Spelling suggestions: "subject:"transcranial cagnetic astimulation."" "subject:"transcranial cagnetic costimulation.""
121 |
Electrophysiological indices of graded attentional and decision-making processesGould, Ian C. January 2011 (has links)
In everyday life we regularly update our expectations about the locations at which sensory events may occur, and about the motor responses that are appropriate in a given situation. The experiments in this thesis investigated the neural correlates of perceptual processes and motor preparation during human decision making, and the regions that causally contribute to decision making in the human brain. In Chapter 3, I used electroencephalography (EEG) to investigate whether alpha-band (~8-14 Hz) oscillations provide a graded index of participants’ preparatory attentional states. Time-frequency analysis revealed that manipulating spatial certainty regarding the location of an upcoming visual target led to parametric changes in the lateralization of preparatory occipito-parietal alpha oscillations, and to parametric modulation of parieto-central beta-band (~15-25 Hz) power typically associated with response preparation. In Chapter 4, I used EEG to investigate whether evolution of lateralization of sensorimotor alpha- and beta-band activity reflected participants’ evolving expectations about an upcoming motor response. Lateralization of activity in both frequency bands varied parametrically with the available evidence, suggesting such lateralized activity correlates with participants’ internal decision variables. Further analysis identified unique contributions to lateralized and non-lateralized oscillatory activity due to the prior evidence, evidence update, and surprise related to the observed information at each stage of the task. In Chapter 5, I extended the paradigm developed in Chapter 4 for use with online repetitive transcranial magnetic stimulation (TMS) and concurrent EEG recording. Delivery of TMS during decision making allowed investigation of the causal role played by a left hemisphere medial intraparietal region that is the putative human homologue of the macaque medial intraparietal cortex (MIP). MIP stimulation disrupted decision-making behaviour by biasing participants’ decisions against contralateral-to-stimulation (i.e., right-handed) responses. Comparison of the magnitude of TMS-induced changes in behaviour and beta-band activity demonstrated that the intraparietal cortex plays a causal role both in decision making and in the appearance of beta-band activity over the motor cortex. In Chapter 6, the broader consequences of the experimental work presented in this thesis are discussed, in addition to promising directions for future research.
|
122 |
Excitabilité du système miroir : une étude de stimulation magnétique transcrânienne sur le chant et le langageRoyal, Isabelle 09 1900 (has links)
La perception de mouvements est associée à une augmentation de l’excitabilité du cortex moteur humain. Ce système appelé « miroir » sous-tendrait notre habileté à comprendre les gestes posés par une tierce personne puisqu’il est impliqué dans la reconnaissance, la compréhension et l’imitation de ces gestes. Dans cette étude, nous examinons de quelle façon ce système miroir s’implique et se latéralise dans la perception du chant et de la parole. Une stimulation magnétique transcrânienne (TMS) à impulsion unique a été appliquée sur la représentation de la bouche du cortex moteur de 11 participants. La réponse motrice engendrée a été mesurée sous la forme de potentiels évoqués moteurs (PÉMs), enregistrés à partir du muscle de la bouche. Ceux-ci ont été comparés lors de la perception de chant et de parole, dans chaque hémisphère cérébral. Afin d’examiner l’activation de ce système moteur dans le temps, les impulsions de la TMS ont été envoyées aléatoirement à l’intérieur de 7 fenêtres temporelles (500-3500 ms). Les
stimuli pour la tâche de perception du chant correspondaient à des vidéos de 4 secondes
dans lesquelles une chanteuse produisait un intervalle ascendant de deux notes que les
participants devaient juger comme correspondant ou non à un intervalle écrit. Pour la tâche de perception de la parole, les participants regardaient des vidéos de 4 secondes montrant une personne expliquant un proverbe et devaient juger si cette explication correspondait bien à un proverbe écrit. Les résultats de cette étude montrent que les amplitudes des PÉMs recueillis dans la tâche de perception de chant étaient plus grandes après stimulation de l’hémisphère droit que de l’hémisphère gauche, surtout lorsque l’impulsion était envoyée entre 1000 et 1500 ms. Aucun effet significatif n’est ressorti de la condition de perception de la parole. Ces résultats suggèrent que le système miroir de l’hémisphère droit s’active
davantage après une présentation motrice audio-visuelle, en comparaison de l’hémisphère gauche. / The perception of movements is associated with increased activity in the human motor cortex. This system underlies our ability to understand one’s actions, as it is implicated in the recognition, understanding and imitation of actions. In this study, we investigated the involvement and lateralization of this “mirror neuron” system (MNS) in the perception of singing and speech. Transcranial magnetic stimulation (TMS) was applied over the mouth representation of the motor cortex in 11 participants. The generated motor response was measured in the form of motor evoked potentials (MEPs), recorded from the mouth muscle. The MEPs were compared for the singing and speech conditions in each cerebral hemisphere. Furthermore, to investigate the time course of the MNS activation, TMS pulses were randomly emitted in 7 time windows (ranging from 500 to 3500 milliseconds after stimulus onset). The stimuli for the singing condition consisted in 4-second videos of singers producing a 2-note ascending interval. Participants had to judge whether the sung interval matched a written interval, previously presented on the screen. For the speech condition, 4-second videos of a person explaining a proverb were shown. Participants had to decide whether this explanation matched a written proverb previously displayed on the screen. Results show that the MEP amplitudes were higher after stimulation of the right hemisphere in the singing condition. More specifically, sending TMS pulses between 1000 and 1500 milliseconds over the right hemisphere yielded higher MEPs as compared to the left hemisphere. No effect was found in the speech condition. These results suggest that the right MNS is more activated after an audiovisual motor presentation compared to the left hemisphere.
