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Study of postural, physiological and corticospinal responses in empathy for pain and pain anticipationBucchioni, Giulia 16 December 2015 (has links)
L'empathie nous permet de comprendre et de réagir aux sensations des autres individus. Regarder une situation douloureuse peut induire des comportements de type prosociaux orientés vers les autres ou des réponses d'évitement comme celles enregistrées en réponse à une menace. Le but principal de cette thèse était d'étudier les comportements d'approche/évitement et freezing qui se produisent soit en observant la douleur des autres, soit pendant l'anticipation de la douleur. Deux tâches manipulant la prise de perspective ont permis d'enregistrer des cotations supérieures concernant le niveau de douleur, des temps de réaction inférieurs (expérience 1) et des index de réponses d'évitement plus grands (expérience 2) pour la perspective consistant à imaginer que le sujet représenté dans une condition douloureuse était la personne la plus aimée. Dans la troisième expérience, nous avons analysé le comportement du freezing au niveau du système corticospinal du participant : un effet du freezing spécifique fut rapporté uniquement lorsque de la présentation des stimuli douloureux en perspective du première personne. Dans une quatrième expérience, l'effet du freezing, normalement présent en réponse aux stimuli douloureux fut aussi rapporté dans le cadre de l'anticipation de la douleur pour soi-même. Nos études suggèrent que ce sont principalement les mécanismes cognitifs de prise de perspective qui modulent la réponse empathique et que la perspective de la personne la plus aimée induise la réponse empathique la plus forte. Au contraire les réponses du freezing des modulations corticospinales sont principalement observées lorsque le sujet adopte une perspective en première personne / Empathy allows us to understand and react to other people feelings. Regarding empathy for pain, a witness looking at a painful situation may react to other-oriented and prosocial-altruistic behaviors or self-oriented withdrawal responses. The main aim of this thesis was to study approach/avoidance and freezing behavioral manifestations that co-occurring along with both others’ pain observation and during the anticipation of pain. In two perspective-taking tasks, we investigated the influence of the type of relationship between the witness and the target in pain. Results showed that higher pain ratings, lower reactions times (experiment 1) and greater withdrawal avoidance postural responses (experiment 2) were attributed when participants adopted their most loved person perspective. In experiment 3, we analyzed the freezing behavior in the observer’s corticospinal system while subject was observing painful stimuli in first-and third-person perspectives. Results showed the pain-specific freezing effect only pertained to the first-person perspective condition. An empathy for pain interpretation suggests empathy might represent the anticipation of painful stimulation in oneself. In experiment 4 results, we found that the freezing effect present during a painful electrical stimulation was also present in the anticipation of pain. In conclusion, our studies suggest that cognitive perspective-taking mechanisms mainly modulate the empathic response and the most loved person perspective seems to be prevalent. In addition, more basic pain-specific corticospinal modulations are mainly present in the first-person perspective and it seems to not be referred to the empathy components
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The Effect of Thermal Stimulation on Corticospinal ExcitabilityAnsari, Yekta 21 June 2019 (has links)
This thesis describes a series of experiments to investigate the effect of thermal stimulation on corticospinal excitability using transcranial magnetic stimulation (TMS). Experiment I showed that innocuous cooling or warming of a single digit, produced short-lasting and mixed patterns of modulation only during actual thermal stimulation, with the inhibition being the most common pattern observed. In line with this finding, cooling stimulation applied to a larger area (i.e. multi-digits) produced variable but more sustained modulation in motor evoked potential (MEP) amplitude in the post-cooling phase (Exp II). Notably, the responses to cooling in terms of either suppressed or enhanced corticospinal excitability tended to be fairly consistent in a given individual with repeated applications. When examining possible sources of the observed variable MEP modulation, we found that individual characteristics such as age, sex and changes in skin temperature had no major influences. We hypothesized that the variability of responses might be related to individual differences in the excitability of intra-cortical circuits involved in sensorimotor integration. To test this hypothesis, we performed Experiment III using conditioning TMS paradigms. This experiment revealed that TMS markers of sensorimotor integration (SAI and SAF levels) were good predictors of individual variations in cooling-induced modulation in corticospinal excitability. This provided evidence supporting the role of SAI and SAF as markers to predict individual’s response to focal thermal stimulation. The identification of such predictors could enhance the therapeutic applicability of this form of stimulation in neurorehabilitation. Collectively, these findings advance our understanding of the neurophysiological basis of thermal stimulation and shed light on the development of a more rational application of neurofacilitation techniques based on afferent stimulation in clinical populations, such as stroke survivors.
