Efeito da Estimulação Magnética Transcraniana de alta frequência sobre a função sensorial e motora de indivíduos com Lesão Medular Incompleta / Effect of high frequency Transcranial Magnetic Stimulation on sensory and motor function of individuals with incomplete Spinal Cord Injury

Araújo, Amanda Vitória Lacerda de

30 May 2018

A Lesão Medular incompleta (LMi) é uma condição gerada por processos lesionais que afetam parcialmente a integridade da medula espinhal, ocasionando comprometimento na função sensório-motora devido ao declínio do funcionamento das vias medulares. Tal comprometimento impacta diretamente em aspectos físicos, psicológicos e sociais, com consequente redução da qualidade de vida e da independência funcional. Dessa forma, uma reabilitação efetiva requer a redução dos danos ocasionados ela LMi e, portanto, depende de técnicas capazes de favorecer a neuroplasticidade dos circuitos medulares remanescentes. A Estimulação Magnética Transcraniana repetitiva (EMTr) de alta frequência é uma técnica capaz de induzir aumento na excitabilidade do córtex motor primário, trato córtico-espinhal e medula espinhal, facilitando o desenvolvimento da conectividade responsável pela melhora sensório-motora e funcional. Objetivou-se avaliar os efeitos da EMTr de alta frequência aplicada sobre a área dos membros inferiores em M1 na função sensório-motora e nos níveis de espasticidade em indivíduos com LMi crônica. Esse estudo duplo-cego, placebo controlado avaliou quinze indivíduos com LMi crônica (35.3 ± 7.9 anos, média ± desvio padrão) incluídos sequencialmente em cinco sessões de EMTr placebo e cinco sessões de EMTr ativa à 5Hz, separadas por um período de repouso de uma semana. Avaliações clínicas foram feitas antes e depois de da EMTr placebo e ativa. Foram observadas mudanças estatisticamente significativas nos escores motores do International Standards for Neurological Classification of Spinal Cord Injury Patients/Padrões Internacionais para Classificação Neurológica de Pacientes com Lesão Medular (ISNCSCI) (T(1, 14) = 5.359, P < 0.001), as quais foram acompanhadas de tamanhos de efeito clinicamente significativos. A sensibilidade superficial avaliada pelo ISNCSCI também apresentou mudanças estatisticamente significativas nos escores após EMTr ativa (T(1, 14) = 2.223, P < 0.043). Não foram observadas mudanças nos níveis de espasticidade. Nenhum participante relatou efeitos adversos graves, com exceção de dor de cabeça transitória após algumas sessões. O presente estudo encontrou mudanças estatísticas e clinicas consistentes na função sensório-motora em indivíduos com LMi crônica após EMTr ativa. Dessa forma, essa técnica pode ser uma forma efetiva de reabilitação em indivíduos com LMi / Incomplete Spinal Cord Injury (iSCI) is a condition generated by lesional processes that partially affect the integrity of the spinal cord, causing impairment in the sensorimotor function due to the decline in the functioning of the spinal cord. Such impairment directly impacts on physical, psychological and social aspects, with consequent reduction of quality of life and functional independence. Thus, effective rehabilitation requires the reduction of the damage caused by iSCI and, therefore, depends on techniques capable of favoring the neuroplasticity of the remaining medullary circuits. High frequency repetitive transcranial magnetic stimulation (rTMS) is a technique capable of inducing increased excitability of the primary motor cortex, corticospinal tract and spinal cord, facilitating the development of connectivity responsible for sensorimotor and functional improvement . The objective of this study was to evaluate the effects of high frequency applied rTMS on the lower limbs area in M1 on sensorimotor function and on spasticity levels in individuals with chronic iSCI. This double-blind, placebo-controlled study evaluated fifteen subjects with chronic iSCI (35.3 ± 7.9 years, mean ± standard deviation) included sequentially in five placebo rTMS sessions and five sessions of active rTMS at 5Hz separated by a washout period of one week. Clinical evaluations were done before and after the placebo and active rTMS. Statistically significant changes in the International Standards for Neurological Classification of Spinal Cord Injury Patients (ISNCSCI) motor scores (T (1, 14) = 5,359, P <0.001) were observed, which were accompanied by clinically significant effect sizes. The superficial sensitivity assessed by the ISNCSCI also showed statistically significant changes in the scores after active rTMS (T (1,14) = 2,223, P <0.043). No changes in spasticity were observed. No participant reported severe adverse events, except for transient headache after a few sessions. The present study found consistent statistical and clinical changes in sensorimotor function in individuals with chronic iSCI after active rTMS. Thus, this technique can be an effective form of rehabilitation in individuals with iSCI

Função sensório-motora

Lesão Medular Incompleta

Motor rehabilitation

Plasticidade

Plasticity

Reabilitação motora

Sensorimotor function

Spinal Cord Injury

Avaliação e tratamento de pacientes com dor facial atípica através da estimulação magnética transcraniana repetitiva / Assessment and treatment of patients with atypical facial pain patients that underwent repetitive transcranial magnetic stimulation