|
123 |
Expérience subjective et différences individuelles dans l'intégration d'informations visuelle et kinesthésiqueDumont, Laurence 12 1900 (has links)
L’expérience subjective accompagnant un mouvement se construit a posteriori en intégrant différentes sources d’informations qui s’inter-influencent à différents moments tant avant qu’après le mouvement. Cette expérience subjective est interprétée par un modèle d’attribution bayésien afin de créer une expérience d’agentivité et de contrôle sur les mouvements de son propre corps. Afin de déterminer l’apport de l’interaction entre les paramètres considérés par le modèle d’attribution et d’investiguer la présence de disparités inter-individuelles dans la formation de l’expérience subjective du mouvement, une série de 90 pulsations simples de stimulation magnétique transcrânienne (SMT) sur le cortex moteur primaire (M1) suivi de multiples questions sur l’expérience subjective reliée au mouvement provoqué a été effectuée chez 20 participants normaux. Les données objectives du mouvement ont été recueillies par électromyographie (EMG) et capture du mouvement. Un modèle de régression a entre autres été effectué pour chaque participant afin de voir quelle proportion du jugement subjectif pouvait être expliqué par des indices objectifs et cette proportion variait grandement entre les participants. Les résultats de la présente étude indiquent la présence d’une capacité individuelle à se former des jugements subjectifs reflétant adéquatement la réalité comme en témoigne la cohérence entre les différentes mesures d’acuité et plusieurs variables mesurant l’expérience subjective. / Subjective experience is built after the fact by integrating different sources of information that interact with each other at different moments (before, during and after the movement). In order to create subjective experience of agency and control, the characteristics of the movement are interpreted by a Bayesian model. To determine the impact of the interaction between the parameters that enter in that Bayesian attribution model and to investigate possible disparities in the formation of subjective experience of movement between individuals, a series of 90 pulses of single-pulse transcranial magnetic stimulation (TMS) followed by four questions on the subjective experience relative to the movement was conducted on 20 normal subjects. Objective data about the movement was gathered using electromyography (EMG) and motion capture. Individual regression models have been conducted to determine the proportion of the subjective judgements that varied accordingly to the objective parameters of the movement; this proportion varied greatly between participants. The present study proposes that there is an individual capacity to form subjective judgements that adequately represent the reality, as suggested by coherence between different accuracy measures and different variables measuring the subjective experience.
|
124 |
Stimulation magnétique transcranienne du cortex moteur a visée antalgique : recherche clinique, approche des mécanismes, effet placebo, valeur pédictive / Transcranial magnetic stimulation of motor cortex for pain relief : clinical research, approach to mechanisms, placebo effect, predictive valueAndré-Obadia, Nathalie 02 December 2013 (has links)
La stimulation magnétique répétitive transcrânienne (rTMS) du cortex moteur à visée antalgique réunit deux conditions extrêmement intéressantes: un accès non invasif à une cible corticale éloquente et, par la modulation de son activité, la possibilité d'influencer le transfert et l'intégration du message nociceptif. L'objectif de cette thèse est d'évaluer comment une approche de recherche clinique permet à la fois de progresser dans la compréhension des mécanismes qui sous-tendent l'effet antalgique de la rTMS et d'optimiser cet effet chez le patient. Une première étude paramétrique, concernant la technique de stimulation, a montré que l'orientation du courant était cruciale pour le développement d'un effet antalgique, l'orientation la plus favorable étant celle activant des interneurones corticaux. Nous n'avons toutefois pas objectivé de modification spécifique d'une composante sensorielle de la douleur en rapport avec cet effet local, ni une influence liée au caractère somatotopique de la stimulation. Ainsi, l'efficacité de la stimulation ne semble pas tributaire de sa localisation en regard de la représentation corticale du territoire douloureux. L'action sur la composante sensorielle de la douleur n'expliquant pas à elle seule l'effet antalgique de la rTMS, nous avons analysé les interactions entre effet antalgique et effet placebo : la rTMS a une efficacité propre, indépendante de l'effet placebo et lorsqu'elle est efficace, elle majore l'effet d'une séance placebo réalisée par la suite, par un phénomène de conditionnement. La rTMS active facilite les mécanismes de contrôle central de la douleur grâce à ses connexions à distance et à son action sur les systèmes endorphiniques, également impliqués dans l'effet antalgique du placebo. A la lumière de ces résultats, nous avons analysé les critères cliniques sur lesquels reposent l'efficacité à long terme des procédures de stimulation épidurale antalgique du cortex moteur et la valeur prédictive de la rTMS: l'efficacité de la rTMS apparaît comme un marqueur utile pour prédire l'efficacité au long cours de la stimulation corticale épidurale, lorsque la douleur est évaluée non seulement dans sa dimension sensorielle pure mais également à travers son retentissement psychologique global. L'ensemble de ces travaux suggère une action multiple de la rTMS s'exerçant probablement dans les 3 sphères (sensori-discriminative, affective et cognitive) qui sous- tendent