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Corticospinal Facilitation During Hand Laterality Judgments?Ferron, Lucas January 2017 (has links)
Observing others performing actions is a common way to learn new motor skills. Such ability appears to be linked with one’s ability to imagine actions (motor imagery) (Wang et al. 2014). While motor imagery has been widely used in the context of athletic performance, the same approach has also been advocated in rehabilitation settings, where they often target populations with chronic pain using mobile health applications (de la Vega and Miro 2014). However, we still have very limited information as to how the ability to perform motor imagery addresses this rehabilitation application (Johnson et al. 2012). In the present study, we examined this question by looking at modulation in corticospinal excitability in the context of a motor imagery task. The imagery task itself consisted of judging whether images depicting hands in different postures represented either right or left hands. Based on prior neuroimaging and chronometric studies, such laterality judgments about hand postures are thought to involve mental rotations of one’s own hand (i.e., a form of implicit motor imagery) and thus provided an ideal context to evaluate if advocating such strategy is a valid approach to elicit motor activation in rehabilitation patients (Butson et al. 2014; Goble and Brown 2008; Parsons 1987). To this end, we used non-invasive transcranial magnetic stimulation (TMS) to probe the excitability of the motor system while young healthy participants performed mental rotations in the hand judgment task. Corticospinal excitability was tested in both hemispheres separately (target muscle: first dorsal interosseous) with participants (n=18) seated in front of a computer screen while they performed hand laterality judgments using a commercial set of pictures depicting bare hands in different postures. Excitability was tested also under two other conditions to contrast with variations measured during the hand laterality task, i.e. a mental counting task and a control task (looking at the image of a static foot). In all conditions, TMS (110% resting motor threshold) was set to trigger at ~half of the mean response time in the hand laterality task measured prior to testing with TMS. Comparison of task-related variations in MEP amplitude revealed no significant hemispheric main effect or interaction, although MEPs tended to be larger in general in response to left TMS. A “task condition” effect was observed owing to the large MEP facilitation elicited during the mental counting task, which was significantly different (p<0.001) from either the control “Foot” task or the hand rotation task. In fact, the latter task tended to be associated with MEP depression. A secondary experiment involving a subset of participants (n=6) to examine the influence of image contents (i.e. hand performing actions instead of bare hands) and probing more proximal muscles produced similar results as the main experiment. These results indicate that the general assumption that laterality tasks involving body parts will lead to internal mental rotation and motor activation and enhanced excitability is not necessarily true. In fact, our observations suggest that participants may rely on non-motor strategies based on visual cues when making laterality judgments about body parts. As well, no evidence for hemispheric asymmetry was found with the hand laterality task which is in line with other recent reports. Collectively, these results highlight the need to exert caution when using laterality tasks for rehabilitation purposes. One cannot simply assume that such tasks will translate into motor simulation and facilitation of the motor system. More research should be undertaken before recommending the hand mental rotation task as a viable rehabilitation option for chronic pain.
