Vergleichende Untersuchung der Effekte schwacher transkranieller Gleichstromstimulation in Abhängigkeit von der Händigkeit der Probanden / Comparing modulating effects of transcranial direct current stimulation due to subjects' handedness

Schade, Sebastian

30 September 2014

No description available.

610

hemisphärische Asymmetrie

Händigkeit

Edinburgh Handedness Inventory (EHI)

motorisch evozierte Potentiale

transkranielle Gleichstromstimulation

Hemispheric asymmetry

handedness

Edinburgh Handedness Inventory (EHI)

motor thresholds (MTs)

motor evoked potentials (MEPs)

Steigerung der Effektivität repetitiver Doppelpuls-TMS mit I-Wellen-Periodizität (iTMS) durch individuelle Adaptation des Interpulsintervalls

Sewerin, Sebastian

01 December 2014

Die transkranielle Magnetstimulation (TMS) ist ein nichtinvasives Hirnstimulationsverfahren, mit welchem sowohl die funktionelle Untersuchung umschriebener kortikaler Regionen als auch die Modulation der Erregbarkeit ebendieser sowie die Induktion neuroplastischer Phänomene möglich ist. Sie wurde in der Vergangenheit insbesondere bei der Erforschung des humanen zentralmotorischen Systems angewandt. Dabei zeigte sich, dass ein einzelner über dem primärmotorischen Areal (M1) applizierter TMS-Puls multiple deszendierende Erregungswellen im Kortikospinaltrakt induzieren kann. Von diesen Undulationen besitzt die D-Welle (direkte Welle) die kürzeste Latenz und sie rekurriert auf eine direkte Aktivierung kortikospinaler Neurone, wohingegen I-Wellen (indirekte Wellen) längere Latenzen besitzen und durch transsynaptische Aktivierung dieser Zellen entstehen. Bemerkenswert ist das periodische Auftreten der letztgenannten Erregungswellen mit einer Periodendauer von etwa 1,5 ms. Zwar sind die genauen Mechanismen noch unbekannt, welche der Entstehung dieser I-Wellen sowie dem Phänomen der I-Wellen-Fazilitierung, das sich in geeigneten TMS-Doppelpulsprotokollen offenbart, zugrunde liegen, jedoch existieren hierzu verschiedene Erklärungsmodelle. Im Mittelpunkt der vorliegenden Arbeit steht die repetitive Anwendung eines TMS-Doppelpulsprotokolls, bei dem das Interpulsintervall (IPI) im Bereich der I-Wellen-Periodizität liegt (iTMS) und das gleichsam durch eine Implementierung der I-Wellen-Fazilitierung in der repetitiven TMS charakterisiert ist. Da gezeigt werden konnte, dass iTMS mit einem IPI von 1,5 ms (iTMS_1,5ms) die kortikospinale Erregbarkeit signifikant intra- und postinterventionell zu steigern vermag, und die I-Wellen-Periodizität interindividuellen Schwankungen unterliegt, wurde in der hier vorgestellten Studie an Normalprobanden der Einfluss einer individuellen Anpassung des IPIs (resultierend in der iTMS_adj) auf die intrainterventionelle kortikospinale Erregbarkeit untersucht. In der Tat stellte sich heraus, dass die iTMS_adj der iTMS_1,5ms diesbezüglich überlegen ist. Dieses Ergebnis unterstreicht das Potential einer Individualisierung der interventionellen TMS für erregbarkeitsmodulierende Effekte und macht dasjenige der ohnehin auf physiologische Prozesse abgestimmten iTMS explizit, was insbesondere für klinische Anwendungen relevant sein mag.

transkranielle Magnetstimulation (TMS)

I-Wellen-Periodizität

motorisch evoziertes Potential (MEP)

primärmotorischer Kortex (M1)

kortikospinale Erregbarkeit

Doppelpulsstimulation

transcranial magnetic stimulation (TMS)

