Global ETD Search

281	Efeitos da estimulação elétrica transcraniana em adultos com transtorno de déficit de atenção/hiperatividade Cachoeira, Carolina Tosetto January 2016 (has links) O transtorno do déficit de atenção e hiperatividade (TDAH) é um transtorno do neurodesenvolvimento e sua prevalência na vida adulta é em torno de 2,5%. O tratamento farmacológico, apesar de efetivo, possui importantes limitações, justificando a busca por outras estratégias terapêuticas. A estimulação elétrica transcraniana (EETC) é uma técnica não invasiva de neuroestimulação que tem apresentado resultados promissores em melhorar o desempenho cognitivo em vários distúrbios neuropsiquiátricos, no entanto, poucos estudos avaliaram a sua eficácia e tolerabilidade no TDAH. Foi realizado um ensaio clínico randomizado, duplo-cego e controlado, com estimulação falsa para avaliar a eficácia da EETC nos sintomas de TDAH. Dezessete adultos com TDAH foram randomizados em dois grupos, nove receberam EETC verdadeira e oito, falsa. No grupo da EETC verdadeira foi aplicada estimulação com intensidade de corrente de 2 mA, durante 20 minutos, em cinco dias consecutivos. O ânodo foi posicionado sobre o córtex pré-frontal dorsolateral (CPFDL) direito e o cátodo sobre o CPFDL esquerdo. O grupo controle recebeu estimulação falsa durante o mesmo período. Os sintomas do TDAH foram mensurados por meio da escala Adult ADHD Self-Report Scale (ASRS) e a incapacidade com a escala Sheehan Disability Scale (SDS). As duas escalas foram aplicadas nos seguintes momentos: antes de iniciar (t0) as estimulações, ao final do protocolo (t1) e uma (t2), duas (t3) e quatro semanas (t4) após a intervenção. Observamos redução, estatisticamente significativa, na pontuação das escalas ASRS desatenção (p = 0,02) e SDS (p = 0,04) entre t0 e t1 após a intervenção em comparação ao grupo controle. Na ASRS total também observamos essa tendência, mas não se mostrou estatisticamente significativa (p = 0,07). Ampliando a análise dos dados observamos interação positiva entre tempo e tratamento na pontuação da ASRS total (p = 0,003), ASRS desatenção (p = 0,0001) e SDS (p = 0,001). Os dados deste estudo apontam que a EETC é eficaz para melhorar a atenção em adultos com TDAH. Contudo, mais pesquisas são necessárias para avaliar a eficácia clínica da ETCC nessa população. / Attention Deficit Hyperactivity Disorder (ADHD) is a neurodevelopmental disorder with 2,5% prevalence in adulthood. Pharmacological treatment, although effective, has important limitations, justifying the search for other therapeutic strategies. Transcranial direct-current stimulation (tDCS) is a non-invasive neurostimulation technique which has show promising results to improve cognitive performance in several neuropsychiatric disorders, nonetheless few studies have evaluated their efficacy and tolerability in ADHD. A randomized, double-blind, sham-controlled trial was conducted to examine the efficacy of tDCS on ADHD symptoms. in adults with ADHD. Seventeen adults with ADHD were randomized into two groups, nine received active EETC eight, false. In the active group was applied EETC with 2mA current intensity, for 20 minutes, in five consecutive days. Anode was positioned on the right dorsolateral prefrontal cortex (DLPFC) and cathode over the left DLPFC. Control group received false stimulation during the same period. ADHD symptoms were measured using the scale Adult ADHD Self-Report Scale (ASRS) and the disability with Sheehan Disability Scale Scale (SDS). Both scales were applied at the following times: before starting the stimulation, the end of the protocol, and one, two and four weeks after the intervention. Subjects in the active group achieved significant reduction in ASRS inattention (p = 0,02) and SDS (p = 0,04) scores after intervention compared to control group. At ASRS total score was also observed this trend, without statistical significance (p = 0.07). Extending data analysis shows there are positive interaction between time and treatment on ASRS total score (p = 0,003), ASRS inattention (p = 0,0001) and SDS (p = 0,001). These data indicate that tDCS is effective to improving attention in adults with ADHD. However, further research is needed to assess the clinical efficacy of tDCS in this population. Attention-deficit/hyperactivity disorder ADHD treatment Adult ADHD Neurostimulation