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“Efeito da emoção no planejamento de ações”Campos, Anaelli Aparecida Nogueira Campos 21 December 2012 (has links)
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Previous issue date: 2012-12-21 / PROQUALI (UFJF) / O objetivo desse estudo foi investigar por meio da estimulação magnética transcraniana
(EMT), se a excitabilidade córtico-espinhal durante a preparação motora é afetada pela
valência emocional de um estímulo com o qual se irá interagir. Além disso, avaliamos
se o efeito da modulação emocional sobre a excitabilidade córtico-espinhal era
específica para o músculo diretamente envolvido na tarefa. Dez participantes foram
orientados a realizar uma tarefa que incluía duas condições: mover (condição AÇÃO)
ou observar (condição NÃO-AÇÃO) objetos com diferentes valências (agradável,
neutro e desagradável). A ordem de apresentação das condições e das valências foi
aleatória, compreendendo quatro blocos, sendo dois de cada condição. O peso de todos
os objetos foi contrabalançado e apresentado dentro de copos transparentes a fim de
uniformizar o tipo de preensão manual que os participantes teriam que utilizar para
segurá-los. O início de cada tentativa foi marcado pela apresentação do estímulo. Dado
a apresentação de cada estímulo, 3s depois um sinal resposta acendia, indicando que o
participante deveria mover ou apenas observar, dependendo da condição experimental.
O pulso de EMT foi aplicado sobre o córtex motor primário em 500 ou 250 ms antes do
sinal resposta, de forma aleatória. O potencial evocado motor (PEM) foi medido através
do registro do sinal eletromiográfico dos músculos: primeiro interósseo dorsal (PID) e
abdutor do dedo mínimo (ADM). Uma ANOVA para medidas repetidas de três fatores
foi utilizada para avaliar o efeito da emoção em cada um dos músculos. Na condição
AÇÃO, a ANOVA revelou uma interação condição x valência (p = 0,003) para o
músculo PID. A amplitude do PEM foi maior para a categoria desagradável, quando
comparado com a neutra e agradável. Além disso, a amplitude do PEM para a categoria
agradável foi menor do que a neutra. Não houve efeito significativo da valência na
condição NÃO-AÇÃO. Um efeito de valência entre as condições também foi
encontrado. A amplitude do PEM para a categoria desagradável foi maior na condição
AÇÃO do que na NÃO-AÇÃO. O contrário ocorreu para a categoria agradável, onde a
amplitude do PEM foi menor na condição AÇÃO, quando comparado com a NÃOAÇÃO.
Para o ADM, não houve efeito significativo entre as categorias emocionais nem
entre as condições (p = 0,76). Concluímos que a atividade preparatória que antecede a
preensão de um estímulo, medida pela excitabilidade córtico-espinhal, é afetada por seu
valor emocional. A modulação emocional sobre a excitabilidade é músculo-específica. / The aim of this study was to examine by means of Transcranial Magnetic Stimulation
(TMS) if the corticospinal excitability (CSE) is affected by the emotional valence of the
stimulus which with one is about to grab. We also examined if effect of emotional
modulation upon CSE is specific to the muscle directly enrolled in the task. Ten
participants were instructed to perform a task with two experimental conditions: to
grasp (ACTION condition) or just to look (NO-ACTION condition) at objects with
different valences (pleasant, neutral and unpleasant). Conditions and valence order were
randomly presented within four blocks. Objects were balanced in weight and placed
inside transparent cups to prompt a similar grip among trials. Trials began with the
stimulus presentation. After stimulus presentation, a go signal was turned on 3 s later
indicating that the participant should move or just observe, depending on the
experimental condition. TMS was applied over the participant primary motor cortex at
500 or 250 ms before the go signal, randomly. Motor evoked potentials (MEP) were
measured by recording the electromyographic signal from first dorsalis interosseous -
FDI and abductor digiti minimi - ADM muscles. Tree-way ANOVA was conducted to
evaluate the emotional effect for each muscle. In ACTION condition, the ANOVA
revealed a condition x valence interaction (p = 0.003) for FDI. The MEP was larger for
unpleasant compared to neutral and pleasant category. Also, MEP amplitude for
pleasant was lower than neutral category. There was no significant effect for FDI in
NO-ACTION condition. Furthermore, a significant valence effect across conditions
(ACTION and NO-ACTION) was also found: higher MEP amplitudes were found for
the unpleasant category in ACTION condition as compared to NON-ACTION
condition. The reverse was true for the pleasant category: lower MEP amplitudes were
found in the ACTION as compared to NON-ACTION condition. For the ADM, there
was neither a significant effect among emotional categories nor across conditions (p =
0.76). In conclusion, we showed here that the preparatory activity preceding the
grasping of a stimulus, as measured by corticospinal excitability, is affected by its
emotional value. In other words, our findings show a muscle specific modulation of
corticospinal excitability during motor preparation depending on the valence of the
stimuli to be grasped.