la perception et le vécu de la douleur chronique / Repetitive transcranial magnetic stimulation (rTMS) of the motor cortex allows a non- invasive access to an eloquent cortical area and, by the modulation of its activity, the possible interference with central integration of pain. ln this thesis we have applied clinical research methods to enhance the understanding of the mechanisms of pain relief by rTMS and to optimize its clinical effect in chronic pain patients. A first parametrical study, concerning technical aspects of the stimulation, showed the crucial role of current orientation to increase the magnitude of analgesic effects, a postero-anterior orientation promoting interneuronal activation being superior to a latero-medial direction. We found neither a selective modification of sensorial component of pain nor a somatotopic effect of the stimulation: indeed, rTMS analgesic efficacy was not dependent upon stimulation being applied to the cortical representation of the painful territory. The impossibility to explain the whole analgesic effect of rTMS by an isolated modulation of sensory components of pain prompted us to study the interactions between real and placebo rTMS analgesic effects. Active rTMS has a specific analgesic effect, and, when efficacious, it was able to enhance the placebo effect of subsequent sham stimulation. The value of rTMS to adequately predict the long-term efficacy of invasive motor cortex epidural stimulation (surgically implanted MCS) was assessed in a further study. The analgesic efficacy of single-point rTMS proved to be useful to predict the long-term outcome of surgically implanted MCS, provided that such outcome assessment was not exclusively founded on pain intensity but also on the psychological consequences of chronic pain. These results suggest that rTMS exerts its analgesic effects at multiple levels, and probably modifies the 3 different spheres (sensori-discriminative, affective and cognitive) at the origin of perception and consequences of chronic pain in daily life
|
125 |
Modulation tâche-dépendante des mécanismes inhibiteurs et désinhibiteurs du cortex moteur primaire chez l’homme / Task-dependent change in inhibitory and disinhibitory mechanisms within the primary motor cortex in humansCaux-Dedeystère, Alexandre 29 September 2016 (has links)
Les mouvements sont le résultat de contractions musculaires dont l’organisation spatio-temporelle est régie par des structures cérébrales et médullaires. Etudier les circuits qui les sous-tendent est une étape indispensable pour renforcer nos connaissances des mécanismes à l’origine de la commande des mouvements volontaires et pour mieux comprendre la pathophysiologie des mouvements anormaux. Les muscles squelettiques sont innervés par les motoneurones alpha de la moelle épinière qui à leur out sont influencés par des neurones des aires corticales motrices. Cette voie descendante constitue la voie corticomotoneuronale (CM) et est responsable de l’exécution des mouvements volontaires. Le cortex moteur primaire est considéré comme une structure clé, au cœur du système, permettant l’intégration complexe de nombreuses influences multi-régions pour conduire aux comportements moteurs adéquats. Les interactions qui existent entre les différents groupes de neurones au sein de M1 influent en dernier lieu sur la sortie motrice. De la balance complexe entre ces influences inhibitrices et excitatrices, locales ou à distance va dépendre l’état d’excitabilité des cellules CM contrôlant les différents muscles. L'objectif de ce travail de thèse était d'étudier comment évoluent certains de ces mécanismes excitateurs ou inhibiteurs du cortex moteur primaire lorsque la commande motrice volontaire d’un muscle de l’index est modifiée. Nous avons étudié le rôle de ces mécanismes dans les changements d’excitabilité de la voie CM qui accompagnent la contraction tonique volontaire du muscle premier interosseus dorsalis (FDI) en comparant une tâche simple mais peu naturelle : l’abduction de l'index, une tâche naturelle plus complexe: la pince pouce-index et la condition de repos musculaire. Nous avons également étudié l’effet de la commande motrice sur l’interaction entre deux de ces mécanismes inhibiteurs l’un à longue latence, la LICI, l’autre à courte latence, la SICI. Enfin nous avons souhaité évaluer le décours temporel de ces mécanismes dans un cadre pathologique tâche-dépendant: la crampe de l’écrivain. Pour cela, nous avons utilisé la technique d’electromyographie de surface pour enregistrer les potentiels moteurs évoqués par la Stimulation Magnétique Transcrânienne. Nous avons mis en évidence une modulation tâche-dépendante de la LICI. Par rapport à la tâche d’abduction simple, la LICI s’estompait plus tôt lors de la tâche de pince pouce-index, traduisant une désinhibition plus précoce lors d’un mouvement plus complexe. Nous avons observé, et ce pour la première fois dans la littérature, une phase de facilitation nette qui suivait cette désinhibition, et qui était absente lorsque le muscle était au repos. Ces résultats sont également visibles dans un muscle voisin du FDI, non engagé dans la tâche; cela suggère que les mécanismes à l’origine de la facilitation sont impliqués dans l’activité volontaire sans spécificité topographique. L’interaction entre la LICI et la SICI n’a pas été modifiée par la tâche effectuée, laissant penser qu’elle n’est pas impliquée dans les changements d’excitabilité tâche-dépendants. Enfin, il apparaît que la désinhibition est retardée chez les sujets dystoniques quand le muscle est engagé dans un mouvement complexe de pince pouce-index mais pas dans une tâche simple d’abduction de l’index en comparaison à des sujets contrôles. Ces résultats illustrent le fait que