282	Hemispatial neglect : an evaluation of novel assessment methods and rehabilitation Raghavan, Charumati January 2017 (has links) Hemispatial neglect, is a major cause of post-stroke disability and poor functional recovery. Hence, identifying sensitive methods to assess and rehabilitate neglect is important. Chapters 3 and 4 focused on development of novel assessment techniques for representational neglect. The 'Shopping Mall' and 'Clock Cueing' tasks improved upon previous tests and were useful in identifying dissociations in representational neglect based on type of stimuli (topological, non-topological) and time of assessment (pre-stroke, post-stroke) in chronic stroke patients. Chapters 5 and 6 investigated the efficacy of offline inhibitory repetitive Transcranial Magnetic Stimulation (rTMS) in producing short (&LT;1 month) and long term (>6 months) changes in visual neglect behaviour. Overall, the findings from these chapters were limited due to lack of sufficient power. After controlling for the effect of baseline performance, the Intervention group's Activities of Daily Living scores significantly improved in the short-term post rTMS, as compared to the Control group. The fMRI task attempted to recruit attention-based top down modulation of sensory activity. It revealed relative hypoactivation of the right occipital lobe in the four left neglect patients tested, both pre and post rTMS, when compared to elderly controls. Chapter 7 explored cognitive predictors of spatial and object neglect in the sub-acute stage after controlling for demographic and stroke related factors, using multivariate blocked logistic regressions. Cognitive performance indicative of spatial attention and selective attention to local features predicted both spatial and object neglect. In addition, coding of spatial relations between features also predicted spatial neglect. Suggestions for combining neglect rehabilitation techniques to target these cognitive processes are discussed. Overall, this thesis provides novel methods to improve representational neglect assessment and highlights the importance of ancillary cognitive domains in contributing to both representational and visual neglect. The rTMS research provides study design-related insights to incorporate in future studies with larger patient samples.
283	Estimulação magnética transcraniana em indivíduos com autismo / Transcranial magnetic stimulation on autistic individuals Abujadi, Caio 20 January 2014 (has links) INTRODUÇÃO: O Transtorno do Espectro Autista tem incidência precoce e causas genéticas e ambientais multifatoriais. Gera disfunção no desenvolvimento da linguagem e da sociabilidade e um padrão de comportamento restrito e repetitivo. A formação e o desenvolvimento do sistema nervoso são afetados provocando impacto na arquitetura tecidual, desequilíbrio funcional entre os sistemas excitatórios e inibitórios, além de problemas na conectividade e consistência das redes neurais. O tratamento baseia-se em estimulação multiprofissional precoce e no uso de medicamentos que interferem na sintomatologia impactante do cotidiano. Os comportamentos restritos e repetitivos marcam o perfil funcional do paciente com Transtorno do Espectro Autista e podem interferir diretamente no desenvolvimento da linguagem e na sociabilidade. A mudança do espectro comportamental em razão do amadurecimento cognitivo não impede o desequilíbrio funcional nas atividades da vida diária. Existem indícios de que a função da flexibilidade cognitiva somada à capacidade para gerar novos conceitos e à velocidade de processamento das informações estão afetadas nesses pacientes e podem representar a base fisiopatológica dos Comportamentos Restritos e Repetitivos e suas repercussões no desenvolvimento desses indivíduos. O presente estudo visa avaliar os efeitos da facilitação da transmissão dos impulsos nervosos na função da flexibilidade cognitiva e no comportamento restrito e repetitivo dos pacientes com o diagnóstico de Transtorno do Espectro Autista de alto funcionamento através da Estimulação Magnética Transcraniana de pulsos pareados no Córtex Pré Frontal Ventro Lateral (CPFVL) direito em sua porção antero inferior. MÉTODOS: Trata-se de um estudo experimental com procedimento sistematizado e intervencional realizado com 11 pacientes de 9 a 17 anos, pareados por um perfil cognitivo dentro dos limites da normalidade, que foram submetidos ao protocolo de estimulação com a técnica de \"Theta Burst\" em CPFVL antero inferior à direita em 15 sessões divididas em três semanas. Os pacientes foram testados antes e depois do procedimento. A avaliação da flexibilidade cognitiva, da capacidade de formação de novos conceitos e do tempo cognitivo foram realizada através dos testes Wisconsin Sort Card Test (WSCT) e STROOP, aplicados aos pacientes. Os Comportamentos Restritos e Repetitivos foram avaliados pelos instrumentos Repetitive Behavior Scale - Revised (RBS-r) e Escala de Pensamentos Obsessivos e Comportamentos Compulsivos de Yale Brown (YBOCS) por meio de questionários aplicados aos pais e cuidadores desses pacientes. RESULTADOS: Encontraram-se evidências de mudanças no padrão de inflexibilidade