I-wave periodicity

motor evoked potential (MEP)

primary motor cortex (M1)

corticospinal excitability

paired-pulse stimulation

ddc:612

Contrôle cortico-spinal des mouvements volontaires du coude

Brohman, Tara

04 1900

Il existe plusieurs théories du contrôle moteur, chacune présumant qu’une différente variable du mouvement est réglée par le cortex moteur. On trouve parmi elles la théorie du modèle interne qui a émis l’hypothèse que le cortex moteur programme la trajectoire du mouvement et l’activité électromyographique (EMG) d’une action motrice. Une autre, appelée l’hypothèse du point d’équilibre, suggère que le cortex moteur établisse et rétablisse des seuils spatiaux; les positions des segments du corps auxquelles les muscles et les réflexes commencent à s’activer. Selon ce dernier, les paramètres du mouvement sont dérivés sans pré-programmation, en fonction de la différence entre la position actuelle et la position seuil des segments du corps. Pour examiner de plus près ces deux théories, nous avons examiné l’effet d’un changement volontaire de l’angle du coude sur les influences cortico-spinales chez des sujets sains en employant la stimulation magnétique transcrânienne (TMS) par-dessus le site du cortex moteur projetant aux motoneurones des muscles du coude. L’état de cette aire du cerveau a été évalué à un angle de flexion du coude activement établi par les sujets, ainsi qu’à un angle d’extension, représentant un déplacement dans le plan horizontal de 100°. L’EMG de deux fléchisseurs du coude (le biceps et le muscle brachio-radial) et de deux extenseurs (les chefs médial et latéral du triceps) a été enregistrée. L’état d’excitabilité des motoneurones peut influer sur les amplitudes des potentiels évoqués moteurs (MEPs) élicitées par la TMS. Deux techniques ont été entreprises dans le but de réduire l’effet de cette variable. La première était une perturbation mécanique qui raccourcissait les muscles à l'étude, produisant ainsi une période de silence EMG. La TMS a été envoyée avec un retard après la perturbation qui entraînait la production du MEP pendant la période de silence. La deuxième technique avait également le but d’équilibrer l’EMG des muscles aux deux angles du coude. Des forces assistantes ont été appliquées au bras par un moteur externe afin de compenser les forces produites par les muscles lorsqu’ils étaient actifs comme agonistes d’un mouvement. Les résultats des deux séries étaient analogues. Un muscle était facilité quand il prenait le rôle d’agoniste d’un mouvement, de manière à ce que les MEPs observés dans le biceps fussent de plus grandes amplitudes quand le coude était à la position de flexion, et ceux obtenus des deux extenseurs étaient plus grands à l’angle d’extension. Les MEPs examinés dans le muscle brachio-radial n'étaient pas significativement différents aux deux emplacements de l’articulation. Ces résultats démontrent que les influences cortico-spinales et l’activité EMG peuvent être dissociées, ce qui permet de conclure que la voie cortico-spinale ne programme pas l’EMG à être générée par les muscles. Ils suggèrent aussi que le système cortico-spinal établit les seuils spatiaux d’activation des muscles lorsqu’un segment se déplace d’une position à une autre. Cette idée suggère que des déficiences dans le contrôle des seuils spatiaux soient à la base de certains troubles moteurs d’origines neurologiques tels que l’hypotonie et la spasticité. / According to a dominant theory, the motor cortex is directly involved in pre-programming motor outcome in terms of movement trajectories and electromyographic (EMG) patterns. In contrast, the equilibrium point theory suggests that the motor cortex sets and resets the spatial thresholds, i.e., the positions of body segments at which muscles and reflexes begin to act. Movement parameters thereby emerge without pre-programming, depending on the difference between the actual and the threshold position of the body segments. To choose between these two theories of motor control, we investigated corticospinal influences associated with voluntary changes in elbow joint angle in healthy individuals using transcranial magnetic stimulation (TMS) of the brain site projecting to motoneurons of the elbow muscles. In order to minimize the influence of motoneuronal excitability on the evaluation of corticospinal influences, motor evoked potentials (MEPs) elicited by TMS were obtained during the EMG silent period produced by a brief muscle shortening prior to the TMS pulse. MEPs were obtained at a flexion and an extension elbow angle actively established by subjects. MEPs were recorded from 2 elbow flexors (biceps and brachioradialis) and 2 extensors (medial and lateral heads of triceps). Flexor MEP amplitude was bigger at the elbow flexion position in the case of the biceps and extensor MEPs were bigger at the extension position in both extensors studied (reciprocal pattern). MEPs observed in the brachioradialis did not differ at the two elbow orientations. A similar difference in corticospinal influences at the two elbow positions was often preserved when the tonic activity of elbow muscles was equalized by compensating the passive muscle forces at the two positions with a torque motor. Thus, corticospinal influences and EMG activity were de-correlated and it can be concluded that the corticospinal system is not involved in pre-determining the magnitude of motor commands to muscles. Results suggest that the corticospinal system resets the spatial thresholds for muscle activation when segments move from one position to another. This implies that deficits in spatial threshold control may underlie different neurological motor problems (e.g., hypotonia and spasticity).

cortex moteur

contrôle moteur

stimulation magnétique transcrânienne

TMS

potentiel évoqué moteur

MEP

hypothèse du point d’équilibre

motor cortex

motor control

transcranial magnetic stimulation

equilibrium point hypothesis

motor evoked potential

Évaluation systématique des effets de la tDCS sur le DLPFC et applications en technologies de l'information

Dumont, Laurence

08 1900

No description available.