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Potential Neurophysiological Biomarkers for the Diagnosis of Age-related Neurodegenerative DiseasesMarková, Veronika January 2020 (has links)
The global population with dementia is rapidly increasing around the world.The major risk factor for dementia is aging. There is currently no treatmentavailable and the cost of symptomatic treatment is high. There is a growinginterest in possible clinical applications of non-invasive methods that are safeand easy-to-perform in diagnosis of dementia. The purpose of this paper is toinvestigate the usage of transcranial magnetic stimulation (TMS) withelectroencephalography (EEG) to diagnose dementia in early stages of thedisease. Early diagnosis is needed to reduce the costs of symptomatic care.When investigating the usage of TMS-EEG technology, we will look at how wecan distinguish dementia in different neurodegenerative diseases between eachother. More research is needed to suggest an accurate parameters fordiagnosis of dementia with this type of technology.
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Sprechmotorische Planung bei stotternden Erwachsenen und flüssig sprechenden Kontrollpersonen / Speech dynamics are coded in the left motor cortex in fluent speakers but not in adults who stutterHoang, Thi Ngoc Linh 09 June 2020 (has links)
No description available.
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Monitoração neurofisiológica intraoperatória em tumores de ângulo pontocerebelar: papel de parâmetros distintos na predição do resultado funcional do nervo facial / Intraoperative neurophysiology monitoring for cerebellopontine angle tumors: role of distinctive parameters in predicting the facial nerve functional outcomeVerst, Silvia Mazzali 07 June 2011 (has links)
Nas cirurgias de ressecção de tumores do ângulo pontocerebelar, a preservação do nervo facial está entre os seus principais objetivos. Diversas técnicas neurofisiológicas vêm sendo empregadas com o objetivo de predizer déficit imediato do nervo facial no pós-operatório, como a eletromiografia contínua para registro de atividade neurotônica tipo A, a estimulação direta do nervo facial no sítio tumoral e a estimulação elétrica transcraniana com captação em músculos de face. Analisamos 23 pacientes de forma prospectiva, submetidos à cranectomia retrossigmoide para ressecção de tumores em fossa posterior no período de janeiro de 2008 a março de 2010. Os pacientes foram avaliados clinicamente de acordo com a gradação de House-Brackmann para a função do nervo facial. Foram observadas a ocorrência de atividade neurotônica do tipo A, também chamada de atividade irritativa, a queda da amplitude do potencial motor do nervo facial obtido com a estimulação elétrica transcraniana e o aumento na intensidade do estímulo elétrico da estimulação elétrica transcraniana para a obtenção desse potencial. Esses dados foram relacionados à condição clínica do nervo facial no pós-operatório imediato e na última data de acompanhamento. Observamos que a queda da amplitude do nervo facial acima de 60% do seu valor inicial basal foi a variável mais sensível (89%) e com maior valor preditivo positivo (92%) para a piora clínica do nervo facial. A ocorrência de atividade irritativa isolada foi a variável menos sensível (7%) e com valor preditivo positivo de apenas 25%. O aumento na intensidade da estimulação elétrica transcraniana não mostrou significância estatística (p = 0,287). Concluímos que das variáveis estudadas, a queda na amplitude do potencial evocado motor do 7º nervo craniano acima de 60% foi a melhor na predição de piora clínica imediata do nervo facial / The preservation of facial nerve function is one of the most important goals of the cerebellopontine angle tumor resection surgeries. Valuable neurophysiologic techniques have been used to predict the facial nerve outcome, such as continuous electromyography to identify neurotonic activity type A, direct facial nerve stimulation in the vicinity of the tumor and transcranial motor evoked potential recording in face muscles. We analyzed 23 patients undergoing retrossigmoidectomy approaches for posterior fossa tumor resection between January 2008 and March 2010. Their facial nerve function was evaluated using