cognitiva, representada pelo WSCT, nos itens Erros Perserverativos (p=0,028) e na Formação de Nível Conceitual (p=0,022). A alteração demonstrada pela Formação de Nível Conceitual pelo WSCT e pelo Total de Tempo para realizar o STROOP test (p=0,001) representam mudança na velocidade de processamento de informações. Constatou-se melhora do Comportamento Restrito e Repetitivo tanto pelo RBS-r (p=0,002) quanto no YBOCS Total de Compulsões (p=0,02). Todas as classes mostraram mudanças significativas: Ordem Inferior (p=0,05), Ordem superior (p=0,028) e Insistência na Mesmice (p=0,014). Houve correlação entre as curvas que representam as mudanças ocorridas no RBS-r e na flexibilidade cognitiva, representada pelo item Respostas Perseverativas (r=0,049). Por se tratar de um piloto, o presente estudo permite o aprofundamento das pesquisas que relacionam esta forma de intervenção descrita ao tratamento do Comportamento Restrito e Repetitivo em pacientes com Transtorno do Espectro Autista / INTRODUTION: The Autism Spectrum Disorder has an early incidence. It has genetic and environment multifactorial causes. Patients present language and social development disability and restricted and repetitive behavior. The maturation and development of the nervous system are damaged. Hence there is a disruption on the tissue architecture, functional imbalance between excitatory and inhibitory systems and connectivity and consistency of neural networks issues. The treatment is grounded on premature multiprofessional stimulation to improve cognition and the medication for mood instability, sleep problems, anxiety, hyperactivity and attention problems. The Restricted and Repetitive Behavior marks the functional profile of the Autism Spectrum Disorder and can hinder the communication and sociability development. The behavior changes with the cognitive maturation but does not prevent from the functional imbalance in daily activities. Evidence revel that the cognitive inflexibility added to the impairment to form new concepts and cognitive tempo can reflect the pathophysiology of these behaviors and its impact on development. The current study aims to valuate changes on cognitive flexibility and restricted and repetitive behavior after the facilitation of impulses through paired pulse Trascranial Magnetic Stimulation (EMT) on right anterior inferior Ventro Lateral Pre Frontal Cortex (VLPFC) in high function Autism Spectrum Disorder individuals. METHODS: It is an experimental study with systemic interventional procedure. Eleven subjects with nine to seventeen years old paired by normal cognitive profile were submitted to the protocol of Theta Burst stimulation on right anterior inferior VLPFC with fifteen sessions divided into three weeks. Subjects were tested before and after the procedure. They were tested for cognitive inflexibility, the ability to form new concepts and the cognitive tempo by the Wisconsin Sort Card (WSCT) test and STROOP test. The restricted and repetitive behaviors were evaluated by Restricted and Repetitive Behavior Scale revised (RBS-r) and Yale Brown Obsessive and Compulsive Scale applied for parents. RESULTS: Evidence of changes on cognitive inflexibility pattern were found items Perseverative Errors (p=0,028) and Conceptual level Response (p=0,022) of the WSCT test. Information processing speed changes were established by the Conceptual level Response of the WSCT and the Total Time to Finish the STROOP test (p=0,001). Improvement on restricted and repetitive behavior were found by changes on total score of RBS-r (p=0,002) and by YBOCS Total of Compulsions (p=0,02). There were changes on all aspects of the repetitive behaviors: Low-Order behavior (p=0,05), High-Order behavior (p=0,028) and Sameness behavior (0,014). Correlation were found between changing curves of cognitive inflexibility represented by Perseverative Response and total score of RBS-r (r=0,049). Since this is a pilot study, our data allows us to suggest that EMT-pp can be efficient for treating restricted and repetitive behavior on Autism Spectrum Disorder. Further controlled studies will be conducted to confirm this hypothesis Autism spectrum disorder Comportamento restrito e repetitivo Estimulação magnética transcraniana Restrited and repetitive behavior Theta burst Theta Burst Transcranial magnetic stimulaction Transtorno autístico/tratamento
