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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
131

Alterações metabólicas cerebrais associadas aos fatores de risco cardiovascular: um estudo de tomografia por emissão de pósitron (PET) / Abnormalities on brain metabolism associated to cardiovascular risk factors: a positron emission tomography (PET) study

Jaqueline Hatsuko Tamashiro-Duran 05 December 2011 (has links)
INTRODUÇÃO: Os fatores de risco cardiovascular (FRCV) afetam o fluxo sanguíneo cerebral, contribuindo possivelmente para o declínio cognitivo e a emergência da Doença de Alzheimer (DA), a forma mais comum de demência. A tomografia por emissão de pósitrons (positron emission tomography, PET) com fluordesoxiglucose F18 (18F-FDG) é largamente usada para demonstrar o padrão específico de metabolismo cerebral de glicose reduzido em sujeitos com DA e em indivíduos não-demenciados portadores do alelo e4 da apolipoproteína E (APOE e4), o maior fator de risco genético para DA. Entretanto, estudos de PET investigando o impacto dos FRCV no metabolismo cerebral são escassos. OBJETIVO: Examinar se níveis diferentes de FRCV estariam associados com reduções na taxa de metabolismo cerebral de glicose (TMCG), envolvendo as regiões cerebrais afetadas nos estágios iniciais da DA (pré-cúneo e giro do cíngulo posterior, neocórtex parieto-temporal lateral e região hipocampal). MÉTODOS: Nós avaliamos 59 indivíduos cognitivamente preservados (66-75 anos) subdivididos em três grupos de acordo com seu escore para Framingham Coronary Heart Disease Risk (FCHDR) (alto-risco, médio-risco e baixo-risco) para os exames de ressonância magnética (RM) e de PET-FDG. Dados de PET foram corrigidos para os efeitos de volume parcial a fim de evitar efeitos confundidores devido à atrofia cerebral regional. Nós realizamos uma análise de covariância global (ANCOVA) para investigar as reduções de TMCG em associação com os três grupos, comparações entre dois grupos para as diferenças de TMCG pelo teste-t, e índices de correlação linear voxel-a-voxel entre os valores de TMCG e escores FCHDR. Todas as análises incluíram a presença ou a ausência do APOE e4 como covariada confundidora de interesse. RESULTADOS: A investigação ANCOVA de diferenças de TMCG entre os três grupos mostraram significantes diferenças de TMCG somente no giro parahipocampal direito (p=0,032). Nas comparações entre dois grupos, reduções de TMCG significantes foram detectadas no grupo de altorisco comparado ao baixo-risco no pré-cúneo esquerdo (p=0,008) e o giro do cíngulo posterior esquerdo (p=0,007). Focos inesperados de reduções de TMCG no grupo baixo-risco comparado ao grupo alto-risco no giro parahipocampal foram detectados em ambos os hemisférios direito (p=0,001) e esquerdo (p=0,045). Havia também uma significante correlação linear positiva entre valores de TMCG e escores FCHDR no giro parahipocampal em ambos os lados direito (p=0,007) e esquerdo (p=0,025). CONCLUSÃO: Depois de controlar para a presença do APOE 4, nossos achados de hipofunção cerebral regional relacionado a FRCV mantiveram a significância estatística no pré-cúneo e no giro do cíngulo posterior, as duas regiões cerebrais onde comprometimentos funcionais são os mais consistentemente detectados nos estágios incipientes da DA. Isso sugere que os achados de hipometabolismo cerebral similares àqueles vistos nos sujeitos com DA podem ser vistos em associação com a gravidade de FRCV em amostras de indivíduos cognitivamente preservados. Uma possível explicação para o hipermetabolismo relativo no giro parahipocampal nos indivíduos com elevados FRCV seria um viés na seleção da amostra. É possível que nós tenhamos excluídos os sujeitos com os níveis mais graves de risco cardiovascular que teriam exibido os padrões