Neuropsychologie

évaluation cognitive

validation de traduction

cortex dorsolatéral préfrontal

fonctions exécutives

technologies de l'information

Neuropsychology

Cognitive evaluation

Translation validation

Dorsolateral prefrontal cortex

Transcranial direct current stimulation

Executive functions

Information systems

Using of transcranial direct-current stimulation during motor task for a better outcome / Coupler tâche motrice et stimulation transcranienne à courant continu pour un meilleur résultat

Besson, Pierre

30 November 2017

De tout temps, les humains ont cherché différents moyens pour améliorer leur quotidien. Avec les avancées technologiques actuelles, cette quête s’en trouve facilitée, notamment dans la volonté d’accroître leurs capacités cognitives et/ou motrices. La neuro imagerie permet dorénavant de renseigner les aires cérébrales activées lors de différentes tâches fonctionnelles. Il est aussi possible de moduler l’activité cérébrale en stimulant localement le cerveau avec de faibles courants électriques. Une des techniques les plus répandues à cet effet est appelée tDCS pour transcranial direct current stimulation. Il s’agit en fonction de la polarité du courant induit de moduler à la hausse (stimulation anodale) ou à la baisse (stimulation cathodale) l’excitabilité cortico-spinale en dépolarisant ou en hyperpolarisant la membrane des neurones, respectivement. Malgré une démocratisation grandissante de la neuromodulation via tDCS, les résultats rapportés par la communauté scientifique sont relativement hétérogènes. Les travaux initiés au début des années 2000 sont remis en cause par des résultats actuels faisant état d’une variabilité inter et intra individuelle assez importante. Cette pierre d’achoppement nécessite de développer de nouveaux protocoles d’application de la tDCS. Dans cette thèse, nous avons étudié plusieurs modalités d’application de la tDCS afin d’accroître la persistance des effets neuroplastiques induits et d’augmenter les performances comportementales. Deux études ont été menées afin de révéler dans un premier temps les apports induits par le couplage tâche motrice-tDCS pour ensuite mettre en avant les effets cumulatifs de la répétition de sessions de tâche motrice-tDCS avec pré conditionnement sur la performance motrice. La première étude à travers l’utilisation de la spectroscopie dans le proche infrarouge a permis de rapporter des changements hémodynamiques distincts subséquents au couplage tâche motrice-tDCS par rapport à des protocoles tDCS plus conventionnels. La primauté de l’utilisation concomitante de la tDCS à la tâche motrice a été révélée par la moindre activation du cortex sensorimoteur durant la stimulation ainsi que par une activation cérébrale retardée accrue qui pourrait représenter une réorganisation neuroplastique. La seconde étude s’est intéressée aux effets de la polarité du conditionnement lors de sessions répétées avec comme objectif d’améliorer l’apprentissage et la rétention du système sensorimoteur. Le conditionnement par tDCS était plus propice lors de sessions répétées à engendrer des performances motrices supérieures contrairement à la condition sham. La polarité cathodale engendrait une persistance prolongée. Les premiers résultats de ces travaux de thèse ont permis de défendre l’usage concomitant de la tDCS avec la tâche motrice. De futures recherches sont nécessaires afin d’étudier le transfert de ces résultats dans le monde de l’entraînement ainsi que celui de la réhabilitation. / Historically, humans have sought various ways to improve their daily lives. With the current technological advances, this quest is facilitated, especially in the desire to increase their cognitive and / or motor skills. Neuro imagery now makes it possible to inform the areas activated during different functional tasks. Today, it is now possible to modulate brain activity by stimulating the brain locally with weak electrical currents. One of the most common techniques for this purpose is called tDCS for transcranial direct current stimulation. The polarity of the induced current (anodal or cathodal stimulation) allows to modulate upward or downward cortico-spinal excitability by depolarizing or hyperpolarizing the membrane of the neurons, respectively. Despite a growing interest of neuromodulation techniques via tDCS, the results reported by the scientific community are relatively heterogeneous. The work initiated at the beginning of the 2000s is called into question by current results showing a rather large inter and intra variability. This stumbling block requires the development of new protocols for the application of anodal tDCS (atDCS). In this thesis, we were interested in optimizing atDCS protocols in order to increase the persistence of the induced-neuroplastic effects and to increase the behavioral performances. Two studies were carried out in order to first reveal the impact from the motor task/atDCS coupling and then to highlight the cumulative effects of multiple motor-tDCS task sessions with priming atDCS on motor performance. The first study through the use of near infrared spectroscopy allowed to report various hemodynamic changes subsequent to the motor task/atDCS coupling with respect to independent and controlled stimulation protocols. The primacy of the concomitant use of tDCS with the motor task was revealed by the slightest activation of the sensorimotor cortex during stimulation and by an increased delayed cerebral activation which could represent a neuroplastic reorganization. The second study examined the effects of repeated atDCS sessions with anoadal or cathodal tDCS priming in order to improve the learning and retention gains of the sensorimotor system. TDCS priming was more favorable for repeated atDCS sessions to generate higher motor performances contrary to sham. The cathodal polarity produced prolonged persistence. The major findings of this work allow to support the concomitant use of atDCS with the motor task. Future research is needed to study the transfer of these results into the fields of coaching and rehabilitation.