284	Associação da ansiedade com inibição intracortical e modulação descendente da dor na síndrome dolorosa miofascial Vidor, Liliane Pinto January 2014 (has links) Introdução: Níveis elevados de ansiedade têm sido associados com intensidade e comportamento da dor em pacientes com dores aguda e crônica. Foi observado, em indíviduos com síndrome dolorosa miofascial (SDM), que o estresse e a ansiedade aumentam a predisposição para o desenvolvimento de pontos-gatilhos miofasciais. Adicionalmente a isto, existe a tendência do indivíduo experimentar emoções negativas em situações de estresse (neuroticismo), característica de personalidade associada ao traço de personalidade, que pode influenciar negativamente na experiência de dor. Indivíduos com alta ansiedade-traço são geralmente hipersensíveis a estímulos e psicologicamente mais reativos. É concebível supôr a coexistência de alteração na excitabilidade cortical, entre dor crônica e ansiedade nestes pacientes. Para melhorar a compreensão dos mecanismos centrais relacionados à ansiedade e à dor crônica, avaliou-se os parâmetros de excitabilidade cortical, usando estimulação magnética transcraniana (EMT), pulso único e pareado. Nossa hipótese é que a excitabilidade corticoespinhal seja modulada pela ansiedade favorecendo a perda de influxo inibitório descendente. Objetivos: O presente estudo teve como objetivo responder a três perguntas relacionadas à síndrome dolorosa miofascial (SDM): 1) A excitabilidade do córtex motor está relacionada com a ansiedade-traço? 2) A ansiedade-traço modula alterações da excitabilidade corticoespinhal, após dor evocada pelo Quantitative Sensory Testing (QST)? 3) A ansiedade-traço prevê resposta à dor evocada pelo QST, se receber simultaneamente um estímulo heterotópico [Conditioned Pain Modulation (CPM)]? Pacientes e métodos: Foram incluídas mulheres com SDM (n = 47) e controles saudáveis (n = 11), com idade entre 19 e 65 anos. A excitabilidade do córtex motor foi avaliada pela EMT, e a ansiedade foi avaliada com base no Inventário de Ansiedade Traço-Estado (IDATE). A incapacidade relacionada à dor foi avaliada pelo perfil da escala de dor crônica para a população brasileira (B:PCP:S), e as medidas psicofísicas da dor foram medidas pelo QST e CPM. Resultados: Nas pacientes, a ansiedade-traço foi positivamente correlacionada com a facilitação intracortical (FIC) no baseline e após a dor evocada pelo QST (β = 0,05 e β = 0,04, respectivamente) e negativamente relacionada com o período de silêncio cortical (PSC) no baseline e após a dor evocada pelo QST (β = -1,17 e β = -1,23, respectivamente) (P <0,05 para todas as comparações). Após dor evocada pelo QST, a incapacidade relacionada à dor crônica foi positivamente correlacionada com a FIC (β = 0,02) (P <0,05). Os escores de dor durante o CPM foram positivamente correlacionados com a ansiedadetraço, quando a incapacidade relacionada à dor crônica foi igualmente alta (β = 0,39, P = 0,02). A excitabilidade cortical das controles saudáveis permaneceu inalterada após o QST. Conclusões: Estes resultados sugerem que, na SDM, o desequilíbrio entre os sistemas excitatórios e inibitórios descendentes do trato corticoespinhal está associado concomitantemente a maiores níveis de ansiedade-traço e maiores níveis de incapacidade funcional ocasionados pela dor crônica. / Background: High levels of anxiety have been associated with the intensity and pain behavior in patients with acute and chronic pain. It was observed that in subjects with myofascial pain (SDM), stress and anxiety syndrome increase the predisposition for the development of myofascial trigger points. In addition to this, there is a tendency of individuals to experience negative emotions in stressful situations (neuroticism), personality characteristic associated with trait personality that may negatively influence in the experience of pain. Individuals with higher trait anxiety are usually hypersensitive to stimuli and more psychologically reactive. It is conceivable to assume the co-existence of change in cortical excitability, chronic pain and anxiety, in these patients. To improve the understanding of the central mechanisms related to anxiety and chronic pain, we assessed cortical excitability parameters by single and paired pulse transcranial magnetic stimulation (TMS). We hypothesize that corticospinal excitability is modulated by anxiety favoring loss of descendent inhibitory influx. Objectives: This study aimed to answer three questions related to chronic myofascial pain syndrome (MPS): 1) Is the motor cortex excitability, as assessed by transcranial magnetic stimulation parameters (TMS), related to state-trait anxiety? 2) Does anxiety modulate corticospinal excitability changes after evoked pain by Quantitative Sensory Testing (QST)? 