Galhardoni, Ricardo

30 October 2014

Dor facial atípica (DFA) é uma condição álgica crônica destacada pela etiopatogenia ainda desconhecida e pela característica rebelde aos tratamentos vigentes. O objetivo deste estudo é avaliar o limiar e padrões de excitabilidade cortical de doentes com DFA através de Estimulação Magnética Transcraniana (EMT) e compará-los a controles saudáveis, além de avaliar a eficácia terapêutica da EMT repetitiva (EMTr) ativa em doentes com DFA comparados à EMTr placebo. Durante o período de março de 2010 a dezembro de 2013 foram avaliados 29 doentes com DFA - os quais preencheram os critérios segundo a classificação proposta pela Associação Internacional de Cefaleia (2004) - e 28 controles saudáveis. A avaliação foi iniciada com a investigação da excitabilidade cortical bilateral. Em seguida, os doentes foram aleatorizados em dois grupos (ativo e placebo) para o tratamento com EMTr sobre o córtex motor primário na área de representação da face, esquematizado da seguinte forma: cinco sessões consecutivas para a fase de indução, e uma sessão semanal (pelo período de oito semanas) para a de manutenção; frequência excitatória de 10Hz; 80% do limiar motor de repouso; e 3000 pulsos no total por sessão. Os doentes foram avaliados quanto às características dolorosas no momento basal, no dia sete após a semana de indução, e nos dias 21, 30 e 60 para acompanhamento na fase de manutenção. Em todas as avaliações, utilizou-se os seguintes questionários validados para a língua portuguesa: Inventário Breve de Dor; DN4, Inventário de Sintomas de Dor Neuropática, Questionário de descritores breve de dor McGill e Questionário de qualidade de vida SF-36. Os doentes do grupo ativo e placebo apresentaram excitabilidade cortical inicial diferenciada em relação aos controles nos padrões de inibição e facilitação intracortical (p < 0,001). Ao final da última avaliação, os doentes do grupo ativo apresentavam padrões de excitabilidade cortical mais próximos dos controles do que os doentes do grupo placebo, embora sem significância estatística. Não houve diferença entre os grupos ativo e placebo em todas as avaliações quanto às características de dor e de qualidade de vida, sendo que ambos apresentaram melhora da dor. Conclui-se que há diferenças neurofisiológicas entre os doentes com DFA e os controles, e que isso pode ser modificado através do EMTr. A ausência de efeito terapêutico da EMTr neste estudo indica que mais estudos utilizando-se outros parâmetros para a verificação da eficácia da EMTr na DFA são necessários / Atypical facial pain (AFP) is a chronic condition with unknown physiopathology and refractory characteristics to the gold standard treatment. The aim this study was to compare the patterns of cortical excitability between AFP and health subjects (HS), and to assess the analgesic effect of repetitive transcranial magnetic stimulation (rTMS) in AFP patients. Twenty-eight HS and 29 patients with AFP were included according to the IHS criteria (2004). Participants underwent a cortical excitability battery bilaterally in the primary motor cortex (M1) representation of the masseter muscle. They were then randomized into active and sham rTMS groups. rTMS was performed over the contralateral motor cortex in the representation area of the face daily for a week and weekly for eight weeks in a total of 13 sessions (5 induction and 8 maintenance sessions). All participants received 10 Hz rTMS, at 80% of the rest motor threshold (total of 3000 pulses per session). Sham rTMS was performed with an identical sham coil that emitted a similar sound to the active one. Patients were clinically assessed at baseline, after the induction phase (one week) and after 21, 30 and 60 days after the beginning of the study. Evaluations included the following validated questionnaires to the Brazilian Portuguese language: brief pain inventory; DN-4; Neuropathic pain symptoms inventory, McGill pain questionnaire brief version and quality of life questionnaire SF-36. At the baseline assessment, patients with AFP showed defective intracortical excitability inhibition and facilitation (p < 0.001) compared to HS. After the final evaluation, the patients from the active group had cortical excitability patterns closer to HS than the patients from the sham group, although there was no significant difference. There was no difference between patients that underwent active and sham rTMS about their pain characteristics and quality of life; both had pain improvement. In conclusion, there are neurophysiological differences between patients with AFP and HS, which could be modified with rTMS. The absence of a therapeutic effect of rTMS on pain in this study indicates the need of more research with other TMS parameters to check the efficacy of rTMS in AFP

Avaliação

Chronic pain

Dor

Dor crônica

Dor facial/etiologia

Double-blind method

Estimulação magnética transcraniana

Evaluation

Facial pain/etiology

Método duplo-cego

Pain

Terapêutica

Therapeutics

Transcranial magnetic stimulation

Elaboração de curva brasileira de normalidade de excitabilidade cortical / Normative data of cortical excitability in a Brazilian population