Optimisation

Couplage fonctionnel tâche-TDCS

Conditionnement

Répétition

Spectroscopie dans le proche infra-Rouge

Optimisation

Functional targeting

Priming

Repetition

Transcranial direct current stimulation (tDCS) for improving capacity in activities and arm function after stroke: a network meta-analysis of randomised controlled trials

Elsner, Bernhard, Kwakkel, Gert, Kugler, Joachim, Mehrholz, Jan

06 June 2018

Background: Transcranial Direct Current Stimulation (tDCS) is an emerging approach for improving capacity in activities of daily living (ADL) and upper limb function after stroke. However, it remains unclear what type of tDCS stimulation is most effective. Our aim was to give an overview of the evidence network regarding the efficacy and safety of tDCS and to estimate the effectiveness of the different stimulation types. Methods: We performed a systematic review of randomised trials using network meta-analysis (NMA), searching the following databases until 5 July 2016: Cochrane Central Register of Controlled Trials (CENTRAL), MEDLINE, EMBASE, CINAHL, AMED, Web of Science, and four other databases. We included studies with adult people with stroke. We compared any kind of active tDCS (anodal, cathodal, or dual, that is applying anodal and cathodal tDCS concurrently) regarding improvement of our primary outcome of ADL capacity, versus control, after stroke. PROSPERO ID: CRD42016042055. Results: We included 26 studies with 754 participants. Our NMA showed evidence of an effect of cathodal tDCS in improving our primary outcome, that of ADL capacity (standardized mean difference, SMD = 0.42; 95% CI 0.14 to 0.70). tDCS did not improve our secondary outcome, that of arm function, measured by the Fugl-Meyer upperextremity assessment (FM-UE). There was no difference in safety between tDCS and its control interventions, measured by the number of dropouts and adverse events. Conclusion: Comparing different forms of tDCS shows that cathodal tDCS is the most promising treatment option to improve ADL capacity in people with stroke.

Schlaganfall

Wiederherstellung der Funktion

transkranielle Gleichstromstimulation

Review

Meta-Analyse

TU Dresden

Publikationsfond

Stroke

Recovery of function

Transcranial direct current stimulation

Review

Meta-analysis

TU Dresden

Publishing Fund

ddc:610

rvk:XA 10000

Efeito de técnicas de neuromodulação sobre parâmetros bioquímicos e neurofisiológicos em pacientes com dor crônica musculoesquelética