3) Does the state-trait anxiety predict the response to pain evoked by QST if simultaneously receiving a heterotopic stimulus [Conditional Pain Modulation (CPM)]? Patient and methods: We included females with chronic MPS (n=47) and healthy controls (n=11), aged from 19 to 65 years. Motor cortex excitability was assessed by TMS, and anxiety was assessed based on the State-Trait Anxiety Inventory. The disability related to pain (DRP) was assessed by the Profile of Chronic Pain scale for the Brazilian population (B:PCP:S), and the psychophysical pain measurements were measured by the QST and CPM. Results: In patients, trait-anxiety was positively correlated to intracortical facilitation (ICF) at baseline and after QST evoked pain (β= 0.05 and β= 0.04, respectively) and negatively correlated to the cortical silent period (CSP) (β= -1.17 and β= -1.23, respectively) (P <0.05 for all comparisons). After QST evoked pain, the DRP was positively correlated to ICF (β= 0.02) (P<0.05). Pain scores during CPM were positively correlated with trait-anxiety when it was concurrently with high DRP (β= 0.39; P= 0.02). Controls’cortical excitability remained unchanged after QST. Conclusions: These findings suggest that, in chronic MPS, the imbalance between excitatory and inhibitory descending systems of the corticospinal tract is associated with higher trait-anxiety concurrent with higher DRP. Estimulação magnética transcraniana Ansiedade Dor crônica Transcranial magnetic stimulation Chronic pain Noninvasive brain stimulation Neuromodulation Anxiety Myofascial pain syndrome
285	Mécanismes neurophysiologiques de l'imagerie motrice : effet d'une stimulation somatosensorielle associée / Neurophysiological mechanisms of motor imagery : effects of associated somatosensory stimulation Traverse, Elodie 14 December 2018 (has links) L’entrainement mental (EM) par imagerie motrice (IM), qui consiste à simuler mentalement une action sans production motrice, constitue un stimulus efficace pour l’amélioration de la force maximale volontaire. Si aucun retour afférent sensitif n’est présent au cours d’une tâche d’IM, il n’en reste pas moins qu’une activation du cortex somatosensoriel est reportée. En effet, l’efficacité de l’IM repose en partie sur une interaction entre les voies motrices et les voies sensitives. Ainsi, il apparait raisonnable de penser que l’ajout de retours afférents sensitifs pendant l’IM pourrait potentialiser les effets de cette dernière et donc améliorer la performance motrice. L’objectif de cette thèse était d’analyser les mécanismes nerveux impliqués dans l’imagerie motrice combinée à la stimulation somatosensorielle. Dans notre première étude, nous avons montré que l’ajout d’une stimulation somatosensorielle des afférences Ia pendant une tâche d’imagerie pouvait potentialiser l’excitabilité corticospinale. Notre deuxième étude n’a cependant pas permis de mettre en évidence une meilleure efficacité d’un entrainement en imagerie motrice combinée à la stimulation somatosensorielle comparativement à un entrainement par imagerie motrice ou par stimulation somatosensorielle seules sur la force maximale volontaire. Enfin, notre troisième étude suggère que cette apparente inefficacité de la stimulation somatosensorielle à potentialiser les effets de l’imagerie, pourrait être en partie liée à un conflit entre l’activation du réseau neuronal en imagerie et l’activation de mécanismes corticaux suite aux retours afférents induits par la SS. / Mental training, which involves mentally simulating an action without motor output, is an effective stimulus to improve the maximal voluntary contraction. If only the motor pathway is activated, an activation of the somatosensory cortex is observed despite the lack of afferent feedback. Indeed, the motor imagery task efficiency is based in part on an interaction between motor and sensory pathway. Thus, it’s seems reasonable to think that the addition of sensory afferent feedback during motor imagery could potentiate the motor imagery effects and thus improve motor performance. In our first study, we showed that the addition of somatosensory stimulation of Ia-afferents during a motor imagery task could potentiate corticospinal excitability. Our second study, however, did not show a better efficacy of a mental training combined with somatosensory stimulation compared to a mental training or a somatosensory stimulation training alone on the maximal voluntary contraction. Finally, our third study suggests that this apparent inefficiency of somatosensory stimulation to potentiate the effects of motor imagery may be partly related to a conflict between the activation of the neuronal network in imaging and the activation of cortical mechanisms following the afferents feedbacks induced by the somatosensory stimulation. Imagerie motrice Système Neuromusculaire Stimulation magnétique transcranienne Réflexe H Neurostimulation Entrainement mental Motor imagery Neuromuscular system Transcranial magnetic stimulation H-Reflex Neurostimulation Mental training 612.04 612.8