lors d’un mouvement plus complexe, l’efficacité des circuits inhibiteurs du cortex moteur primaire est modifiée, ce qui permet de réguler l’activité des cellules CM, afin d’adapter la commande motrice au mouvement souhaité. Le fait que cette désinhibition soit retardée dans une tâche complexe (proche de la tâche affectée) mais pas dans une tâche simple chez les patients atteints d’une crampe de l’écrivain suggère que les mécanismes à l’origine de la désinhibition pourraient participer aux troubles moteurs qui caractérisent la maladie. / Movements are evoked by muscles contractions whose spatial organization is mediated by both spinal and cortical components. It is important to investigate the underlying circuitry of movements to extend our knowledge on how voluntary movement are controlled and to better understand the pathophysiology of movements disorders. The spinal alpha motoneurons innervating distal muscles are controlled at least in parts by corticomotoneuronal neurons located in the motor cortical areas. Among them, the primary motor cortex is considered as a key structure, performing a complex integration of multi-regional influences leading to appropriate motor behaviors. Axons from corticomotoneuronal (CM) cells of the primary motor cortex reach the spinal cord via descending motor pathway. CM neurons are influenced by local or distant, inhibitory and excitatory components which determine the balance of excitability. The aim of this thesis was to explore changes of some of the excitatory and inhibitory mechanisms of motor cortex as a function of the task being performed. We assessed the time course of Long-interval Intracortical Inhibition (LICI), Late Cortical Disinhibition (LCD) and Long interval Intracortical Facilitation (LICF), which are mechanisms that potentially act to modulate the output of CM controlling the first dorsal interosseus (FDI) muscle. We compared three conditions : index finger abduction (a simple but not natural task), precision grip between index and thumb ( amore natural and complex task), and rest. We also evaluated the effect of task on interaction between LICI and Short Interval Intracortical Inhibition (SICI). Finally, we assessed the time course of LICI in patients suffering from writer’s cramp. For this purpose, we used surface electromyography to record motor potentials evoked by Transcranial Magnetic Stimulation.We showed a task-dependent change in late inhibitory and disinhibitory components. Compared with abduction task, the LICI induced during precision grip was shorter, suggesting an early disinhibition in more complex task. The disinhibition was followed by a period of facilitation only during the active tasks, i.e. facilitation was not observed when all muscles were at restat rest. However, long interval intracortical facilitation can be observed in a muscle at rest not engaged in an active task if a neighboring muscle is activated. It is therefore likely that mechanisms underlying facilitation are associated with voluntary contraction albeit with lack of topographic specificity. Interaction between LICI and SICI was not modified between tasks, suggesting that it was not involved in task-dependent changes of cortical excitability. Lastly, disinhibition was shown to be delayed in dystonic patients when the FDI was actively engaged in a precision grip but not in index abduction, compared with control subjects. An explanation might be that mechanisms underlying disinhibition are impaired in thumb-index precision grip (a task similar to that inducing unwanted contractions in writer’s cramp). Task-specidic disruption of LICI and late cortical disinhibition may therefore be at least in part responsible for pathophysiology of dystonia. It is likely that during complex task, the efficacy of LICI, and more generally of motor cortex inhibitory mechanisms, is modified to allow adaptation of CM neurons activity to the functional requirements of the motor task being performed.
|
126 |
Avaliação do tratamento de depressão em pacientes com doença de Parkinson através de ressonância magnética funcional / Evaluation of depression treatment in Parkinson\'s disease patients with functional magnetic resonanceCardoso, Ellison Fernando 04 April 2008 (has links)
O circuito neuronal relacionado à depressão na doença de Parkinson (DP), assim como os efeitos da terapia antidepressiva nestes pacientes, não é bem estabelecido. Os métodos de neuroimagem podem levar ao melhor conhecimento da patogênese e também dos mecanismos de ação relacionados a um tipo específico de tratamento. Para avaliar as diferenças da atividade neuronal, comparamos 21 pacientes com DP e diagnóstico de depressão e 16 sem depressão através de ressonância magnética funcional (RMf) em uma tarefa cognitiva que inclui percepção emocional e escolha forçada com duas opções. Estes 21 pacientes deprimidos foram aleatorizados em dois grupos de tratamento por 4 semanas: estimulação magnética transcraniana (EMT) ativa sobre o córtex pré-frontal dorsolateral esquerdo ( 5 Hz EMT - 120% do limiar motor) com pílula placebo e EMT placebo com 20 mg diária de fluoxetina. Os pacientes foram submetidos a um experimento de RMf cujo paradigma foi relacionado a eventos apresentação visual de faces de conteúdo emocional. Os pacientes sem depressão realizaram RMf duas vezes (teste reteste) e os deprimidos quatro vezes (duas vezes antes e duas depois do tratamento). As imagens dos pacientes com DP e depressão demonstraram menor atividade no córtex pré-frontal medial quando comparados aos pacientes com DP sem depressão. Ambos os subgrupos de pacientes com DP e depressão apresentaram melhora significativa e similar dos sintomas da depressão. Após o tratamento com EMT ativa observou-se menor atividade do