Medeiros, Liciane Fernandes

January 2014

A dor crônica musculoesquelética é um importante problema de saúde pública, pois, além de ter alta prevalência, suas consequências são nefastas à condição física, psicológica e comportamental, levando ao afastamento do trabalho e aposentadoria precoce. Considerando que quadros de dor crônica são relacionados a alterações biológicas em importantes sistemas endógenos, a busca de biomarcadores sistêmicos interrelacionados com este processo podeser útil para o entendimento dos possíveis efeitos terapêuticos e adversos de técnicas de neuromodulacão, tanto centrais quanto periféricas. Baseado nisto, o objetivo principal deste estudo foi avaliar o efeito dos tratamentos com estimulação magnética transcraniana repetitiva (rTMS) e eletroestimulação intramuscular (DIMST) na intensidade da dor e em parâmetros bioquímicos e neurofisiológicos em pacientes com dor crônica musculoesquelética,e, secundariamente, buscar possíveis biomarcadores em quadros de dor crônica musculoesquelética. Este estudo foi dividido em dois experimentos. No experimento 1, comparou-se o efeito das técnicas de neuromodulação periférica (DIMST) e central (rTMS) sobre os parâmetros de excitabilidade cortical e níveis séricos de BDNF, S100β, citocinas e parâmetros de estresse oxidativo em pacientes com SDM. Foram recrutadas 46 mulheres, com idade entre 19 e 75 anos e diagnóstico de síndrome dolorosa miofascial (SDM). Trata-se de um ensaio clínico randomizado, cego, em paralelo, controlado com placebo-sham. As pacientes foram randomizadas em 4 grupos: (1) rTMS+DIMST, (2) rTMS +sham-DIMST, (3) sham-rTMS+DIMST e (4) sham-rTMS + sham-DIMST. No experimento 2, avaliou-se parâmetros neurofisiológicos de excitabilidade cortical e níveis séricos de BDNF como marcadores de dor crônica musculoesquelética. Foram recrutadas 72 mulheres, com idade entre 19 e 75 anos e diagnóstico de osteoartrite (OA) e SDM. Os parâmetros mensurados foram: dor pela escala análogo-visual (EAV), limiar de dor por algometria (PPT) e excitabilidade cortical pelo TMS. No experimento 1, as pacientes mostrarem-se iguais entre os grupos no basal. Houve uma redução na dor mensurada pela EAV nos grupos 1, 2 e 3 em relação ao grupo 4. O parâmetro de excitabilidade, potencial evocado motor (MEP), apresentou um aumento de amplitude ao final da intervenção 2. Não foram observadas mudanças nos parâmetros bioquímicos analisados durante e ao final das intervenções, seja entre as intervenções e dentro das intervenções. No experimento 2, observou-se que o PPT apresenta uma correlação positiva com inibição intracortical (ICI) e negativa com a facilitação intracortical (ICF). As pacientes com SDM apresentam o período silente (CSP) mais longo que pacientes com OA. O BDNF e estradiol apresentam relação positiva com PPT; no entanto, quando foi avaliada a interação destes fatores, o efeito sobre o PPT foi em direção oposta. Em resumo, os tratamentos ativos, central e/ou periférico, mostraram-se eficazes no alívio da dor, porém, dentre os parâmetros bioquímicos analisados, não se observouum biomarcador responsivo a estas técnicas. Sugere-se uma relação entre dor crônica musculoesquelética e alterações na excitabilidade cortical do córtex motor. Além disto, é importante ressaltar que estes tratamentos não alteraram nenhum dos parâmetros de avaliação de dano celular, como, por exemplo, o aumento de proteína glial (S100β), sugerindo que são técnicas seguras no que se refere aos parâmetros avaliados nesta tese. Posteriores estudos são necessários buscando novos biomarcadores que permitam um melhor diagnóstico, prognóstico e avaliação da resposta ao tratamento com técnicas de neuromodulação na dor crônica musculoesquelética. / Chronic musculoskeletal pain is a major public health problem with high prevalence, because, besides its high prevalences, its consequences are harmful to the physical, psychological and behavioral condition, leading to absence from work and early retirement. Taking into account that chronic pain processes are related to biological changes in endogenous systems, searching systemic biomarkers interconnected with this process can be useful to understand the potential therapeutic and adverse effects of the neuromodulation techniques, both central and peripheral. Based on that, the aim of this study was to evaluate the effect of treatment with repetitive transcranial magnetic stimulation (rTMS) and intramuscular electrical stimulation (DIMST) on pain intensity, biochemical and neurophysiological parameters in chronic musculoskeletal pain patients. Secondly, the aim was to find possible biomarkers in chronic musculoskeletal pain conditions. This study was divided into two protocols. Protocol 1, it was compared the effect of central (rTMS) and peripheral (DIMST) neuromodulation techniques on pain intensity, cortical excitability parameters and serum levels of BDNF, S100β, cytokines and oxidative stress parameters in patients with myofascial pain syndrome (MPS.) Fourty women, aged between 19 and 75 years, MPS diagnosis were recruited. This is a randomized, blind, parallel, placebo - sham clinical trial. The patients were randomized into four groups: (1) rTMS + DIMST, (2) rTMS + sham-DIMST, (3) sham-rTMS + DIMST, and (4) sham-rTMS + sham-DIMST. Protocol 2, we assessed the neurophysiological parameters of cortical excitability and BDNF serum levels as markers of chronic musculoskeletal pain. Seventy-two women, aged between 19 and 75 years diagnosed with osteoarthritis (OA) and MPS were recruited. The measured parameters were: pain intensity by visual analogue scale (VAS), pain pressure threshold (PPT) and cortical excitability by TMS. In protocol 1, the patients presented similarities in the baseline between the four groups. The patients presented a reduction in painintensity measured by VAS in the groups 1, 2 and 3 in relation to group 4. After rTMS intervention, there was an increase in the MEP amplitude. There were no changes in biochemical parameters analyzed during and after the interventions. In protocol 2, it was observed that PPT has a positive correlation with intracortical inhibition (ICI) and negative correlation with intracortical facilitation (ICF). Patients with MPS exhibit longer silent period (CSP) than OA patients. BDNF and estradiol serum levels presented a positive correlation with PPT; however, when their interaction was assessed, the effect on the PPT was in the opposite direction. In summary, the active, central and/ or peripheral treatments were effective in relieving the pain; however, among the biochemical parameters analyzed, there was no biomarker responsive to these techniques. It is suggested a relationship between chronic musculoskeletal pain and changes in cortical excitability of the motor cortex. Furthermore, it is important to note that these treatments did not alter any of the parameters of cellular damage assessment, such as the increase of glial protein (S100β), suggesting that they are safe as to the parameters evaluated in these techniques. Further studies are needed to find new biomarkers that allow better diagnosis, prognosis and assessment of treatment response with neuromodulation techniques in chronic musculoskeletal pain.