Moscoso, Ana Sofia Cueva

15 January 2013

INTRODUÇÃO: A obtenção de medidas de excitabilidade cortical mediante a estimulação magnética transcraniana tem surgido nos últimos anos como método de avaliação da integridade funcional do trato cortico-spinal e rede interneuronal no córtex primário motor, abrindo perspectiva de utilizá-la na prática clínica. Alterações nos parâmetros de excitabilidade cortical tem sido relatados na síndrome fibromiálgica e outras síndromes dolorosas, se correlacionando com a gravidade de diferentes componentes dessas síndromes e mudando conforme o tratamento. Entretanto, apesar do seu potencial benefício, existe uma pequena quantidade de estudos disponíveis na literatura que tenham proposto a obtenção de dados de normalidade para esses parâmetros, com casuísticas pequenas, não pareadas por fatores que potencialmente alteraram seus valores. O presente estudo procurou montar uma curva de normalidade de parâmetros de excitabilidade cortical com cálculo de amostra, pareamento por idade e sexo, com estudo dos efeitos da lateralidade hemisférica e dominância, fase do ciclo menstrual e variabilidade inter e intraexaminador. MÉTODOS: Após cálculo amostral, foram convocados voluntários saudáveis do sexo masculino e feminino, pareados por idade. No total, 216 voluntários completaram o estudo. O potencial evocado motor, inibição intracortical e facilitação intracortical foram medidas no músculo primeiro interósseo dorsal após estímulo dos córtices motor primário bilateral. O grupo de 15 mulheres fez a primeira medição do uso de anticoncepcional oral e a segunda medição na fase de descanso do mesmo. A variabilidade interexaminador e intraexaminador foi aferida em 20 voluntários para cada uma das situações. RESULTADOS: A comparação entre os parâmetros de voluntários menores que 50 anos e maiores que 50 anos mostrou diferenças significativas. Foram obtidos os valores de normalidade para menores de 50 anos e maiores de 50 anos (média e desvio padrão): 1.Menores ou igual que 50 anos: LMR: 49 ± 9,39%; PEM 120%: 587,63±779,52 V; MEP 140%: 1413,08±1343,18 V; MEP 120/140%: 3,83±5,39 V; IIC 2ms: 0,40 ±0,44 V; IIC 4ms: 0,61± 0,84 V; IIC: 0,56± 0,63 V; FIC 10ms: 1,95 ±1,82 V; FIC 15ms: 1,80±1,73 V; FIC: 1,87±1,64 V. 2. Maiores de 50 anos: LMR: 49,1 ± 9.58%; PEM 120%:467,71±650,61 V; PEM 140%:1172,43±1158,47 V; PEM 120/140%: 4,04±4,27 V; IIC2ms: 0,73± 1,26 V; IIC 4ms: 1,04±1,67 V; IIC:0,81±1,03 V; FIC 10ms:2,46±3,85 V; FIC 15ms: 2,12±3,05 V; FIC: 2,28±3,32 V. Houve semelhança entre homens e mulheres( p>0,3). Os córtices motores direito e esquerdo apresentaram parâmetros semelhantes de excitabilidade cortical (p>0,25) para todas as análises. Assim, os valores para o hemisfério direito e esquerdo e os dados de homens e mulheres foram agrupados. Não houve diferença estatística significativa entre destros e sinistros (p>0,20). A variabilidade inter e intraexaminador é alta para a maior parte dos parâmetros, porém, com alta correlação para o limiar motor em repouso e potenciais evocados motores. A inibição e facilitação cortical tiveram baixa correlação, mas confiabilidade aceitável. Não houve diferença importante entre a quantidade de medidas anormais obtidas entre as fases do ciclo menstrual com ou sem o uso do anticoncepcional oral. CONCLUSÕES: Foram levantados os parâmetros de normalidade para adultos saudáveis acima e abaixo de 50 anos. A idade não tem um efeito linear sobre a excitabilidade cortical. Não há diferenças significativas entre sexo, lateralidade de hemisfério ou dominância sobre parâmetros de excitabilidade cortical. Não há correlação significativa entre as fases de uso de anticoncepcional oral e do seu descanso (período menstrual) com as medidas de excitabilidade cortical / BACKGROUND AND AIMS: Measures of cortical excitability parameters by transcranial magnetic stimulation have gained increasing interest as a way to obtain information on the functional integrity of the cortico-spinal tract and interneuronal networks within the primary motor cortex. Changes in cortical excitability parameters have been reported in fibromyalgia and neuropathic pain syndromes showing correlation with the severity of different symptoms of these pain syndromes, and seeming to change during treatment. Despite its potential use, there is a paucity of normative data for cortical excitability parameters. We aimed to obtain normative data for cortical excitability in healthy volunteers. METHODS: A sample size of men and women were matched according to age. In total 216 healthy volunteers completed the study. Rest motor threshold (RMT), motor evoked potentials (MEP), intracortical inhibition (ICI) and facilitation (ICF) were measured in the first dorsal interosseous muscle for both primary motor cortex A group of 15 women were measured twice, first during use of oral contraceptive and a second measure was obtained when not in use of it (menstruations phase). The inter and intrainvestigator variability was assessed in a sample of 20 healthy volunteers. RESULTS: The comparison between the cortical excitability parameters from volunteers younger than 50 years old and volunteers older than 50 years showed significant differences. Normative data for younger than 50 years and older than 50 years were obtained (mean and standard deviation): 1. Age of 50 years or younger: RMT: 49 ±9.39%; MEP120%: 587.63±779.52 V; MEP140%: 1413.08±1343.18 V; MEP120/140%: 3.83±5.39 V; ICI2ms: 0.40 ±0.44; ICI4ms: 0.61 ±0.84 V; ICI: 0.56±0.63 V; ICF10ms: 1.95 ±1.82 V; ICF15ms: 1.80±1.73 V; ICF: 1.87±1.64 V. 2. Older than 50 years: RMT: 49.1±9.58%; MEP120%: 467.71±650.61 V; MEP140%: 1172.43±1158.47 V; MEP120/140%: 4.04±4.27V; ICI2ms: 0.73± 1.26 V; ICI4ms: 1.04±1.67 V; ICI: 0.81±1.03 V; ICF10ms:2.46±3.85 V; ICF15ms: 2.12±3.05 V; ICF: 2.28±3.32 V. There was similarity between genders (p>0,3.) There was no difference between left and right hemispheres (p>0,25). Consequently data from both hemispheres and genders were grouped. There was no significant statistical difference between handedness. We found a good inter/intrainvestigator correlation for RMT and MEP. ICI and ICF had low correlations but an acceptable reliability. CONCLUSIONS: We reported normative data for cortical excitability in adult individuals younger and older than 50 years old. Age has a non-linear effect on cortical excitability. We found no left-right cortex asymmetries or differences related to gender or handedness. We found no correlation between the phases of contraceptive use and the menstruation phase and the cortical excitability parameters