giro fusiforme esquerdo, do cerebelo e do córtex pré-frontal dorsolateral direito e maior atividade do córtex pré-frontal dorsolateral esquerdo e do cíngulo anterior nas imagens de RMf quando comparados àquelas antes do tratamento. Por outro lado a fluoxetina determinou aumento da atividade do córtex pré-motor direito e do córtex pré-frontal medial direito em imagens de RMf realizadas após o tratamento. Observou-se efeito de interação entre os grupos (tempo (pré x pós) versus tipo de tratamento (fluoxetina x EMT)) no córtex préfrontal medial esquerdo sendo maior o aumento no grupo tratado com EMT. Nossos achados mostraram: 1) padrão diferente de atividade cerebral em pacientes com DP com e sem depressão; 2) efeitos antidepressivos da EMT e da fluoxetina foram semelhantes e significativos;e 3) em pacientes com DP e depressão os efeitos da EMT e fluoxetina são associados a diferentes mudanças da atividade cerebral, e em ambos as áreas encontradas são parte da rede neural relacionada à depressão. / The neural circuitry underlying depression in patients with Parkinson\'s disease (PD) is unknown, let alone the treatment effects of antidepressant therapy. Neuroimaging methods can give insights into the pathogenesis of depression and also in the mechanisms of action related to specific treatment choice. In order to evaluate differences between PD patients with and without concomitant depression we studied 21 patients with PD and depression and 16 PD patients without depression using fMRI. All patients were examined using an event-related fMRI paradigm based on visual presentation of faces with emotional content in a two options forced choice task. Furthermore the twenty-one PD depressed patients were randomized in two active treatment groups for 4 weeks: active rTMS over left dorsolateral prefrontal cortex (5 Hz rTMS - 120% motor threshold) with placebo pill and sham rTMS with fluoxetine 20 mg/day. Event-related fMRI with emotional stimuli was performed before and after treatment - in two sessions (test and re-test) at each time point. The same test-retest approach was adopted in the group of non-depressed PD patients. The analysis showed significant differences between depressed and non-depressed PD patients in the medial pre-frontal cortex, with reduced activation as detected by BOLD effect in the later group. The two groups of depressed PD patients showed a had a significant treatment effect, and with similar mood improvement. After rTMS treatment, there were brain activity decreases in left fusiform gyrus, cerebellum and right dorsolateral prefrontal cortex (DLPFC) and brain activity increases in left DLPFC and anterior cingulate gyrus as compared to baseline. In contrast, after fluoxetine treatment, there was brain activity increases in right premotor and right medial prefrontal cortex. There was a significant interaction effect between groups versus time in the left medial prefrontal cortex, suggesting that the activity in this area changed differently in the two treatment groups. Our findings show that medial prefrontal cortex is a critical area in the depression neural circuitry in PD. Antidepressant effects of rTMS and fluoxetine in PD are associated with changes in different areas of the depression-related neural network.
|
127 |
Efeitos da estimulação magnética transcraniana repetitiva sobre funções cognitivas na lesão axonial difusa: ensaio clínico aleatorizado, duplamente encoberto / Effects of repetitive transcranial magnetic stimulation on the cognitive functions of patients with diffuse axonal injury: a randomized, double-blind clinical trialRibeiro, Iuri Santana Neville 25 July 2018 (has links)
INTRODUÇÃO: O comprometimento cognitivo observado na lesão axonial difusa (LAD) é considerado uma das mais debilitantes sequelas neurológicas nesta população. A estimulação magnética transcraniana (EMT), uma técnica de estimulação encefálica não-invasiva, tem sido utilizada com sucesso no tratamento de doenças neuropsiquiátricas. Os resultados pouco satisfatórios dos tratamentos convencionais dos distúrbios cognitivos vistos no traumatismo cranioencefálico (TCE) motivaram a investigação por novas estratégias terapêuticas, dentre elas a EMT. Entretanto, até o presente momento, não há estudos Sham-controlados investigando os efeitos cognitivos induzidos pela EMT nessa população. Assim, o presente estudo avaliou a segurança, tolerabilidade e eficácia da EMT na reabilitação cognitiva de pacientes com LAD crônica. MÉTODOS: Trata-se de um ensaio clínico prospectivo aleatorizado, duplamente encoberto, que incluiu 37 participantes com o diagnóstico de LAD crônica, em dois grupos de intervenção: Ativo e Sham. A EMT repetitiva (EMTr) de alta frequência (10 Hz) foi aplicada no córtex pré-frontal dorsolateral (CPFDL) esquerdo em um total de 10 sessões, com intensidade de 110% do limiar motor de repouso. Todos os participantes realizaram avaliação neuropsicológica (ANP), composta por sete testes neuropsicológicos [1: TMT Partes A e B; 2: Brief Visuospatial Memory Test (BVMT); 3: Hopkins Verbal Learning Test (HVLT); 4: Grooved Pegboard Test; 5: teste de Fluência Verbal semântica e fonêmica; 6: teste dos Dígitos e 7: teste dos Cinco Pontos], e avaliação da excitabilidade cortical (AEC), por meio da EMT de pulsos simples e pareados, ambas realizadas em três momentos distintos: antes da intervenção (E1 - pré-intervenção), até uma semana (E2 - pós-intervenção precoce) e 90 dias (E3 - pós-intervenção tardio) após o término da EMTr. O participante desconhecia em qual grupo de intervenção havia sido alocado, assim como o avaliador que realizou as ANPs. A medida de desfecho primário foi o escore no Trail Making Test (TMT) Parte B, um teste robusto que avalia funções executivas e atenção. RESULTADOS: Trinta participantes foram submetidos à EMTr e concluíram o seguimento, sendo 17 deles presentes no grupo Ativo e 13 no grupo Sham. Os dados demográficos pesquisados na linha de base, bem como os escores da ANP e valores aferidos na AEC, não foram diferentes entre os grupos. Com relação à performance no TMT Parte B, os tempos medianos aferidos no grupo Ativo foram 141 (100 - 209,5), 85 (67 - 274) e 161 (73 - 223) segundos nos momentos E1, E2 e E3, respectivamente, enquanto que no grupo Sham foram 97 (83 - 269), 70 (60 - 212) e 96 (59,5 - 171,5) segundos. Não houve interação tempo x grupo significativa entre as condições testadas (Ativo vs. Sham) durante os três momentos de avaliação (análise de variância ANOVA; P = 0,450), denotando não ter havido diferença no desempenho do TMT Parte B antes e após o tratamento. Consoante aos resultados do TMT Parte B, as pontuações obtidas nos outros testes incluídos na ANP não demonstraram diferenças em relação aos grupos de intervenção. Não foram observadas mudanças significativas, ou interação entre os grupos nos parâmetros avaliados na AEC. Em uma análise exploratória, observou-se alteração da inibição intracortical de intervalo curto, um dos parâmetros medidos na AEC, na linha de base do estudo em comparação com dados disponíveis na literatura em indivíduos saudáveis, sugerindo a existência de um comprometimento de circuitos corticais inibitórios nos pacientes com LAD crônica. CONCLUSÃO: Apesar de a EMT repetitiva de alta frequência no CPFDL esquerdo ter sido segura e relativamente bem tolerada, os achados deste estudo não forneceram evidências de efeito terapêutico cognitivo desta técnica em pacientes com LAD crônica. A AEC na linha de base demonstrou a presença de alteração da inibição cortical, o que amplia o conhecimento sobre os processos neurofisiológicos envolvidos neste tipo de lesão encefálica. Registro do ensaio clínico no Clinicaltrials.gov - NCT02167971 / INTRODUCTION: Cognitive impairment typically observed in diffuse axonal injury (DAI) is considered one of the main causes of disability in this population. Transcranial magnetic stimulation (TMS), a noninvasive brain stimulation technique, has been successfully used in the treatment of various neuropsychiatric disorders. The mixed results of the conventional treatments used for cognitive rehabilitation motivated the investigation of new therapeutic strategies, such as TMS. However, to the best of our knowledge, there are no sham-controlled studies addressing the cognitive effects induced by TMS in these victims. Thus, the present study aimed to evaluate the safety, tolerability and efficacy of TMS for cognitive rehabilitation in chronic DAI. METHODS: This is a prospective double-blind clinical trial that randomly included 37 participants with the diagnosis of chronic DAI in two intervention groups: Active and Sham. High frequency (10 Hz) repetitive TMS (rTMS) was applied over the left dorsolateral prefrontal cortex (DLPFC) in a total of ten sessions, at 110% intensity of the resting motor threshold. All participants underwent neuropsychological evaluation (NPE) that included 7 different neuropsychological tests [1: TMT Parts A and B; 2: Brief Visuospatial Memory Test (BVMT); 3: Hopkins Verbal Learning Test (HVLT); 4: Grooved Pegboard Test, 5: Controlled Oral Word Association Test; 6: Digit Span Test e 7: Five-Point Test], and cortical excitability assessment (CEA) with single and paired-pulse TMS, both performed at three different times: before the intervention (E1 - preintervention) , up to one week (E2 - early post-intervention) and 90 days (E3 - late post-intervention) after rTMS completion. The participant was unaware of which intervention group had been allocated, as well as the evaluator who carried out the NPEs. The primary outcome measure was the Trail Making Test (TMT) Part B, a robust test that assesses executive functions and attention. RESULTS: Thirty participants underwent rTMS and completed follow-up, 17 of them in the Active group and 13 in the Sham group. The demographic data at the baseline (E1), as well as the NPE scores and CEA values were not different between the groups. Regarding the performance in TMT Part B, the median times measured in the Active group were 141 (100 - 209.5), 85 (67 - 274) and 161 (73 - 223) seconds at evaluations E1, E2 and E3 respectively, while in the Sham group the values were 97 (83 - 269), 70 (60 - 212) and 96 (59.5 - 171.5) seconds. There was no significant interaction between the conditions tested (Active vs Sham) during the three assessments (analysis of variance ANOVA; P = 0.450), indicating that there was no difference in the performance of TMT Part B before and after treatment. As observed in the TMT Part B, no significant differences between the groups were seen in other tests included in NPE. Regarding the CEA, the parameters evaluated showed no time x group interaction. An exploratory analysis at the baseline of the study revealed alteration of short interval intracortical inhibition, one of the variables measured in CEA, when compared with data available in the literature in healthy individuals, suggesting impairment of cortical inhibitory circuits in patients with chronic LAD. CONCLUSION: rTMS was safe and well tolerated in this study. Findings did not provide evidence of therapeutic effect of 10 Hz rTMS over the left DLPFC for cognitive rehabilitation in chronic DAI. Alteration of short interval intracortical inhibition was demonstrated in this population, which expands knowledge about the neurophysiological processes involved in this type of brain injury
|
128 |