286	Adaptations fonctionnelles et nerveuses à l'entraînement par vibration locale : du sujet sain à la rééducation / FUNCTIONAL AND NEURAL ADAPTATIONS TO LOCAL VIBRATION TRAINING : FROM HEALTHY SUBJECTS TO REHABILITATION Souron, Robin 08 December 2017 (has links) La recherche de méthodes permettant de lutter contre le déconditionnement neuromusculaire à la suite par exemple d’une opération chirurgicale ou d’une immobilisation prolongée intéresse la communauté scientifique depuis de nombreuses années. Ce projet visait à proposer la technique de vibration locale (LV) comme une méthode alternative aux méthodes classiquement utilisées (e.g. vibration corps entier, stimulation électrique neuromusculaire) pour lutter contre ce déconditionnement neuromusculaire. Le premier objectif de ce travail de thèse était de déterminer les effets d’une application aigüe de LV sur la fonction neuromusculaire des muscles fléchisseurs dorsaux et extenseurs du genou de sujets sains. Nos résultats montrent une modulation de l’excitabilité du système nerveux central en réponse à l’application aigüe de LV, ce qui nous a permis d’envisager de potentielles adaptations si cette technique était utilisée de façon répétée sur plusieurs semaines. Ainsi, la seconde orientation de ce travail était d’évaluer les effets d’une application chronique (entraînement) de LV sur les propriétés fonctionnelles (force, hauteur de saut) et nerveuses (mesurées par stimulation magnétique transcrânienne) de sujets sains, jeunes et âgés. Nos résultats ont montré qu’un entraînement par LV était efficace pour améliorer les capacités fonctionnelles de ces deux populations, ces gains s’accompagnant d’adaptations nerveuses. Ces travaux nous ont alors conduits à la mise en place d’une dernière étude (en cours) à visée clinique, qui évaluait l’efficacité de LV en rééducation post-ligamentoplastie du ligament croisé antérieur du genou. / There is a need to find new methods to limit neuromuscular deconditioning that occurs after a surgery or prolonged immobilization. This thesis aimed to assess local vibration (LV) training as an alternative to methods classically used (e.g. whole body vibration, neuromuscular electrical stimulation) to fight against neuromuscular deconditioning. The first aim of this project was to determine the effects of a 30-min acute exposure to LV on the neuromuscular function of dorsiflexor and knee extensor muscles in a healthy population. Our results showed that acute LV intervention changed central nervous system excitability, allowing us to consider long-term adaptations to prolonged LV. Thus, the second aim of this thesis was to assess the effects of a chronic application (training) of LV on functional (maximal strength, squat jump performance) and neural (assessed with transcranial magnetic stimulation) properties of healthy young and old subjects. Our results showed that 4 to 8 weeks of LV increase functional capacities that were due to neural adaptations. Based on these results, an on-going study assessing the effectiveness of LV during a rehabilitation program for subjects who suffered from anterior cruciate ligament lesion has been proposed. Vibration locale Entrainement Stimulation Magnétique Transcrânienne Electromyographie Fonction neuromusculaire Excitabilité cortico-spinale Rééducation LOCAL VIBRATION TRAINING Transcranial magnetic stimulation Electromyography Neuromuscular function Corticospinal excitability Rehabilitation program
287	Predicted Gain and Functional Gain With Transcranial Routing of Signal Completely-in-the-Canal Hearing Aids Fagelson, Marc A., Noe, Colleen, Murnane, Owen, Blevins, Jennifer S. 01 January 2004 (has links) Transcranial routing of signal (TCROS) was accomplished using completely-in-the-canal (CIC) hearing aids in 5 profoundly unilaterally hearing-impaired individuals. The functional gain realized by the participants far exceeded the gain predicted by measuring the acoustic output and real ear aided response of the hearing aids. The difference between predicted and functional gain increased with signal frequency and was attributed at least in part to mechanical vibration of the hearing aid in the external canal. Implications for fitting unilateral hearing loss using TCROS amplifying systems are discussed. hearing aids CIC hearing aids completely in canal hearing aids functional gain predicted gain transcranial routing Audiology and Speech-Language Pathology Communication Sciences and Disorders Otorhinolaryngologic Diseases Speech Pathology and Audiology