the House-Brackmann score. We correlated the occurrence of type A neurotonic activity, facial nerve motor evoked potential amplitude obtained with transcranial electrical stimulation and increase in the electric stimulus threshold to the immediate and last follow-up facial nerve outcome. In this series, the increase in electric stimulus threshold showed no statistical significance (p = 0,287). The drop of the facial nerve motor evoked potential amplitude equal or above 60% was the most sensitive (89%) and with the highest positive predictive value (92%) in identifying poor facial nerve outcome. The occurrence of neurotonic activity type A showed to be the least sensitive (7%) and with the poorest positive predictive value (25%) of them. We conclude that among the used parameters, the drop of the final 7º nerve motor evoked potential amplitude equal or above 60% of basal recording was the best one in predicting poor facial nerve outcome
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Avaliação dos efeitos da orientação da bobina de estimulação magnética transcraniana nos potenciais evocados motores do músculo abdutor curto do polegar por eletromiografia de alta densidade / Evaluation of the effects of transcranial magnetic stimulation coil orientation on motor evoked potentials of abductor pollicis brevis by high density electromyographySouza, Victor Hugo de Oliveira e 21 February 2014 (has links)
A estimulação magnética transcraniana (EMT) aplicada com diferentes orientações da bobina causa variações na amplitude e na latência dos potenciais evocados motores (PEM) dos músculos da mão. No entanto, as propriedades dos PEM são afetadas também pelos sistemas de detecção, e.g. localização e tamanho dos eletrodos de aquisição, e pela anatomia do músculo analisado, e.g. arquitetura dos tecidos muscular e adiposo. Neste estudo, verificamos como variam a distribuição espacial, a amplitude pico a pico, a latência, a velocidade de condução da fibra muscular e a frequência mediana do espectro de potência dos PEM em função da orientação da bobina de EMT. Utilizamos uma matriz bidimensional de eletrodos de superfície (grade com 13 linhas e 5 colunas) para aquisição do sinal de eletromiografia de superfície (EMGs) do músculo abdutor curto do polegar (ACP) em oito orientações da bobina de EMT em relação à linha sagital, que conecta o ínio ao násio. Duas abordagens distintas foram adotadas para comparação da amplitude em função da orientação da bobina: na primeira abordagem, calculamos a amplitude pico a pico média dos PEM compreendidos em uma região ativa do músculo localizada espacialmente a partir da matriz de EMGs, na segunda abordagem extraímos a amplitude do PEM no sinal diferencial de dois grupos de eletrodos simulando um sistema de EMGs em configuração bipolar, comumente utilizado nos procedimentos em EMT. Em ambos os métodos, identificamos amplitudes máximas para orientações da bobina em ângulos de 45° e 90°, corroborando os achados da literatura. A latência, frequência mediana e velocidade de condução dos PEM não apresentaram variações significativas com a orientação da bobina. Os mapas de distribuição espacial dos PEM indicam uma atividade muscular localizada na porção distal do músculo ACP para todos os ângulos de aplicação da EMT, demonstrando que os eletrodos convencionais de EMGs podem não estar idealmente localizados sobre a região do músculo ativada pela EMT. Por fim, identificamos que um sistema de neuronavegação pode facilitar a localização da estrutura cerebral a ser estimulada e aumentar a precisão no posicionamento da bobina. Adicionamos uma ferramenta para cálculo da orientação da bobina em função da linha sagital média de cada sujeito ao neuronavegador InVesalius Navigator, a ser utilizado nos próximos experimentos. / Transcranial magnetic stimulation (TMS) pulses with different coil orientations causes changes in amplitudes and latencies of motor evoked potentials (MEP) in muscles of the hand. Nonetheless, the properties of MEP are also affected by the systems of detection, e.g. placement and size of acquisition electrodes; and by the target muscle anatomy, e.g. architecture of fat and muscles tissues. In this study, we assessed the effect of TMS coil orientation on MEP spatial distribution, peak-to-peak