment participated in this randomized and single-blinded training study.Subjects in the bilateral arm training group (n =7) practiced bilateral symmetrical or opposite activities,while the control group (n =7) performed conventional,mainly unilateral,arm training.Those in both groups received fMRI scans before and after the training with passive elbow movement as the task in the imaging.Results Both groups had significant improvements in their average scores on the Fugl-Meyer upper extremity assessment and in their modified Barthel index scores after the treatment,and there were no significant differences between the two groups.Brain activation had increased in both groups after the treatment,especially in the bilateral training group.After the treatment,the first motor area (M 1),the first somatosensory area and the supplementary motor area on both sides were activated in the bilateral training group.Moreover,for patients in the bilateral training group with injuries of moderate severity,the M1 of the opposite side tended to be activated,while for those more severely injured the same side had a tendency to be activated.Conclusion Convalescing subcortical infarction patients with moderate to severe upper limb impairment benefit from bilateral arm training in terms of motor activity and performing activities in daily life.It may be related to the normalization of inhibition between the hemispheres of the bilateral cerebral cortex and the reconnection of ipsilateral corticospinal pathways.

Effects of Kai-Xin Jie-Yu Pill on Neural Plasticity in Rats with Depression / 世界科学技术-中医药现代化

This article was aimed to investigate the function and mechanism of Kai-Xin Jie-Yu (KXJY) pill on depression.The depression model rats were established by chronic unpredictable mild stress and separation.The sucrose preference test and Morris water maze (MWM) were performed.The regulation effects of neural plasticity-related genes including glycogen synthase kinase-3β (GSK-3β),cAMP-response element binding protein (CREB),5-hydroxytryptamine 2C receptors (HTR2C),and vascular endothelial growth factor (VEGF) were determined.The results showed that among depression model rats,KXJY pill significantly increased the sucrose preference and the escape latency of MWM in a certain extent.The neural plasticity-related genes including GSK-3β and HTR2C mRNA were decreased significantly,whereas CREB and VEGF mRNA were increased significantly with the treatment of KXJY pill.It was concluded that KXJY pill had the function of reducing depression-like behavior,which might be mediated by the regulation of GSK-3β,CREB,HTR2C and VEGF.

Mechanism of neural plasticity of acupuncture on chronic migraine / 中国针灸

Chronic migraine is one of neurological disorders with high rate of disability, but sufficient attention has not been paid in this field. A large number of clinical studies have shown traditional Chinese acupuncture is a kind of effective treatment with less side effects. Through the analysis of literature regarding acupuncture and migraine published from 1981 to 2017 in CNKI and PubMed databases, the mechanism of neural plasticity of acupuncture on chronic migraine was explored. It was believed the progress of chronic migraine involved the changes of neural plasticity in neural structure and function, and the neural plasticity related with neural sensitization during the process of chronic migraine was discussed from three aspects of electrophysiology, molecular chemistry and radiography. Acupuncture could treat and prevent chronic migraine via the mechanism of neural plasticity, but there was no related literature, hindering the further spreading and development of acupuncture for chronic migraine.

Gamma absolute power reveals activation of motor areas after hand immobilization / Potência absoluta da banda gama revela ativação em áreas motoras após imobilização da mão

OBJECTIVE: To analyze changes in gamma band absolute power in motor cortical areas, before and after a condition of hand immobilization for 48 hours. METHOD: Fifteen healthy volunteers, aged between 20 and 30, were submitted to EEG assessment before and after 48 hours of immobilization of the dominant hand, while performing a motor task triggered by a visual stimulus. A two-way repeated measures ANOVA with two within-group factors (moment x condition), each one with two levels (before vs. after visual stimuli; before vs. after 48-hour HI, respectively) was used to test for changes in beta band absolute power. RESULTS: Statistical analysis revealed that hand immobilization caused changes in cortical areas. A significant increase in gamma band absolute power was found after hand immobilization at electrodes F3 (p = 0.001) at F4 (p = 0.001) and at Fz (p = 0.001), at C3 (p = 0.001), C4 (p = 0.001) and Cz (p = 0.001). CONCLUSION: These results reveal that oscillations of the gamma band can be a cortical strategy to solve the effect of less activation due to movement restriction. Knowledge of the functioning of motor cortical areas after a condition of immobilization can lead to more effective strategies in rehabilitation.