Córtex motor

Cortical excitability

Estimulação magnética transcraniana

Evoked potentials

Excitabilidade cortical

Motor cortex

Potencial evocado

Reference values

Transcranial magnetic stimulation

Valores normais

Excitabilidade cortical motora como preditora de resposta na esquizofrenia / Motor cortical excitability as a response prediction in schizophrenia

Pedro Caldana Gordon

08 November 2018

O desenvolvimento da estimulação magnética transcraniana (EMT) permitiu o estudo de potenciais evocados motores eliciados pela estimulação direta do córtex cerebral de forma não-invasiva. Foi observado que diferentes paradigmas de estimulação cortical por EMT apresentam diferentes padrões de resposta, que posteriormente foram associados ao funcionamento de circuitos corticais GABAérgicos e glutamatérgicos do córtex motor, compondo assim índices de excitabilidade cortical motora (ECM). Ademais, desvios da normalidade de tais índices foram encontrados em diversas condições clínicas, incluindo transtornos mentais como a esquizofrenia. O uso dessas medidas também auxiliou o desenvolvimento da estimulação transcraniana por corrente contínua (ETCC), técnica que se mostrou capaz de produzir efeitos neuromodulatórios no sistema nervoso central de forma segura e com mínimos efeitos adversos. Tal técnica vem apresentando possibilidades terapêuticas promissoras, como por exemplo, tendo sido observado sua eficácia no alívio de alucinações auditivas de indivíduos com esquizofrenia. O uso de ETCC para tratamento de sintomas negativos da esquizofrenia também pode vir a se mostrar uma abordagem eficaz, e a análise da ECM pode auxiliar no entendimento dos seus mecanismos de ação e atuar como possível preditor de resposta terapêutica. O objetivo do presente estudo é avaliar o perfil de ECM em um grupo de indivíduos com esquizofrenia, e as possíveis influências de um protocolo terapêutico utilizando ETCC sobre essas medidas. Com esse objetivo, foi selecionada uma coorte de sujeitos com esquizofrenia que participou em ensaio clínico randomizado e controlado com placebo (estimulação sham), tendo a ETCC como intervenção ativa alvo. A ECM foi mensurada na avaliação inicial dos sujeitos, assim como após a primeira sessão de ETCC, e quando da avaliação de desfecho primário. O protocolo terapêutico de ETCC envolveu a colocação de 2 eletrodos de área 5x7 cm, pólo anódico aplicado sobre região correspondente ao córtex pré-frontal dorsolateral esquerdo e pólo catódico aplicado sobre córtex de transição temporoparietal esquerdo; com intensidade de corrente de 2 mA, aplicada por 20 minutos. Cada sujeito foi submetido a 10 sessões no total. Encontramos que idade se correlacionou com diminuição da inibição intracortical, reproduzindo resultado previamente encontrado em indivíduos saudáveis. Acerca da modulação da ECM após sessão de ETCC, observamos que sujeitos submetidos à intervenção ativa apresentaram aumento da inibição intracortical no hemisfério estimulado, em oposição à ausência de mudança significativa da ECM nos sujeitos que receberam estimulação placebo. Os resultados sugerem que sessão de ETCC, utilizando os parâmetros aplicados neste estudo, levou ao aumento da inibição intracortical. Devido a evidências prévias de déficit de inibição intracortical em pessoas com esquizofrenia, é possível que o fenômeno observado represente mecanismo terapêutico da ETCC. É necessário verificar se tal efeito sobre a ECM acompanha medidas objetivas de resposta clinica. Caso isto se comprove, a ECM pode se tornar um valioso marcador de resposta terapêutica e evolução clinica em pacientes com esquizofrenia / The development of transcranial magnetic stimulation allowed the study of motor evoked potentials by applying direct stimuli to the brain cortex in a non-invasive fashion. Different stimulation protocols were observed to yield different response patterns, which were later associated with the functioning of cortical GABAergic and glutamatergic circuits, assembled as motor cortex excitability indices. Also, deviations from normality of such indices were observed in several clinical conditions, including mental disorders such as schizophrenia. The use of these measurements also helped the development of transcranial direct current stimulation (tDCS), a technique which was shown to promote neuromodulatory effects in central nervous system, with potential treatment applications. This technique has been used with success in the treatment of auditory hallucinations in patients with schizophrenia. The use of tDCS might also be effective in the treatment of negative symptoms of schizophrenia, and motor cortex excitability analysis might be used to clarify its physiological effects and act as a possible treatment response predictor. The aim of the present study is to evaluate the motor cortical excitability profile of individuals with schizophrenia, as well as possible influences of tDCS over these measurements. With this aim, we selected a cohort of subjects with schizophrenia who participated in a randomized placebo controlled clinical trial using transcranial direct current stimulation (and sham stimulation for placebo), and measuring motor cortical excitability during baseline evaluation, after the first stimulation session, and at the time of the primary outcome evaluation. The transcranial direct current stimulation protocol used in the present study involved the use of 2 electrodes of area 5x7 cm, anode placed over the region corresponding to the left dorsolateral prefrontal cortex, and cathode over the left cortical temporoparietal juntion. A current of 2 mA intensity was applied for 20 minutes. Each subject underwent a total of 10 sessions. We found that age was correlated to reduced intracortical inhibition, as has been previously found in healthy subjects. Regarding changes of motor cortical excitability following a transcranial direct current stimulation session, we observed that subjects that received the active stimulation displayed an increase in intracortical inhibition, as opposed to those who received sham stimulation, which did not present with any significant change. Results suggest that transcranial direct current stimulation session, using the parameters described in this study, led to an increase in intracortical inhibition. Given previous evidence of intracortical inhibition deficit in individuals with schizophrenia, it is possible that the observed phenomenon corresponds to a treatment mechanism of the electrical stimulation in this population. This need to be confirmed by comparing such changes in cortical excitability to objective measurements of clinical improvement. In case that is confirmed, measurement of motor cortical excitability may have a valuable application as a marker of treatment response and clinical outcome for patients with schizophrenia