de reduções de TMCG no giro parahipocampal, forçando a seleção de indivíduos que estão para o alto risco cardiovascular, mas que são capazes de exibir mecanismos compensatórios para manter o funcionamento metabólico adequado para as regiões temporolímbicas, as quais são vulneráveis às mudanças microvasculares / INTRODUCTION: Cardiovascular risk factors (CVRF) are known to affect cerebral blood flow, possibly contributing to cognitive decline and to the emergence of Alzheimers disease (AD), the commonest form of dementia. Positron emission tomography (PET) with 18-fluoro-2-deoxyglucose (18FFDG) has been widely used to demonstrate specific patterns of reduced brain glucose metabolism in AD subjects and in non-demented individuals carriers of the apolipoprotein e4 allele (APOE e4), the major genetic risk factor for DA. However, PET studies investigating the impact of CVRF on cerebral metabolism have been scarce to date. OBJECTIVE: To examine whether different levels of CVRF would be associated with cerebral metabolic rate of glucose (CMRgl) reductions, involving brain regions affected in early stages of DA (precuneus and posterior cingulate gyrus, lateral temporalparietal neocortices and hippocampal region). METHODS: We assessed 59 cognitively preserved individuals (66-75 years), subdivided into three groups according to their Framingham Coronary Heart Disease Risk (FCHDR) score (high-risk, medium-risk, and low-risk), both with magnetic resonance imaging (MRI) and FDG-PET scans. PET data were corrected for partial volume effects to avoid confounding effects due to regional brain atrophy. We performed an overall analysis of covariance (ANCOVA) to investigate CMRgl reductions in association with the three groups, two-group comparisons of CMRgl differences by t-tests, and voxelwise linear correlation indices between CMRgl values and FCHDR scores. All analysis included the presence or absence of the APOE 4 allele as a confounding covariate of interest. RESULTS: The ANCOVA investigation of CMRgl differences across the three groups showed significant CMRgl differences only in the right parahippocampal gyrus (p=0.032). In the two-group comparisons, significant CMRgl reductions were detected in the high-risk group compared to the lowrisk group in the left precuneus (p=0.008); and the left posterior cingulate gyrus (p=0.007). Unexpected foci of CMRgl reductions in the low-risk compared to the high-risk group in the parahippocampal gyrus were detected, both on the right (p=0.001) and left (p=0.045) hemispheres. There was also a significant positive linear correlation between CMRgl values and FCHDR scores in the parahippocampal gyrus both for the right (p=0.007) and left (p=0.025) sides. CONCLUSION: After controlling for the presence of the APOE 4 allele, our findings of CVRF-related regional brain hypofunction retained statistical significance in the precuneus and posterior cingulate gyrus, the two brain regions where functional impairments are most consistently detected in incipient stages of AD. This suggests that findings of brain hypometabolism similar to those seen in AD subjects can be seen in association with the severity of CVRF in samples of cognitively preserved individuals. One possible explanation for the relative hypermetabolism in the parahippocampal gyrus in high CVRF individuals would be a bias in the sample selection. It is possible that we have excluded subjects with severest levels of cardiovascular risk who would have displayed patterns of reduced CMRgl in the parahippocampal gyrus, forcing the selection of individuals who are at high cardiovascular risk but are capable of displaying compensatory mechanisms to maintain adequate metabolic functioning in temporolimbic regions vulnerable to microvascular changes
132