Dor crônica

Dor musculoesquelética

Síndromes da dor miofascial

Biomarcadores

Terapia por estimulação elétrica

Estimulação magnética transcraniana

Citocinas

Musculoskeletal pain

Myofascial pain syndrome

BDNF

Cytokines

Transcranial magnetic stimulation

Deep intramuscular stimulation therapy

Integração visuomotora em ações interceptativas:mecanismos cerebrais e influência da memória de curto prazo e da expectativa / Visuomotor integration in interceptive actions: neural mechanisms and influence of short-term memory and expectation

Raymundo Machado de Azevedo Neto

01 August 2017

Muitas das interações que temos com o ambiente envolvem situações dinâmicas. Raramente estas situações são realizadas de maneira isolada. Em ações interceptativas, por exemplo, o sistema nervoso precisa estimar quando um alvo irá atingir uma determinada posição e constantemente ajustar os movimentos para diferentes contextos. Apesar de estudos psicofísicos terem investigado possíveis variáveis ópticas e modulações do contexto envolvidas na integração visuomotora, pouca atenção foi direcionada para compreender os mecanismos cerebrais da integração de informação visual de movimento e ações motoras em cenários dinâmicos. O objetivo geral desta tese foi investigar estes mecanismos e entender como o contexto modula a atividade cerebral em ações interceptativas em adultos jovens saudáveis. No primeiro experimento, foram investigadas quais áreas estão associadas com a integração entre informação visual de movimento e ação motora sincronizatória. Foi utilizado desenho relacionado à eventos em ressonância magnética funcional avaliando a atividade cerebral em tarefa de timing coincidente. Foi identificada uma rede fronto-parietal bilateral dorsal e ativação bilateral do braço ascendente do sulco temporal inferior, região funcionalmente definida como hV5+, e giro angular. No segundo experimento, foi testada a influência causal da área hV5+ e córtex pré-motor dorsal no viés comportamental que tentativa prévia exerce sobre a tentativa atual usando estimulação magnética transcraniana. Os resultados deste experimento sugerem que o efeito da tentativa prévia depende fortemente de um mecanismo de memória de curto prazo implícito no córtex pré-motor dorsal e moderadamente da área hV5+. No terceiro experimento, o objetivo foi verificar o efeito da repetição e expectativa de repetição da velocidade do estímulo nas áreas associadas com ações interceptativas. Para isso, os participantes interceptaram pares de alvos móveis com velocidade igual ou diferente em experimento relacionado à eventos em ressonância magnética funcional. A expectativa sobre a repetição da velocidade do estímulo foi manipulada pela probabilidade de repetição da velocidade do alvo em diferentes blocos. Os resultados comportamentais indicaram que a velocidade do primeiro estímulo enviesou o erro temporal dos participantes para responder ao segundo estímulo e que a manipulação da expectativa dos participantes não resultou em diferença no erro temporal. Não houve modulação da amplitude do sinal BOLD pela repetição do estímulo ou pela manipulação da expectativa sobre a repetição de velocidade. No quarto experimento, foram investigados os mecanismos cerebrais que permitem que a expectativa influencie o comportamento em uma tarefa de timing coincidente. Para isso, a expectativa sobre a velocidade do alvo foi manipulada a cada tentativa por meio de dicas em um experimento relacionado à eventos em ressonância magnética funcional. Os resultados deste experimento mostraram que a expectativa sobre a velocidade do alvo aumenta o sinal BOLD para expectativa válida em hV5+ e córtex pré-motor dorsal. Em geral, os resultados desta tese mostram que a integração visuomotora em ações interceptativas está associada com atividade em uma rede fronto-parietal dorsal e da área hV5+. Destas áreas, foi verificado que o córtex pré-motor dorsal e área hV5+ tem papel de armazenar informação da tentativa prévia que enviesa o comportamento na tentativa atual. Por fim, foi mostrado que a expectativa sobre a velocidade do alvo modula o sinal BOLD em áreas iniciais do processamento sensorial e de planejamento motor. Estes resultados avançam o conhecimento