Esquizofrenia

Estimulação magnética transcraniana

Excitabilidade cortical motora

Sintomas negativos

Motor cortical excitability

Negative symptoms

Schizophrenia

Transcranial direct current stimulation

Transcranial magnetic stimulation

Hemispatial neglect : an evaluation of novel assessment methods and rehabilitation

Raghavan, Charumati

January 2017

Hemispatial neglect, is a major cause of post-stroke disability and poor functional recovery. Hence, identifying sensitive methods to assess and rehabilitate neglect is important. Chapters 3 and 4 focused on development of novel assessment techniques for representational neglect. The 'Shopping Mall' and 'Clock Cueing' tasks improved upon previous tests and were useful in identifying dissociations in representational neglect based on type of stimuli (topological, non-topological) and time of assessment (pre-stroke, post-stroke) in chronic stroke patients. Chapters 5 and 6 investigated the efficacy of offline inhibitory repetitive Transcranial Magnetic Stimulation (rTMS) in producing short (&LT;1 month) and long term (>6 months) changes in visual neglect behaviour. Overall, the findings from these chapters were limited due to lack of sufficient power. After controlling for the effect of baseline performance, the Intervention group's Activities of Daily Living scores significantly improved in the short-term post rTMS, as compared to the Control group. The fMRI task attempted to recruit attention-based top down modulation of sensory activity. It revealed relative hypoactivation of the right occipital lobe in the four left neglect patients tested, both pre and post rTMS, when compared to elderly controls. Chapter 7 explored cognitive predictors of spatial and object neglect in the sub-acute stage after controlling for demographic and stroke related factors, using multivariate blocked logistic regressions. Cognitive performance indicative of spatial attention and selective attention to local features predicted both spatial and object neglect. In addition, coding of spatial relations between features also predicted spatial neglect. Suggestions for combining neglect rehabilitation techniques to target these cognitive processes are discussed. Overall, this thesis provides novel methods to improve representational neglect assessment and highlights the importance of ancillary cognitive domains in contributing to both representational and visual neglect. The rTMS research provides study design-related insights to incorporate in future studies with larger patient samples.

Associação da ansiedade com inibição intracortical e modulação descendente da dor na síndrome dolorosa miofascial