Studium vlivu akustických podnětů na člověka / Study of the influence of acoustic stimuli on man

Schwanzer, Miroslav January 2012 (has links)
The thesis deals with EEG signals, their description, methods of quantitative analysis and the processes in time-frequency domains, or power spectrums. The relationsheep between brain electrical activity and acustic stimuli (Mozart´s “Sonata K448”) was studied using EEG analysis in relation to sound impulses from replayed extracts of. The proposed experiment protocol included recording of EEG of volunteers. In order to visualize and analyze the data, the software with the graphic user interface was created, which enables topological mapping of brain activity and its vizualization in the time-frequency domain.
133

Mapping the anatomo-functional organization of human sensorimotor system : a multi-modal approach / Cartographie de l'organisation anatomo-fonctionnelle du système sensorimoteur chez l'homme : une approche multimodale

Beuriat, Pierre-Aurélien 04 November 2019 (has links)
Le but de cette thèse était d'étudier l'organisation anatomo-fonctionnelle du système sensorimoteur humain et la façon dont les mouvements volontaires sont produits et contrôlés. Avec le développement de l’imagerie cérébrale, des méthodes de corrélation anatomo-clinique et de stimulation électrique directe cérébrale, de nombreuses avancées scientifiques ont pu être réalisée. Ces trois approches complémentaires ont été utilisé dans cette thèse afin d’améliorer la compréhension de l’organisation sensorimotrice cérébrale. Dans la première étude (soumise à publication), nous avons montré que la chirurgie cérébrale éveillée utilisant la stimulation électrique directe est une procédure sûre et efficace chez les enfants afin de réduire le déficit neurologique postopératoire. L'approche améliore la précision de la détection des zones éloquentes, avec une bonne tolérance neuropsychologique et psychologique. Une évaluation psychologique et neuropsychologique est essentielle. Dans une deuxième série de deux études, nous avons montré que la partie dorso-postérieure dorsal du cortex pariétal (DPPr) est une structure clé dans l'organisation complexe du mouvement manuel fin chez l'homme à travers la mise en oeuvre d'une boucle sensori-parieto-motrice.La première étude (publiée, Current Biology 2018) montre que la stimulation électrique directe d’une region corticale focale dans la partie dorso-postérieure du cortex pariétal entraine l’inhibition de la production du mouvement manuel, c’est-à-dire bloque l'initiation et la réalisation de ce dernier, sans produire de contraction musculaire ni de sensation consciente de mouvement. Dans la seconde étude (en cours de soumission), nous avions pour objectif d'identifier précisément les bases anatomiques du circuit parietal inhibiteur précédemment décrit. Grâce à la tractographie de diffusion (DTI), nous avons réussi à isoler des projections ipsilatérales spécifiques reliant les sites d’inhibition du DPPr, retrouvés dans la première étude, avec la zones dévolues au contrôle distal fin dans les cortex primaires moteur (M1) et sensoriel (S1). Ces données montrent que la boucle pariétale inhibitrice est directe depuis S1 vers DPPr vers M1 (même s'il n'est pas possible d'exclure l'existence d'échanges bidirectionnels entre ces aires). Dans la dernière étude (en cours de soumission), nous nous sommes intéressé à une structure motrice fondamentale, qui supporte 50 % des invasions tumorales chez l'enfant : le cervelet. Il s'agissait de déterminer si les lésions précoces étaient oui ou non prédictives d'une récupération déficitaire à long terme après prise en compte des covariables les plus critiques. Nous avons mesuré la récupération fonctionnelle à long terme chez 3 groupes survivants de lésion de la fosse postérieure. Les 3 groupes étaient comparables en ce qui concerne leurs caractéristiques tumorales mais opérés à différents âges : jeune (≤ 7 ans), moyen (> 7 ans et ≤ 13 ans) et tardif (> 13 ans). La qualité de vie (échelles cliniques : Health-related Quality of Life -hrQol- et Performance Status -PS-), les performances motrices (ataxie -ICARS- et motricité fine -Pegboard-) et cognitif (quotient intellectuel -FSIQ-) furent mesurés. L'âge précoce lors de la chirurgie, une lésion des noyaux profonds cérébelleux et la nécessité d'une radiothérapie postopératoire révélèrent une influence significativement négative et indépendante sur la récupération à long terme des participants. Ces résultats confirment l'existence d'une période critique de développement au cours de laquelle la "machine à apprendre" cérébelleuse revêt une importance cruciale / The aim of the thesis was to investigate the mapping of the anatomofunctional organization of the human sensorimotor system and how volutional movements of human are produced and controlled. Neuroimaging and especially DTI, fine anatomo-functional observation in patient and direct electrical stimulation were considered. This multi-modal approach permitted to improve our understanding of sensorimotor organization in humans. In the first study, we showed that awake brain surgery with the use of direct electrical stimulation is a safe and efficient procedure in children in order to decrease post-operative neurological deficit. It improves the accuracy of detecting eloquent area, with a good tolerance from a neuropsychological and psychological aspect. Age-adapted neuropsychologic preparation may enable offering ABS even to younger children on an individual basis. In a second series of two studies, we showed that the dorso-posterior part of the parietal cortex is a key structure in the complex organization of movement in human with a S1-DPPr-M1 loop. In the first study, direct electrical stimulation of focal cortical site in the dorso-posterior part of the parietal cortex triggered inhibition of movement production and blocked ongoing movement without producing muscle contraction or conscious movement sensation. In the second study, we aimed to find a direct projection from the PRR, defined in the first study (Desmurget et al., 2018), to the primary motor cortex and the primary somatosensory cortex. Thanks to the DTI state-of-the-art tractography, we succeeded in finding such major ipsilateral streamlines projecting in the well-known hand knob region giving new insights of the white matter structures involved in the inhibition of volitional hand movements. These observations confirm clinical per-operative data showing that stimulating the counterpart of PRR in humans can disrupt hand movements ipsilaterally, irrespective of the hemisphere. Moreover, our results shed light on the implication of the PRR for the volitional hand sensorimotor operating behavior. In the last study, we investigate the impact of early cerebellar damage on long-term functional recovery in 3 groups of posterior fossa survivors, comparable with respect to their tumoural characteristics but operated at different ages: young (≤ 7 years), middle (> 7 years and ≤ 13 years) and old (> 13 years). Daily (Health-related Quality of Life -hrQol-, Performance Status -PS-), motor (International Cooperative Ataxia Rating Scale -ICARS-, Pegboard Purdue Test -PegBoard-) and cognitive (Full Scale Intelligence Quotient -FSIQ-) functioning were measured. Early age at surgery, lesion of deep cerebellar nuclei and post-operative radiotherapy had a significant, independent negative influence on long term recovery. These results support the existence of an early critical period of development during which the cerebellar "learning machine" is of critical importance
134