Síndrome dolorosa disfuncional em doentes com sensibilidade exteroceptiva assimétrica: caracterização de uma entidade clínica / Dysfunctional pain syndrome in patients with asymmetric exteroceptive sensitivity: characterization of a clinical entityKaziyama, Helena Hideko Seguchi 17 December 2014 (has links)
Proporção significativa dos doentes que preenchem os critérios atuais que caracterizam a síndrome fibromiálgica apresenta dor assimétrica e alterações do exame da sensibilidade distintas dos doentes com a apresentação clássica, \"simétrica\", de fibromialgia (SFM). Denomina-se esta entidade clínica como Síndrome Dolorosa Disfuncional com Sensibilidade Exteroceptiva Assimétrica (SFM-SDDSEA). Este grupo de doentes apresenta particularidades quanto ao resultado do tratamento e impactos negativos na qualidade de vida significativamente distintos daqueles com o quadro de fibromialgia \"clássica\". O presente estudo objetivou analisar aspectos clínicos, psicofísicos e neurofisiológicos de amostra de doentes que preenchem os novos critérios diagnósticos da SFM e que apresentam SFM-SDDSEA comparando-os aos dos doentes com SFM \"clássica\" e aos voluntários saudáveis. Método. Foram incluídas 32 doentes (45,9±8,5 anos) do sexo feminino que preencheram os Critérios para o Diagnóstico de Fibromialgia do Colégio Americano de Reumatologia (CAR) de 2010 e 31 voluntárias saudáveis (43±2 anos). Dezenove doentes apresentavam quadro clínico \"clássica\" da SFM e 13, SFM-SDDSEA (dor assimétrica e definida como EVA com diferença maior que 40% entre os dois dimídios). Foram utilizados para a avaliação: a Escala Visual Analógica (EVA), a Versão Resumida do Questionário de Dor McGill, a Escala Hospitalar de Ansiedade e Depressão (HAD), o Questionário de Impacto de Fibromialgia (QIF), o Inventário Breve de Dor (IBD), os valores dos limiares de dor à pressão nos pontos dolorosos mensurados com o algiômetro de Fischer (PD), o teste quantitativo de sensibilidade (TQS) e a excitabilidade cortical aferida com estimulação magnética transcraniana (EMT). Resultados. Os doentes com SFM-SDDSEA apresentaram maior escores de interferência da dor nas atividades diárias em relação aos com SFM (54,7±8,9 e 37,6±13,5; respectivamente, p < 0,0001) e maior impacto da dor na qualidade de vida em relação a SFM de acordo com o QIF (73,6±13,9 e 58,3±13,9; respectivamente, p < 0,004). Doentes com SFM-SDDSEA apresentaram limiares de dor à pressão assimétrica, sendo mais baixos no hemicorpo onde a dor era mais intensa (27,74±7,90 e 35,86±8,37; respectivamente, p=0,007). Nos doentes do grupo SFM-SDDSEA, os limiares de dor à pressão do lado mais doloroso foram semelhantes aos dos doentes com SFM (27,77±1,25 e 27,74±2,20; respectivamente, p=0,472), ao passo que os limiares no hemicorpo menos doloroso foram significativamente mais elevados do que os de doentes com SFM (35,86±2,32 e 27,77±1,25; respectivamente, p<0,031). Os doentes com SFM-SDDSEA apresentaram valores maiores de facilitação intracortical no hemisfério contralateral ao hemicorpo em que a dor era mais intensa (1,64±1,06 e 3,35±2,31; respectivamente, p=0,008) e maior amplitude de potencial evocado motor (PEM) à 140% do limiar motor (827±996 e 2134±1495; respectivamente, p=0,005). Conclusões. Doentes com SFM-SDDSEA apresentaram maior impacto dos sintomas dolorosos na qualidade de vida e maior interferência nas atividades diárias, alterações da excitabilidade cortical e limiares de evocação de dor frente aos estímulos pressóricos diferentes daqueles com SFM. Estes resultados indicam que a SFM-SDDSEA constitui entidade clínica à parte, com mecanismos de ocorrência de doença, resposta ao tratamento e prognósticos diferentes da SFM \"clássica\" / Aim of Investigation: A significant proportion of patients fulfilling the diagnostic criteria of fibromyalgia syndrome (FMS) present asymmetrical ongoing pain and abnormalities on the physical examination that are not present in patients with \"classical\" symmetric FMS. From the clinical perspective, this condition has been named FMS-Dysfunctional Pain Syndrome with Asymmetrical Exteroceptive Sensibility (DPSAES). Patients with DPSAES usually present higher negative impact in quality of life when compared to the more \"classic\" FMS patients. The present study aimed at characterizing the clinical, psychophysical and neurophysiological aspects of the FMS-DPSAES patients and compared them to those of \"classic\" FMS patients and healthy controls. Methods: Thirty-two patients (45.9±8.5yo) fulfilling the 2010 American College of Rheumatology FMS Diagnostic Criteria and 31 age-matched healthy controls (HC) (43.0±2.1 yo) were included. Nineteen patients had \"classical\" FMS and 13 had FMS-DPSAES (defined as asymmetrical pain with a more than 40% pain intensity difference between body sides). The following tools were used: The Visual Analogic Scale (VAS), the Short Version of the McGill Pain Questionnaire (MPQ), the Fibromyalgia Impact Questionnaire (FIQ), and the Brief Pain Inventory (BPI). The quantitative sensory test battery was performed and included pressure, thermal and mechanical detection and pain thresholds in both hands and suprathreshold stimulations. Cortical excitability measurements were performed in all participants with the transcranial magnetic stimulation. Results: When compared to patients with \"classical\" FMS patients with DPSAES presented higher scores in pain interference in daily activities (54.73±8.90 and 37.66±13.56; respectively; p < 0.0001); higher negative impact in quality of life (73.67±13.90 and 58.38±13.97; respectively, p < 0.004), and lower pressure pain thresholds on the most painful body side (27.74±7.96 and 35.86±8.37; respectively, p=0.007). Cortical excitability parameters were asymmetrical in FMS-DPSAES patients and showed higher intracortical facilitation (3.35±2.31 and 1.64±1.06; respectively, p=0.008) and higher amplitude of motor evoked potentials in the brain hemisphere contralateral to the more painful body side in FMS-DPSAES (2134±1495 and 827±996; respectively; p=0.005). Conclusions: Patients with FMS-DPSAES had higher negative impact in quality of life, distinct cortical excitability profile changes and different pressure pain thresholds compared to patients with \"classical\" FMS. The current evidence suggests that FMS-DPSAES may be a clinical entitiy distinct from FMS with its own mechanisms, response to treatment and prognosis