Vidor, Liliane Pinto

January 2014

Introdução: Níveis elevados de ansiedade têm sido associados com intensidade e comportamento da dor em pacientes com dores aguda e crônica. Foi observado, em indíviduos com síndrome dolorosa miofascial (SDM), que o estresse e a ansiedade aumentam a predisposição para o desenvolvimento de pontos-gatilhos miofasciais. Adicionalmente a isto, existe a tendência do indivíduo experimentar emoções negativas em situações de estresse (neuroticismo), característica de personalidade associada ao traço de personalidade, que pode influenciar negativamente na experiência de dor. Indivíduos com alta ansiedade-traço são geralmente hipersensíveis a estímulos e psicologicamente mais reativos. É concebível supôr a coexistência de alteração na excitabilidade cortical, entre dor crônica e ansiedade nestes pacientes. Para melhorar a compreensão dos mecanismos centrais relacionados à ansiedade e à dor crônica, avaliou-se os parâmetros de excitabilidade cortical, usando estimulação magnética transcraniana (EMT), pulso único e pareado. Nossa hipótese é que a excitabilidade corticoespinhal seja modulada pela ansiedade favorecendo a perda de influxo inibitório descendente. Objetivos: O presente estudo teve como objetivo responder a três perguntas relacionadas à síndrome dolorosa miofascial (SDM): 1) A excitabilidade do córtex motor está relacionada com a ansiedade-traço? 2) A ansiedade-traço modula alterações da excitabilidade corticoespinhal, após dor evocada pelo Quantitative Sensory Testing (QST)? 3) A ansiedade-traço prevê resposta à dor evocada pelo QST, se receber simultaneamente um estímulo heterotópico [Conditioned Pain Modulation (CPM)]? Pacientes e métodos: Foram incluídas mulheres com SDM (n = 47) e controles saudáveis (n = 11), com idade entre 19 e 65 anos. A excitabilidade do córtex motor foi avaliada pela EMT, e a ansiedade foi avaliada com base no Inventário de Ansiedade Traço-Estado (IDATE). A incapacidade relacionada à dor foi avaliada pelo perfil da escala de dor crônica para a população brasileira (B:PCP:S), e as medidas psicofísicas da dor foram medidas pelo QST e CPM. Resultados: Nas pacientes, a ansiedade-traço foi positivamente correlacionada com a facilitação intracortical (FIC) no baseline e após a dor evocada pelo QST (β = 0,05 e β = 0,04, respectivamente) e negativamente relacionada com o período de silêncio cortical (PSC) no baseline e após a dor evocada pelo QST (β = -1,17 e β = -1,23, respectivamente) (P <0,05 para todas as comparações). Após dor evocada pelo QST, a incapacidade relacionada à dor crônica foi positivamente correlacionada com a FIC (β = 0,02) (P <0,05). Os escores de dor durante o CPM foram positivamente correlacionados com a ansiedadetraço, quando a incapacidade relacionada à dor crônica foi igualmente alta (β = 0,39, P = 0,02). A excitabilidade cortical das controles saudáveis permaneceu inalterada após o QST. Conclusões: Estes resultados sugerem que, na SDM, o desequilíbrio entre os sistemas excitatórios e inibitórios descendentes do trato corticoespinhal está associado concomitantemente a maiores níveis de ansiedade-traço e maiores níveis de incapacidade funcional ocasionados pela dor crônica. / Background: High levels of anxiety have been associated with the intensity and pain behavior in patients with acute and chronic pain. It was observed that in subjects with myofascial pain (SDM), stress and anxiety syndrome increase the predisposition for the development of myofascial trigger points. In addition to this, there is a tendency of individuals to experience negative emotions in stressful situations (neuroticism), personality characteristic associated with trait personality that may negatively influence in the experience of pain. Individuals with higher trait anxiety are usually hypersensitive to stimuli and more psychologically reactive. It is conceivable to assume the co-existence of change in cortical excitability, chronic pain and anxiety, in these patients. To improve the understanding of the central mechanisms related to anxiety and chronic pain, we assessed cortical excitability parameters by single and paired pulse transcranial magnetic stimulation (TMS). We hypothesize that corticospinal excitability is modulated by anxiety favoring loss of descendent inhibitory influx. Objectives: This study aimed to answer three questions related to chronic myofascial pain syndrome (MPS): 1) Is the motor cortex excitability, as assessed by transcranial magnetic stimulation parameters (TMS), related to state-trait anxiety? 2) Does anxiety modulate corticospinal excitability changes after evoked pain by Quantitative Sensory Testing (QST)? 3) Does the state-trait anxiety predict the response to pain evoked by QST if simultaneously receiving a heterotopic stimulus [Conditional Pain Modulation (CPM)]? Patient and methods: We included females with chronic MPS (n=47) and healthy controls (n=11), aged from 19 to 65 years. Motor cortex excitability was assessed by TMS, and anxiety was assessed based on the State-Trait Anxiety Inventory. The disability related to pain (DRP) was assessed by the Profile of Chronic Pain scale for the Brazilian population (B:PCP:S), and the psychophysical pain measurements were measured by the QST and CPM. Results: In patients, trait-anxiety was positively correlated to intracortical facilitation (ICF) at baseline and after QST evoked pain (β= 0.05 and β= 0.04, respectively) and negatively correlated to the cortical silent period (CSP) (β= -1.17 and β= -1.23, respectively) (P <0.05 for all comparisons). After QST evoked pain, the DRP was positively correlated to ICF (β= 0.02) (P<0.05). Pain scores during CPM were positively correlated with trait-anxiety when it was concurrently with high DRP (β= 0.39; P= 0.02). Controls’cortical excitability remained unchanged after QST. Conclusions: These findings suggest that, in chronic MPS, the imbalance between excitatory and inhibitory descending systems of the corticospinal tract is associated with higher trait-anxiety concurrent with higher DRP.

Estimulação magnética transcraniana

Ansiedade

Dor crônica

Transcranial magnetic stimulation

Chronic pain

Noninvasive brain stimulation

Neuromodulation

Anxiety

Myofascial pain syndrome

Mécanismes neurophysiologiques de l'imagerie motrice : effet d'une stimulation somatosensorielle associée / Neurophysiological mechanisms of motor imagery : effects of associated somatosensory stimulation

Traverse, Elodie

14 December 2018

L’entrainement mental (EM) par imagerie motrice (IM), qui consiste à simuler mentalement une action sans production motrice, constitue un stimulus efficace pour l’amélioration de la force maximale volontaire. Si aucun retour afférent sensitif n’est présent au cours d’une tâche d’IM, il n’en reste pas moins qu’une activation du cortex somatosensoriel est reportée. En effet, l’efficacité de l’IM repose en partie sur une interaction entre les voies motrices et les voies sensitives. Ainsi, il apparait raisonnable de penser que l’ajout de retours afférents sensitifs pendant l’IM pourrait potentialiser les effets de cette dernière et donc améliorer la performance motrice. L’objectif de cette thèse était d’analyser les mécanismes nerveux impliqués dans l’imagerie motrice combinée à la stimulation somatosensorielle. Dans notre première étude, nous avons montré que l’ajout d’une stimulation somatosensorielle des afférences Ia pendant une tâche d’imagerie pouvait potentialiser l’excitabilité corticospinale. Notre deuxième étude n’a cependant pas permis de mettre en évidence une meilleure efficacité d’un entrainement en imagerie motrice combinée à la stimulation somatosensorielle comparativement à un entrainement par imagerie motrice ou par stimulation somatosensorielle seules sur la force maximale volontaire. Enfin, notre troisième étude suggère que cette apparente inefficacité de la stimulation somatosensorielle à potentialiser les effets de l’imagerie, pourrait être en partie liée à un conflit entre l’activation du réseau neuronal en imagerie et l’activation de mécanismes corticaux suite aux retours afférents induits par la SS. / Mental training, which involves mentally simulating an action without motor output, is an effective stimulus to improve the maximal voluntary contraction. If only the motor pathway is activated, an activation of the somatosensory cortex is observed despite the lack of afferent feedback. Indeed, the motor imagery task efficiency is based in part on an interaction between motor and sensory pathway. Thus, it’s seems reasonable to think that the addition of sensory afferent feedback during motor imagery could potentiate the motor imagery effects and thus improve motor performance. In our first study, we showed that the addition of somatosensory stimulation of Ia-afferents during a motor imagery task could potentiate corticospinal excitability. Our second study, however, did not show a better efficacy of a mental training combined with somatosensory stimulation compared to a mental training or a somatosensory stimulation training alone on the maximal voluntary contraction. Finally, our third study suggests that this apparent inefficiency of somatosensory stimulation to potentiate the effects of motor imagery may be partly related to a conflict between the activation of the neuronal network in imaging and the activation of cortical mechanisms following the afferents feedbacks induced by the somatosensory stimulation.