A Novel Methodology for Timely Brain Formations of 3D Spatial Information with Application to Visually Impaired Navigation

Manganas, Spyridon 06 September 2019 (has links)
No description available.
135

Gender differences in the neural underpinning of perceiving and appreciating the beauty of the body

Cazzato, Valentina, Mele, S., Urgesi, C. 07 February 2014 (has links)
Although previous studies have suggested a certain degree of right hemisphere dominance for the response of extrastriate body area (EBA) during body perception, recent evidence suggests that this functional lateralization may differ between men and women. It is unknown, however, whether and how gender differences in body perception affect appreciating the beauty of the body of conspecifics. Here, we applied five 10-Hz repetitive transcranial magnetic stimulation (rTMS) pulses over left and right EBA and over the vertex to investigate the contribution of visual body representations in the two hemispheres on esthetic body perception. Female and male healthy volunteers were requested to judge how much they liked opposite- and same-gender virtual model bodies or to judge their weight, thus allowing us to compare the effects of right- and left-EBA rTMS on esthetic (liking) and perceptual (weight) judgments of human bodies. The analysis of the esthetic judgments provided by women revealed that right-EBA rTMS increased the liking judgments of opposite- but not same-gender models, as compared to both vertex and left EBA stimulation. Conversely, in men the liking judgments of opposite-gender models decreased after virtual disruption of both right and left EBA as compared to vertex stimulation. Crucially, no significant effect was found for the perceptual task, showing that left- and right-EBA rTMS did not affect weight perception. Our results provide evidence of gender difference in the hemispheric asymmetry of EBA in the esthetic processing of human bodies, with women showing stronger right hemisphere dominance in comparison with men.
136

Specialized and independent processing of orientation and shape in visual field maps LO1 and LO2

Silson, E.H., McKeefry, Declan J., Rodgers, J., Gouws, A.D., Hymers, M., Morland, A.B. January 2013 (has links)
No / We identified human visual field maps, LO1 and LO2, in object-selective lateral occipital cortex. Using transcranial magnetic stimulation (TMS), we assessed the functions of these maps in the perception of orientation and shape. TMS of LO1 disrupted orientation, but not shape, discrimination, whereas TMS of LO2 disrupted shape, but not orientation, discrimination. This double dissociation suggests that specialized and independent processing of different visual attributes occurs in LO1 and LO2.
137

Ativação cerebral associada à memória episódica verbal no transtorno obsessivo-compulsivo por meio de ressonância magnética funcional / Brain activation associated with verbal episodic memory in obsessivecompulsive disorder using magnetic resonance imaging