amplitude, latency, conduction velocity of muscle fiber and median frequency, from the abductor pollicis brevis (APB) muscle. A grid of electrodes (13 lines and 5 columns) was used to detect the surface electromyography (sEMG) signals from the APB at eight different TMS coil orientations in respect to the midsagital line, connecting the inium and nasium. Two distinct approaches were adopted to compare the amplitude according to the coil orientation: first, we calculated the mean amplitude of MEP in the electrodes of the matrix over an active region of the muscle. Second, we extracted the amplitude of MEP in a single differential signal from two groups of matrix electrodes simulating a conventional sEMG bipolar configuration, commonly used in TMS experiments. In both cases, the maximum MEP amplitudes were induced at coil orientations of 45° and 90°, confirming the past findings in literature. However, we could not identify significant differences in latency, median frequency and conduction velocity of MEP according to different stimulus orientation. Maps of spatial distribution showed a localized muscle activity at the distal portion of the APB muscle for all the coil orientations, indicating that conventional bipolar sEMG electrodes may not be rightly placed over the active portion of the muscle recruited by TMS. Finally, we considered that a neuronavigation system could facilitate the localization of brain internal structures to apply TMS stimulus and improve the accuracy of coil handling and positioning over the stimulation point. Thereafter, we developed a computational tool to the InVesalius Navigator, to track the TMS coil position and orientation in respect to the subjects midsagital line to be used in future experiments.
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The Effects of Click and Tone-Burst Stimulus Parameters on the Vestibular Evoked Myogenic Potential (vemp)Akin, Faith W., Murnane, Owen D., Proffitt, Tina M. 01 October 2003 (has links)
Vestibular evoked myogenic potentials (VEMP) are short latency electromyograms (EMG) evoked by high-level acoustic stimuli and recorded from surface electrodes over the tonically contracted sternocleidomastoid (SCM) muscle and are presumed to originate in the saccule. The present experiments examined the effects of click and tone-burst level and stimulus frequency on the latency, amplitude, and threshold of the VEMP in subjects with normal hearing sensitivity and no history of vestibular disease. VEMPs were recorded in all subjects using 100 dB nHL click stimuli. Most subjects had VEMPs present at 500, 750, and 1000 Hz, and few subjects had VEMPs present at 2000 Hz. The response amplitude of the VEMP increased with click and tone-burst level, whereas VEMP latency was not influenced by the stimulus level. The largest tone-burst-evoked VEMPs and lowest thresholds were obtained at 500 and 750 Hz. VEMP latency was independent of stimulus frequency when tone-burst duration was held constant.
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The Influence of Voluntary Tonic Emg Level on the Vestibular-Evoked Myogenic PotentialAkin, Faith W., Murnane, Owen D., Panus, Peter C., Caruthers, Stacy K., Wilkinson, Amy E., Proffitt, Tina M. 01 May 2004 (has links)
Vestibular-evoked myogenic potentials (VEMPs) are proposed as a reliable test to supplement the current vestibular test battery by providing diagnostic information about saccular and/or inferior vestibular nerve function. VEMPs are short-latency electromyograms (EMGs) evoked by high-level acoustic stimuli and recorded from surface electrodes over the tonically contracted sternocleidomastoid muscle. VEMP amplitude is influenced by the EMG level, which must be controlled. This study examined the ability of subjects to achieve the EMG target levels over a range of target levels typically used during VEMP recordings. In addition, the influence of target EMG level on the latency and amplitude of the click- and tone-evoked VEMP was examined. The VEMP amplitude increased as a function of EMG target level, and the latency remained constant. EMG target levels ranging from 30 microV to 50 microV are suggested for clinical application of the VEMP.
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