288	Bone Conduction Transmission and Head‐Shadow Effects for Unilateral Hearing Losses Fit with Transcranial Cic Hearing Aids Fagelson, Marc A., Noe, Colleen, Blevins, Jennifer, Murnane, Owen 02 June 2000 (has links) Bone conduction transmission and head‐shadow effects were determined with transcranial completely‐in‐the‐canal (TCCIC) CROS hearing aids. Five subjects with documented profound unilateral hearing loss and experience with traditional CROS/BICROS fittings (TCROS) were tested with a CIC hearing aid placed in their poorer ear. Peak SPL was measured at the tympanic membrane and ranged from 105–115 dB SPL at 2000 Hz. Pure‐tone crossover thresholds and functional gain tested at frequencies from 250–8000 Hz varied considerably more than the SPL measures. The pure‐tone results indicated that sensitivity in the better ear was moderately associated with functional gain across frequency. Speech recognition was then tested in the sound field in two conditions: direct (noise in the poorer ear, speech in the better ear) and indirect (noise in the better ear, speech in the poorer ear) at S/Ns of −6, 0, +6, +12, and quiet. The TCCIC fittings were more effective than TCROS aids across S/Ns, particularly in the direct condition. In the indirect condition, the two fittings performed similarly. When data were pooled across conditions, the TCCIC aids provided better word recognition than the TCROS aids, particularly for those subjects with greater sensitivity in the better ear. audiology bone conduction transmission head-shadow effects hearing aids transcranial CIC hearing aids unilateral hearing loss Audiology and Speech-Language Pathology Communication Sciences and Disorders Otorhinolaryngologic Diseases Speech Pathology and Audiology
289	Number and finger interactions : from the parietal to the motor cortex / Interactions entre les nombres et les doigts : du cortex pariétal au cortex moteur Andres, Michael 23 March 2006 (has links) The observations made in brain-lesioned patients and the result of functional brain imaging studies converge to the hypothesis that the posterior parietal cortex (PPC) is involved in calculation and number processing. However, if numerical disorders generally result from a left parietal lesion, the results of some brain imaging studies suggest that the right PPC could also play a role in number magnitude processing. In order to clarify this question, we used transcranial magnetic stimulation to induce a virtual lesion of the left or right PPC in healthy subjects while they performed number comparison. Our results show that the integrity of the left PPC is a necessary condition for the precise discrimination required during close number comparison; whereas the comparison of far numbers can be performed by either hemisphere as suggested by the fact that this task is affected only by the simultaneous virtual lesion of both hemispheres. In order to better identify which processes underlie the numerical competence of the PPC, we then studied the possible interactions between number processing and visuo-motor functions. Indeed, a meta-analysis performed on functional imaging data revealed that number processing depends on parietal regions, but also on certain premotor areas, which are very close to those involved in the control of finger movements. In a first series of experiments, we thus observed an excitability increase in motor circuits during the enumeration of dots presented on a computer screen. Given that the counting task was performed with both hands at rest, this increase was interpreted as reflecting the mental simulation of pointing movements or sequential finger rising as counting goes on. In a second series of experiments, we showed that information related to number magnitude could interfere with the aperture of the finger grip required to grasp an object. These results suggest that the conformation of the hand to object size shares, with the representation of numbers, common processes for magnitude estimate. In conclusion, our thesis supports the hypothesis that our numerical capacities rely, at least partially, on visuo-motor functions involving the PPC; this could explain why the numerical capacities of the left hemisphere, which is dominant for motor activities, are more precise. / Les observations réalisées chez les patients cérébrolésés ainsi que le résultat des études d'imagerie cérébrale fonctionnelle convergent vers l'hypothèse selon laquelle le cortex pariétal postérieur (CPP) est impliqué dans le traitement des nombres et le calcul. Cependant, si les troubles du calcul résultent le plus souvent d'une lésion pariétale gauche, les résultats de certaines études d'imagerie fonctionnelle suggèrent que le CPP droit pourrait également jouer un rôle dans le traitement de la magnitude des nombres. Afin de clarifier cette question, nous avons utilisé la stimulation magnétique transcrânienne pour induire une lésion virtuelle du CPP gauche ou droit chez des sujets sains réalisant une tâche de comparaison de nombres. Nos résultats montrent que l'intégrité du CPP gauche est une condition nécessaire à la