Batistuzzo, Marcelo Camargo 19 February 2014 (has links)
O transtorno obsessivo-compulsivo (TOC) é um transtorno psiquiátrico que acomete cerca de 1 a 3,1% das pessoas ao longo da vida. Embora o seu modelo neurobiológico ainda não esteja completamente estabelecido, inúmeras evidências apontam para áreas relacionadas ao circuito córtico-estriado-pálido-talâmico-cortical (CEPTC). Em especial, o córtex órbito-frontal (COF) é uma região que desempenha um papel fundamental dentro da hipótese fisiopatológica do TOC. Paralelamente, esta região já foi associada, em sujeitos saudáveis, com a habilidade de utilização espontânea da estratégia de agrupamento semântico na memorização de palavras - o que facilita sua evocação posterior. Ao mesmo tempo, estudos neuropsicológicos evidenciaram que pacientes com TOC apresentam déficits na memória episódica verbal (MEV) e que tais déficits poderiam ser mediados por dificuldades em funções executivas ligadas ao planejamento, como utilização de estratégias. Portanto, para testar a hipótese de que há diferenças no correlato neural da codificação da MEV entre pacientes com TOC e controles saudáveis, foi utilizado um teste neuropsicológico adaptado para ressonância magnética funcional (RMf): o paradigma tinha apresentação em bloco. O objetivo do presente estudo foi investigar a etapa de codificação da MEV e a capacidade de agrupamento semântico espontâneo em crianças e adolescentes com TOC. Assim, o paradigma foi constituído por duas listas de palavras: uma, semanticamente relacionada (SR), na qual as palavras eram divididas em categorias semânticas e outra, não relacionada (NR), na qual não havia relação aparente entre as palavras. O contraste de maior interesse do estudo foi a diferença entre essas duas condições (SR > NR). O nível de agrupamento semântico foi quantificado por um índice semântico. Os grupos foram formados por 25 crianças e adolescentes com TOC e 25 controles saudáveis, pareados por sexo, idade, escolaridade, preferência manual e QI. Embora os grupos estivessem pareados por essas características, eles se diferiram em sintomas clínicos, tais como sintomas de depressão, ansiedade e necessidade de rotina por parte da criança/adolescente. Os resultados comportamentais do teste de MEV mostraram que os grupos não se diferenciaram: ambos evocaram a mesma quantidade de palavras e não apresentaram diferenças no índice semântico. Apesar disso, a comparação entre os grupos - controlada para variáveis clínicas - revelou menor ativação (sinal BOLD) nos pacientes em diversas regiões cerebrais: frontais, parietais e occipito-temporais. Por outro lado, a análise de interação psicofisiológica (PPI) revelou que os pacientes apresentaram um aumento da conectividade do COF com regiões temporais em relação aos controles. Isso ocorreu para três das quatro regiões de interesse que foram posicionadas no COF: lateral e medial de ambos os hemisférios. Além disso, o grupo de pacientes apresentou uma correlação positiva entre o índice semântico e o efeito BOLD no COF, o que não ocorreu para o grupo controle. Esses resultados indicam diferenças no funcionamento cerebral de crianças e adolescentes com TOC tanto em regiões que estão dentro do modelo neurobiológico proposto para o TOC (circuito CEPTC), como fora dele também. De acordo com os resultados do presente estudo, as diferenças de ativação e de conectividade poderiam ser consideradas como um déficit latente, uma vez que ambos os grupos apresentaram o mesmo desempenho no paradigma / The obsessive-compulsive disorder (OCD) is a psychiatric disorder that affects 1-3.1% of the general population (lifetime rate). Although its neurobiological model has not been completely establish, numerous evidences indicate that areas of the cortico-striatalpale- thalamic-cortical (CSPTC) circuit are engaged in the disease. In particular, the orbitofrontal cortex (OFC) is a region that plays a key role in the pathophysiological hypothesis of OCD. In parallel to this, in healthy controls this region has been associated with the ability of using spontaneous strategies of semantic clustering at the encoding of related words - in a way that facilitates the posterior retrieval of these words. At the same time, neuropsychological studies showed that OCD patients present verbal episodic memory (VEM) deficits, and that these deficits could be mediated by executive dysfunction - like planing and utilization of strategies. Thus, to investigate the hypothesis that there are differences at the neural correlates of VEM encoding between children and adolescents with OCD and healthy controls, we used a blocked design functional Magnetic Resonance Imaging (fMRI) paradigm to evaluate both groups. The main objective of the study was to investigate the VEM encoding and the ability to spontaneously organize words according to their semantic categories. In order to do this, the fMRI paradigm consisted of two kinds of word lists: a semantically related list (SR), in which words were divided into semantic categories and a unrelated list (UR), were there was no apparent relationship between the words. However, the contrast of most interest of this study, was the difference between the conditions (\'SR > UR\'). The semantic clustering level was quantified by a semantic clustering index. Groups were constituted by 25 children and adolescents with OCD and 25 healthy controls paired by gender, age, educational level, handedness and IQ. Although both groups were matched for these characteristics, they differed in clinical symptoms such as depression, anxiety and routines. Behavioral results showed that the groups were similar in terms of retrieved words and semantic index. Nevertheless, the comparison between groups - controlled for clinical variables - showed less activation (BOLD signal) in patients in several brain regions: frontal, parietal and occipito-temporal. On the other hand, the psychophysiological interaction analysis (PPI) revealed that patients have had an increase in the OFC connectivity with the temporal regions. This has occurred in three of the four regions of interest that were placed in the OFC: lateral and medial of both hemispheres. Also, the patients showed a positive correlation between the semantic index and the BOLD effect in the OFC, which was not observed in the control group. These results suggest that there are differences in brain functioning of children and adolescents with OCD in regions that are inside/outside of the neurobiological model for OCD (CSPTC circuit). In accordance with the present results, these differences in brain activation and connectivity could be regarded as a latent deficit, since both groups presented the same behavioral performance
138