sobre os mecanismos neurais associados à integração visuomotora em ações interceptativas e mostram como o contexto em que a tarefa é realizada modula essa integração / Many of our interactions with the environment happen in dynamic situations. These situations are rarely experienced in isolation. In interceptive actions, for example, the nervous system needs to estimate when a target will arrive at a certain position and constantly adjust movements for different contexts. Although psychophysical studies have investigated the putative optical variables and contextual modulations in visuomotor integration, less attention has been devoted to understand brain mechanisms underlying the integration of visual motion information and motor actions in dynamic scenarios. The main goal of the present thesis was to investigate the brain mechanisms involved in visuomotor integration of interceptive actions in healthy young adults. In the first experiment, it was investigated which brain areas are associated with integration of visual motion information and timed motor action in an event-related functional magnetic resonance imaging experiment. Results showed greater BOLD signal in a bilateral dorsal fronto-parietal network, as well as hV5+ and angular gyrus. In the second experiment, it was tested the causal influence of area hV5+ and dorsal premotor cortex on the behavioral bias that previous trial exerts on the current trial using transcranial magnetic stimulation. The results of this experiment provide causal evidence that the previous trial effect is mediated to a large extent by an implicit shortterm memory mechanism in the dorsal premotor cortex, and to a lesser extent by hV5 +, in a visuomotor integration task with moving objects. In the third experiment, the goal was to verify the effect of repetition and expectation about repetition of speed in brain areas associated with visuomotor integration in interceptive actions. To that end, participants intercepted pairs of moving targets with either same or different speed in an event-related functional magnetic resonance experiment. Expectation about speed repetition of target speed was manipulated through the probability of speed repetition in different blocks. Behavioral results indicate that speed from the first stimulus biased participants\' temporal error for the second stimulus. However, manipulation of participants\' expectation did not affect temporal error. In addition, BOLD signal amplitude was modulated by neither stimulus speed repetition nor expectation. In the forth experiment, brain mechanisms that allow expectation to influence behavior in a coincident timing task were investigated. Participant\'s expectation about target speed was manipulated on a trial-by-trial basis by means of cues in an event-related functional magnetic resonance experiment. The results of this experiment showed that expectation about target speed increases BOLD signal for valid expectations in hV5+ and dorsal premotor cortex. Overall, the results in this thesis show that visuomotor integration in interceptive actions is associated with activity in a dorsal fronto-parietal network and hV5+. In addition, it was verified that dorsal premotor cortex and hV5+ have a role in storing information from previous trial that bias behavior on the current trial. Lastly, it was shown that expectation about upcoming target speed modulates BOLD signal in early stage visual motion processing as well as motor planning areas. These results advance knowledge about the brain mechanisms associated with visuomotor integration in interceptive actions and show how context modulates this integration process

Estimulação magnética transcraniana

Expectativa

Informação visual de movimento

Integração visuomotora

Memória de curto prazo implícita

Ressonância magnética funcional

Expectation

Functional magnetic ressonance imaging

Implicit short-term memory

Transcranial magnetic stimulation

Visual motion information

Visuomotor integration

Estimula??o transcraniana por corrente cont?nua e a flutua??o de for?a em idosas durante exerc?cio isom?trico / Stimulation transcranial direct current and the fluctuation of force during isometric exercise in older women