Imagerie motrice

Système Neuromusculaire

Stimulation magnétique transcranienne

Réflexe H

Neurostimulation

Entrainement mental

Motor imagery

Neuromuscular system

Transcranial magnetic stimulation

H-Reflex

Neurostimulation

Mental training

612.04

612.8

Adaptations fonctionnelles et nerveuses à l'entraînement par vibration locale : du sujet sain à la rééducation / FUNCTIONAL AND NEURAL ADAPTATIONS TO LOCAL VIBRATION TRAINING : FROM HEALTHY SUBJECTS TO REHABILITATION

Souron, Robin

08 December 2017

La recherche de méthodes permettant de lutter contre le déconditionnement neuromusculaire à la suite par exemple d’une opération chirurgicale ou d’une immobilisation prolongée intéresse la communauté scientifique depuis de nombreuses années. Ce projet visait à proposer la technique de vibration locale (LV) comme une méthode alternative aux méthodes classiquement utilisées (e.g. vibration corps entier, stimulation électrique neuromusculaire) pour lutter contre ce déconditionnement neuromusculaire. Le premier objectif de ce travail de thèse était de déterminer les effets d’une application aigüe de LV sur la fonction neuromusculaire des muscles fléchisseurs dorsaux et extenseurs du genou de sujets sains. Nos résultats montrent une modulation de l’excitabilité du système nerveux central en réponse à l’application aigüe de LV, ce qui nous a permis d’envisager de potentielles adaptations si cette technique était utilisée de façon répétée sur plusieurs semaines. Ainsi, la seconde orientation de ce travail était d’évaluer les effets d’une application chronique (entraînement) de LV sur les propriétés fonctionnelles (force, hauteur de saut) et nerveuses (mesurées par stimulation magnétique transcrânienne) de sujets sains, jeunes et âgés. Nos résultats ont montré qu’un entraînement par LV était efficace pour améliorer les capacités fonctionnelles de ces deux populations, ces gains s’accompagnant d’adaptations nerveuses. Ces travaux nous ont alors conduits à la mise en place d’une dernière étude (en cours) à visée clinique, qui évaluait l’efficacité de LV en rééducation post-ligamentoplastie du ligament croisé antérieur du genou. / There is a need to find new methods to limit neuromuscular deconditioning that occurs after a surgery or prolonged immobilization. This thesis aimed to assess local vibration (LV) training as an alternative to methods classically used (e.g. whole body vibration, neuromuscular electrical stimulation) to fight against neuromuscular deconditioning. The first aim of this project was to determine the effects of a 30-min acute exposure to LV on the neuromuscular function of dorsiflexor and knee extensor muscles in a healthy population. Our results showed that acute LV intervention changed central nervous system excitability, allowing us to consider long-term adaptations to prolonged LV. Thus, the second aim of this thesis was to assess the effects of a chronic application (training) of LV on functional (maximal strength, squat jump performance) and neural (assessed with transcranial magnetic stimulation) properties of healthy young and old subjects. Our results showed that 4 to 8 weeks of LV increase functional capacities that were due to neural adaptations. Based on these results, an on-going study assessing the effectiveness of LV during a rehabilitation program for subjects who suffered from anterior cruciate ligament lesion has been proposed.

Vibration locale

Entrainement

Stimulation Magnétique Transcrânienne

Electromyographie

Fonction neuromusculaire

Excitabilité cortico-spinale

Rééducation

LOCAL VIBRATION

TRAINING

Transcranial magnetic stimulation

Electromyography

Neuromuscular function

Corticospinal excitability

Rehabilitation program

Number and finger interactions : from the parietal to the motor cortex / Interactions entre les nombres et les doigts : du cortex pariétal au cortex moteur