discrimination précise requise lors de la comparaison de nombres proches; la comparaison de nombres éloignés peut, quant à elle, être réalisée par l'un ou l'autre hémisphère comme le suggère le fait que cette tâche n'est affectée que par lésion virtuelle simultanée des deux hémisphères. Afin de mieux appréhender les processus sur lesquels s'appuient les compétences numériques du CPP, nous avons ensuite étudié les interactions possibles entre le traitement des nombres et les fonctions visuo-motrices. En effet, une méta-analyse réalisée sur des données d'imagerie fonctionelle a révélé que le traitement des nombres dépend de régions pariétales, mais également de certaines aires prémotrices, proches de celles impliquées dans le contrôle des mouvements des doigts. Dans une première série d'expériences, nous avons ainsi observé une augmentation de l'excitabilité des circuits moteurs lors du comptage de points présentés sur l'écran d'un ordinateur. Etant donné que la tâche de comptage était réalisée avec les mains au repos, cette augmentation a été interprétée comme le reflet d'une simulation mentale de mouvements de pointage ou d'extension séquentielle des doigts pendant le comptage. Dans une deuxième série d'expériences, nous avons montré que l'information relative à la magnitude des nombres pouvait interférer avec l'ouverture de la pince bidigitale requise pour saisir un objet. Ces résultats suggèrent que la conformation de la main adaptée à la taille des objets partage, avec la représentation des nombres, des processus communs d'estimation de la magnitude. En conclusion, notre travail supporte l'hypothèse selon laquelle nos capacités numériques pourraient, en partie du moins, reposer sur des fonctions visuo-motrices impliquant le CPP ; ceci pourrait expliquer pourquoi les capacités numériques de l'hémisphère gauche, dominant pour les activités motrices, sont plus précises. Contrôle moteur Motor control Doigts Motor areas Aires motrices Fingers Grasping Counting Comptage Préhension Magnitude Hemispheric lateralization Transcranial magnetic stimulation Pariétal Parietal Numbers Nombres
290	Associative plasticity and afferent regulation of corticospinal excitability in uninjured individuals and after incomplete spinal cord injury Roy, Francois D. 11 1900 (has links) Cortical representations are plastic and are allocated based on the proportional use or disuse of a pathway. A steady stream of sensory input maintains the integrity of cortical networks; while in contrast, alterations in afferent activation promote sensorimotor reorganization. After an incomplete spinal cord injury (SCI), damage to the ascending and/or descending pathways induces widespread modifications to the sensorimotor system. Strengthening these spared sensorimotor pathways may be therapeutic by promoting functional recovery after injury. Using a technique called transcranial magnetic stimulation (TMS), we show that the leg motor cortex is facilitated by peripheral sensory inputs via disinhibition and potentiation of excitatory intracortical circuits. Hence, in addition to its crucial role in sensory perception, excitation from peripheral sensory afferents can reinforce muscle activity by engaging, and possibly shaping, the activity of the human motor cortex. After SCI, the amount of excitation produced by afferent stimulation reaching the motor cortex is expectantly reduced and delayed. This reduction of sensory inflow to the motor cortex may contribute to our findings that cortical inhibition is down-regulated after SCI, and this compensation may aid in the recruitment of excitatory networks in the motor cortex as a result of the damage to its output neurons. By repeatedly pairing sensory inputs from a peripheral nerve in the leg with direct cortical activation by TMS, in an intervention called paired associative stimulation, we show that the motor system can be potentiated in both uninjured individuals and after SCI. In the uninjured subjects, we show that in order to produce associative facilitation, the time window required for coincident activation of the motor cortex by TMS and peripheral sensory inputs is not as narrow as previously thought (~100 vs. ~20 ms), likely due to the persistent activation of cortical neurons following activation by TMS. The potential to condition the nervous system with convergent afferent and cortical inputs suggests that paired associative stimulation may serve as a priming tool for motor plasticity and rehabilitation following SCI. plasticity spinal cord injury transcranial magnetic stimulation peripheral nerve stimulation motor cortex sensory input corticospinal tract tibialis anterior muscle intracortical inhibition motor evoked potential human leg

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