Melo, Gertrudes Nunes de

28 February 2013

Made available in DSpace on 2014-12-17T14:44:17Z (GMT). No. of bitstreams: 1 GertrudesNM_DISSERT.pdf: 3164686 bytes, checksum: e4de9859908d8c6840498816188878f8 (MD5) Previous issue date: 2013-02-28 / The fluctuacion force has been increasingly used in studies with elderly as a good predictor of performance and functionality of the motor. However, most analyzes the fluctuation of force in one session. Thus, identifying the minimum amount of sessions needed for familiarization with the fluctuation strength in isometric exercise become relevant. Furthermore, to investigate the effects of applying transcranial direct current stimulation (tDCS) associated with regular exercise on rates fluctuation task force is extremely important. In the first experiment, volunteers were subjected to a protocol marked by a familiarization session to establish the parameters of VCM and eight sessions with intensity of 30% MVC in office. It was observed that two familiarization sessions are required so there is a fluctuation stabilizing force. In experiment II, subjects performed an isometric contraction before and after applying tDCS (cathode, anode and sham) applied to M1. ETCC anodic effectively contributed to reducing the fluctuation of force during isometric exercise in the elderly, while the cathodic caused the increased levels of strength fluctuation. It was concluded that there is a need to implement a familiarization protocol with at least two sessions to avoid possible misunderstandings of measurements in tests of fluctuacion force. Besides that tDCS interfered with the behavior of the oscillations of force, with cathodic promoting increased fluctuation strength and anodic contributed to greater stability, demonstrating the potential of this technique neuromodulation associated with exercise as rehabilitation tools / A flutua??o de for?a tem sido cada vez mais utilizada em estudos com idosos como um bom preditor de desempenho e funcionalidade da motricidade. No entanto, a maioria analisa a flutua??o de for?a em sess?o ?nica. Assim, identificar a quantidade de sess?es m?nimas necess?rias para a familiariza??o ao teste de flutua??o de for?a em exerc?cio isom?trico tornar-se pertinente. Al?m disso, investigar os efeitos da aplica??o da Estimula??o Transcraniana por Corrente Cont?nua (ETCC) associada ? pr?tica regular de exerc?cio sobre os ?ndices de flutua??o de for?a ? tarefa de extrema relev?ncia. No experimento I, volunt?rias foram submetidas a um protocolo de familiariza??o marcado por uma sess?o para estabelecer os par?metros de CVM e oito sess?es com intensidade de 30%CVM em exerc?cio. Observou-se que duas sess?es de familiariza??o s?o necess?rias para que haja uma estabiliza??o da flutua??o de for?a. No experimento II, volunt?rias realizaram uma contra??o isom?trica antes e ap?s a aplica??o de ETCC (cat?dica, an?dica e sham) aplicada ao M1. ETCC an?dica contribuiu efetivamente para a redu??o da flutua??o de for?a em idosos durante exerc?cio isom?trico, enquanto que a cat?dica provocou o aumento dos ?ndices de flutua??o de for?a. Concluiu-se que h? a necessidade de aplica??o de um protocolo de familiariza??o com pelo menos duas sess?es para que sejam evitados equ?vocos de mensura??es em testes de avalia??o da flutua??o de for?a. Al?m de que a ETCC interferiu no comportamento das oscila??es de for?a, com cat?dica promovendo aumento da flutua??o de for?a e a an?dica contribuiu para uma maior estabilidade, demonstrando o potencial dessa t?cnica de neuromodula??o associada ao exerc?cio como ferramentas de reabilita??o

CNPQ::CIENCIAS DA SAUDE::EDUCACAO FISICA

Neuromodulace v léčbě vybraných dystonických syndromů / Neuromodulation in treatment of selected dystonic syndromes

Havránková, Petra

January 2011

Dystonia is a neurological syndrome characterized by the involuntary contraction of opposing muscles, causing twisting movements or abnormal postures (modified by Fahn, 1987). Writer's cramp is the most common form of task-specific focal dystonia. In the first study, patients with writer's cramp were evaluated for differences in cortical activation during movements likely to induce cramps (complex movements) and movements which rarely lead to dystonia (simple movements). Although complex patient movements during fMRI were never associated with dystonic cramps, they exhibited abnormally decreased cortical activity. This was not observed in simple movements and was unrelated to the character of handwriting or the presence/absence of visual feedback. Our results support the theory of dualistic sensorimotor system behavior in writer's cramp. As the somatosensory system is believed to be affected in focal dystonia, we focused on modulation of the primary somatosensory cortex (SI) induced by repetitive transcranial magnetic stimulation (rTMS) in the second study, in order to improve writer's cramp. In conclusion, 1 Hz rTMS of the SI cortex can improve manifestations of writer's cramp while increasing cortical activity in both hemispheres. Handwriting as well as subjective assessment improved in most...