Andres, Michael

23 March 2006

The observations made in brain-lesioned patients and the result of functional brain imaging studies converge to the hypothesis that the posterior parietal cortex (PPC) is involved in calculation and number processing. However, if numerical disorders generally result from a left parietal lesion, the results of some brain imaging studies suggest that the right PPC could also play a role in number magnitude processing. In order to clarify this question, we used transcranial magnetic stimulation to induce a virtual lesion of the left or right PPC in healthy subjects while they performed number comparison. Our results show that the integrity of the left PPC is a necessary condition for the precise discrimination required during close number comparison; whereas the comparison of far numbers can be performed by either hemisphere as suggested by the fact that this task is affected only by the simultaneous virtual lesion of both hemispheres. In order to better identify which processes underlie the numerical competence of the PPC, we then studied the possible interactions between number processing and visuo-motor functions. Indeed, a meta-analysis performed on functional imaging data revealed that number processing depends on parietal regions, but also on certain premotor areas, which are very close to those involved in the control of finger movements. In a first series of experiments, we thus observed an excitability increase in motor circuits during the enumeration of dots presented on a computer screen. Given that the counting task was performed with both hands at rest, this increase was interpreted as reflecting the mental simulation of pointing movements or sequential finger rising as counting goes on. In a second series of experiments, we showed that information related to number magnitude could interfere with the aperture of the finger grip required to grasp an object. These results suggest that the conformation of the hand to object size shares, with the representation of numbers, common processes for magnitude estimate. In conclusion, our thesis supports the hypothesis that our numerical capacities rely, at least partially, on visuo-motor functions involving the PPC; this could explain why the numerical capacities of the left hemisphere, which is dominant for motor activities, are more precise. / Les observations réalisées chez les patients cérébrolésés ainsi que le résultat des études d'imagerie cérébrale fonctionnelle convergent vers l'hypothèse selon laquelle le cortex pariétal postérieur (CPP) est impliqué dans le traitement des nombres et le calcul. Cependant, si les troubles du calcul résultent le plus souvent d'une lésion pariétale gauche, les résultats de certaines études d'imagerie fonctionnelle suggèrent que le CPP droit pourrait également jouer un rôle dans le traitement de la magnitude des nombres. Afin de clarifier cette question, nous avons utilisé la stimulation magnétique transcrânienne pour induire une lésion virtuelle du CPP gauche ou droit chez des sujets sains réalisant une tâche de comparaison de nombres. Nos résultats montrent que l'intégrité du CPP gauche est une condition nécessaire à la discrimination précise requise lors de la comparaison de nombres proches; la comparaison de nombres éloignés peut, quant à elle, être réalisée par l'un ou l'autre hémisphère comme le suggère le fait que cette tâche n'est affectée que par lésion virtuelle simultanée des deux hémisphères. Afin de mieux appréhender les processus sur lesquels s'appuient les compétences numériques du CPP, nous avons ensuite étudié les interactions possibles entre le traitement des nombres et les fonctions visuo-motrices. En effet, une méta-analyse réalisée sur des données d'imagerie fonctionelle a révélé que le traitement des nombres dépend de régions pariétales, mais également de certaines aires prémotrices, proches de celles impliquées dans le contrôle des mouvements des doigts. Dans une première série d'expériences, nous avons ainsi observé une augmentation de l'excitabilité des circuits moteurs lors du comptage de points présentés sur l'écran d'un ordinateur. Etant donné que la tâche de comptage était réalisée avec les mains au repos, cette augmentation a été interprétée comme le reflet d'une simulation mentale de mouvements de pointage ou d'extension séquentielle des doigts pendant le comptage. Dans une deuxième série d'expériences, nous avons montré que l'information relative à la magnitude des nombres pouvait interférer avec l'ouverture de la pince bidigitale requise pour saisir un objet. Ces résultats suggèrent que la conformation de la main adaptée à la taille des objets partage, avec la représentation des nombres, des processus communs d'estimation de la magnitude. En conclusion, notre travail supporte l'hypothèse selon laquelle nos capacités numériques pourraient, en partie du moins, reposer sur des fonctions visuo-motrices impliquant le CPP ; ceci pourrait expliquer pourquoi les capacités numériques de l'hémisphère gauche, dominant pour les activités motrices, sont plus précises.

Contrôle moteur

Motor control

Doigts

Motor areas

Aires motrices

Fingers

Grasping

Counting

Comptage

Préhension

Magnitude

Hemispheric lateralization

Transcranial magnetic stimulation

Pariétal

Parietal

Numbers

Nombres

Associative plasticity and afferent regulation of corticospinal excitability in uninjured individuals and after incomplete spinal cord injury

Roy, Francois D.

11 1900

Cortical representations are plastic and are allocated based on the proportional use or disuse of a pathway. A steady stream of sensory input maintains the integrity of cortical networks; while in contrast, alterations in afferent activation promote sensorimotor reorganization. After an incomplete spinal cord injury (SCI), damage to the ascending and/or descending pathways induces widespread modifications to the sensorimotor system. Strengthening these spared sensorimotor pathways may be therapeutic by promoting functional recovery after injury. Using a technique called transcranial magnetic stimulation (TMS), we show that the leg motor cortex is facilitated by peripheral sensory inputs via disinhibition and potentiation of excitatory intracortical circuits. Hence, in addition to its crucial role in sensory perception, excitation from peripheral sensory afferents can reinforce muscle activity by engaging, and possibly shaping, the activity of the human motor cortex. After SCI, the amount of excitation produced by afferent stimulation reaching the motor cortex is expectantly reduced and delayed. This reduction of sensory inflow to the motor cortex may contribute to our findings that cortical inhibition is down-regulated after SCI, and this compensation may aid in the recruitment of excitatory networks in the motor cortex as a result of the damage to its output neurons. By repeatedly pairing sensory inputs from a peripheral nerve in the leg with direct cortical activation by TMS, in an intervention called paired associative stimulation, we show that the motor system can be potentiated in both uninjured individuals and after SCI. In the uninjured subjects, we show that in order to produce associative facilitation, the time window required for coincident activation of the motor cortex by TMS and peripheral sensory inputs is not as narrow as previously thought (~100 vs. ~20 ms), likely due to the persistent activation of cortical neurons following activation by TMS. The potential to condition the nervous system with convergent afferent and cortical inputs suggests that paired associative stimulation may serve as a priming tool for motor plasticity and rehabilitation following SCI.

plasticity

spinal cord injury

transcranial magnetic stimulation

peripheral nerve stimulation

motor cortex

sensory input

corticospinal tract

tibialis anterior muscle

intracortical inhibition

motor evoked potential

human

leg