OBJETIVO: O objetivo deste estudo foi analisar mudanças na potência absoluta da banda gamma em áreas corticais motoras, antes e depois de uma condição de imobilização da mão por 48 horas. MÉTODO: Quinze voluntários saudáveis, com idades entre 20 e 30 anos, foram submetidos a avaliação eletroencefalográfica antes e depois da imobilização, durante a execução de uma tarefa motora desencadeada por um estímulo visual. Uma análise de variância com dois fatores (ANOVA two-way) foi empregada para investigar o fator momento (antes e depois do estímulo visual) e o fator condição (antes e depois da imobilização). RESULTADOS: Um aumento significativo na potencia absoluta da banda gamma foi encontrado após imobilização da mão nos elétrodos (ou derivações) F3, F4, FZ, C3, C4 e Cz. CONCLUSÃO: Estes resultados revelam que as oscilações na banda gama podem ser uma estratégia cortical para resolver o efeito de menor ativação devido à restrição de movimento. Um melhor conhecimento do funcionamento de áreas corticais motoras após uma condição de imobilização pode orientar estratégias mais eficazes na reabilitação.

Involvement of beta absolute power in motor areas after hand immobilization: An EEG study / Envolvimento da potência absoluta da banda beta após imobilização da mão: estudo eletroencefalográfico

OBJECTIVE: The purpose of this study was to analyze changes in beta band absolute power in cortical areas, before and after a condition of hand immobilization for 48 hours. METHOD: Fifteen healthy volunteers, aged between 20 and 30, were submitted to EEG assessment before and after immobilization, while performing a motor task triggered by a visual stimulus. RESULTS: Statistical analysis revealed that hand immobilization caused changes in cortical areas. Significant increases in beta band absolute power were found after hand immobilization at electrodes Fp2, C3 and P4. In contrast, at electrode C4 a decrease in beta band absolute power occurred after hand immobilization. CONCLUSION: Predominant hand immobilization, even for 48 hours, is sufficient to cause cortical changes that affect movement planning. Such changes may represent a cortical strategy to supply cortical changes in contralateral hemisphere due to immobilization. Further studies are necessary to understand cortical changes due to hand immobilization and movement planning, especially considering how much time of immobilization is necessary to promote such changes.

OBJETIVO: O objetivo deste estudo foi analisar mudanças na potencia absoluta da banda beta em áreas corticais, antes e depois de uma condição de imobilização da mão por 48 horas. MÉTODO: Quinze voluntários saudáveis, com idades entre 20 e 30 anos, foram submetidos à avaliação EEG antes e depois da imobilização, durante a execução de uma tarefa motora desencadeada por um estímulo visual. RESULTADOS: A análise estatística revelou que a imobilização da mão causou mudanças em áreas corticais. Um aumento significativo na potencia absoluta da banda beta foi encontrado após imobilização da mão nos eletrodos Fp2 (F (1,3823) = 4,147; p = 0,042), C3 (F (1,3563) = 5,005; p = 0,025) e P4 (F (1,3290) = 5,114; p = 0,024). No C4 eletrodo (F (1,3657) = 11,858; p = 0,001) uma diminuição da potencia absoluta da banda beta ocorreu após imobilização da mão. CONCLUSÃO: A imobilização da mão predominante, mesmo para 48 horas, é suficiente para causar alterações corticais que afetam o planejamento movimento. Tais mudanças podem representar uma estratégia cortical para fornecer alterações corticais em hemisfério contralateral devido à imobilização. Mais estudos são necessários para entender as mudanças corticais devido a imobilização da mão e planejamento do movimento, especialmente considerando quanto tempo de imobilização é necessário para promover essas mudanças.