High angular resolution diffusion-weighted magnetic resonance imaging: adaptive smoothing and applications

Metwalli, Nader 07 July 2010 (has links)
Diffusion-weighted magnetic resonance imaging (MRI) has allowed unprecedented non-invasive mapping of brain neural connectivity in vivo by means of fiber tractography applications. Fiber tractography has emerged as a useful tool for mapping brain white matter connectivity prior to surgery or in an intraoperative setting. The advent of high angular resolution diffusion-weighted imaging (HARDI) techniques in MRI for fiber tractography has allowed mapping of fiber tracts in areas of complex white matter fiber crossings. Raw HARDI images, as a result of elevated diffusion-weighting, suffer from depressed signal-to-noise ratio (SNR) levels. The accuracy of fiber tractography is dependent on the performance of the various methods extracting dominant fiber orientations from the HARDI-measured noisy diffusivity profiles. These methods will be sensitive to and directly affected by the noise. In the first part of the thesis this issue is addressed by applying an objective and adaptive smoothing to the noisy HARDI data via generalized cross-validation (GCV) by means of the smoothing splines on the sphere method for estimating the smooth diffusivity profiles in three dimensional diffusion space. Subsequently, fiber orientation distribution functions (ODFs) that reveal dominant fiber orientations in fiber crossings are then reconstructed from the smoothed diffusivity profiles using the Funk-Radon transform. Previous ODF smoothing techniques have been subjective and non-adaptive to data SNR. The GCV-smoothed ODFs from our method are accurate and are smoothed without external intervention facilitating more precise fiber tractography. Diffusion-weighted MRI studies in amyotrophic lateral sclerosis (ALS) have revealed significant changes in diffusion parameters in ALS patient brains. With the need for early detection of possibly discrete upper motor neuron (UMN) degeneration signs in patients with early ALS, a HARDI study is applied in order to investigate diffusion-sensitive changes reflected in the diffusion tensor imaging (DTI) measures axial and radial diffusivity as well as the more commonly used measures fractional anisotropy (FA) and mean diffusivity (MD). The hypothesis is that there would be added utility in considering axial and radial diffusivities which directly reflect changes in the diffusion tensors in addition to FA and MD to aid in revealing neurodegenerative changes in ALS. In addition, applying adaptive smoothing via GCV to the HARDI data further facilitates the application of fiber tractography by automatically eliminating spurious noisy peaks in reconstructed ODFs that would mislead fiber tracking.
139

Ativação cerebral associada à memória episódica verbal no transtorno obsessivo-compulsivo por meio de ressonância magnética funcional / Brain activation associated with verbal episodic memory in obsessivecompulsive disorder using magnetic resonance imaging