|
129 |
Barreiras para inclusão de indivíduos com doença cerebrovascular em um ensaio clínico de reabilitação e estimulação magnética transcraniana repetitiva / Barriers for inclusion of patients with stroke in a proof-of-principle study of rehabilitation and repetitive trancranial magnetic stimulationAnjos, Sarah Monteiro dos 10 August 2015 (has links)
INTRODUÇÃO: A recuperação motora é o principal foco dos estudos sobre reabilitação de indivíduos com acidente vascular cerebral (AVC), já que a hemiparesia ocorre em 75% dos casos. No intuito de diminuir o impacto da paresia do membro superior na funcionalidade, diversas modalidades de tratamento têm sido estudadas. O interesse pelo uso de técnicas de neuroestimulação não invasivas, como a estimulação magnética transcraniana repetitiva (EMTr), cresceu de forma acelerada nas últimas décadas. Apesar de cerca de dois terços dos AVCs ocorrerem em países de baixa ou média renda e em desenvolvimento, a maior parte dos estudos sobre o emprego da EMTr na reabilitação após AVC tem sido realizada em países desenvolvidos. Dificuldades de recrutamento são comuns em ensaios clínicos ou estudos de comprovação de conceitos ligados a reabilitação em geral, ou ao uso da EMTr em pacientes com AVC em particular, mesmo em países desenvolvidos. Este trabalho teve como objetivo descrever as barreiras para a inclusão de participantes em um protocolo de reabilitação do membro superior utilizando EMTr em pacientes com AVC, realizado em nosso meio. CASUÍSTICA E MÉTODO: Este estudo foi realizado como parte de um ensaio clínico aleatorizado, controlado e duplo-cego conduzido no Hospital das Clínicas da Universidade de São Paulo. Foi realizada uma avaliação prospectiva da frequência dos motivos de não inclusão de pacientes para um protocolo de tratamento com EMTr de baixa frequência do hemisfério não afetado, em pacientes com paresia da mão após AVC. RESULTADOS: A mediana da idade dos indivíduos triados foi de 63 anos (intervalo, 14-102 anos). Houve leve predomínio do sexo masculino (57%), e 78% dos indivíduos foram considerados brancos. Dos 673 indivíduos triados, foram coletadas informações completas de 571 pacientes. Destes, apenas 32 (5,6%) foram incluídos. O critério de não inclusão mais frequente foi lesão afetando mais que 50% do território da artéria carótida interna (53,4%). As principais razões para exclusão foram AVC recorrente (45,4%), condições clínicas não controladas (17,2%) e presença de contraindicações para a EMT (11,7%). CONCLUSÕES: Considerando que 85% dos AVCs ocorrem nos países em desenvolvimento ou subdesenvolvidos onde a taxa de recorrência é alta, protocolos de reabilitação com critérios de exclusão menos restritivos são necessários para torná-los mais adequados para a população estudada / INTRODUCTION: Considering that hemiparesis occurs in 75% of patients with stroke, motor recovery is the main goal of rehabilitation research protocols. Different modalities of treatment have been developed to minimize the burden of upper limb paresis. The number of studies concerning the use of transcranial magnetic stimulation (TMS) as a potential tool for stroke rehabilitation has grown in the last decades. In spite of the fact that two-thirds of the strokes worldwide occur in low- or middle-income countries, most of TMS stroke rehabilitation studies have been performed in high-income countries. Recruitment barriers are a common issue in clinical trials or proof-of-principle studies related to rehabilitation in patients with stroke, even in developed countries. The main goal of this study was to describe the barriers to participant inclusion in an upper limb rehabilitation protocol with TMS in patients with stroke in Brazil. METHODS: This study was developed as part of a randomized clinical trial conducted at Hospital das Clínicas of the University of São Paulo, Brazil. We analyzed the frequency of reasons for participant non-inclusion in a proof-of-principle rehabilitation trial that applied low-frequency TMS to the non-affected hemisphere of patients that presented hand paresis after stroke. RESULTS: The median age of patients screened for the protocol was 63 years (interval, 14-102 years). Seventy-eight percent of them were White and 57% were male. From the 673 screened patients, complete data were collected from 571 participants but only 32 (5.6%) of them were included. The inclusion criterion that was fulfilled less frequently was a lesion affecting more than 50% of the internal carotid artery territory (53.4%). The three most frequent exclusion criteria were multiple strokes (45.4%), uncontrolled clinical conditions (17.2%) and contraindications to TMS (11.7%). CONCLUSION: Considering that 85% of strokes occur in low- and middle-income countries, where the incidence of recurrent stroke is high, rehabilitation protocols with less stringent exclusion criteria are suggested, in order to make them applicable to more patients
|
130 |
Excitabilidade cortical motora como preditora de resposta na esquizofrenia / Motor cortical excitability as a response prediction in schizophreniaGordon, Pedro Caldana 08 November 2018 (has links)
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
|
Page generated in 0.148 seconds