Marcelo Camargo Batistuzzo 19 February 2014 (has links)
O transtorno obsessivo-compulsivo (TOC) é um transtorno psiquiátrico que acomete cerca de 1 a 3,1% das pessoas ao longo da vida. Embora o seu modelo neurobiológico ainda não esteja completamente estabelecido, inúmeras evidências apontam para áreas relacionadas ao circuito córtico-estriado-pálido-talâmico-cortical (CEPTC). Em especial, o córtex órbito-frontal (COF) é uma região que desempenha um papel fundamental dentro da hipótese fisiopatológica do TOC. Paralelamente, esta região já foi associada, em sujeitos saudáveis, com a habilidade de utilização espontânea da estratégia de agrupamento semântico na memorização de palavras - o que facilita sua evocação posterior. Ao mesmo tempo, estudos neuropsicológicos evidenciaram que pacientes com TOC apresentam déficits na memória episódica verbal (MEV) e que tais déficits poderiam ser mediados por dificuldades em funções executivas ligadas ao planejamento, como utilização de estratégias. Portanto, para testar a hipótese de que há diferenças no correlato neural da codificação da MEV entre pacientes com TOC e controles saudáveis, foi utilizado um teste neuropsicológico adaptado para ressonância magnética funcional (RMf): o paradigma tinha apresentação em bloco. O objetivo do presente estudo foi investigar a etapa de codificação da MEV e a capacidade de agrupamento semântico espontâneo em crianças e adolescentes com TOC. Assim, o paradigma foi constituído por duas listas de palavras: uma, semanticamente relacionada (SR), na qual as palavras eram divididas em categorias semânticas e outra, não relacionada (NR), na qual não havia relação aparente entre as palavras. O contraste de maior interesse do estudo foi a diferença entre essas duas condições (SR > NR). O nível de agrupamento semântico foi quantificado por um índice semântico. Os grupos foram formados por 25 crianças e adolescentes com TOC e 25 controles saudáveis, pareados por sexo, idade, escolaridade, preferência manual e QI. Embora os grupos estivessem pareados por essas características, eles se diferiram em sintomas clínicos, tais como sintomas de depressão, ansiedade e necessidade de rotina por parte da criança/adolescente. Os resultados comportamentais do teste de MEV mostraram que os grupos não se diferenciaram: ambos evocaram a mesma quantidade de palavras e não apresentaram diferenças no índice semântico. Apesar disso, a comparação entre os grupos - controlada para variáveis clínicas - revelou menor ativação (sinal BOLD) nos pacientes em diversas regiões cerebrais: frontais, parietais e occipito-temporais. Por outro lado, a análise de interação psicofisiológica (PPI) revelou que os pacientes apresentaram um aumento da conectividade do COF com regiões temporais em relação aos controles. Isso ocorreu para três das quatro regiões de interesse que foram posicionadas no COF: lateral e medial de ambos os hemisférios. Além disso, o grupo de pacientes apresentou uma correlação positiva entre o índice semântico e o efeito BOLD no COF, o que não ocorreu para o grupo controle. Esses resultados indicam diferenças no funcionamento cerebral de crianças e adolescentes com TOC tanto em regiões que estão dentro do modelo neurobiológico proposto para o TOC (circuito CEPTC), como fora dele também. De acordo com os resultados do presente estudo, as diferenças de ativação e de conectividade poderiam ser consideradas como um déficit latente, uma vez que ambos os grupos apresentaram o mesmo desempenho no paradigma / The obsessive-compulsive disorder (OCD) is a psychiatric disorder that affects 1-3.1% of the general population (lifetime rate). Although its neurobiological model has not been completely establish, numerous evidences indicate that areas of the cortico-striatalpale- thalamic-cortical (CSPTC) circuit are engaged in the disease. In particular, the orbitofrontal cortex (OFC) is a region that plays a key role in the pathophysiological hypothesis of OCD. In parallel to this, in healthy controls this region has been associated with the ability of using spontaneous strategies of semantic clustering at the encoding of related words - in a way that facilitates the posterior retrieval of these words. At the same time, neuropsychological studies showed that OCD patients present verbal episodic memory (VEM) deficits, and that these deficits could be mediated by executive dysfunction - like planing and utilization of strategies. Thus, to investigate the hypothesis that there are differences at the neural correlates of VEM encoding between children and adolescents with OCD and healthy controls, we used a blocked design functional Magnetic Resonance Imaging (fMRI) paradigm to evaluate both groups. The main objective of the study was to investigate the VEM encoding and the ability to spontaneously organize words according to their semantic categories. In order to do this, the fMRI paradigm consisted of two kinds of word lists: a semantically related list (SR), in which words were divided into semantic categories and a unrelated list (UR), were there was no apparent relationship between the words. However, the contrast of most interest of this study, was the difference between the conditions (\'SR > UR\'). The semantic clustering level was quantified by a semantic clustering index. Groups were constituted by 25 children and adolescents with OCD and 25 healthy controls paired by gender, age, educational level, handedness and IQ. Although both groups were matched for these characteristics, they differed in clinical symptoms such as depression, anxiety and routines. Behavioral results showed that the groups were similar in terms of retrieved words and semantic index. Nevertheless, the comparison between groups - controlled for clinical variables - showed less activation (BOLD signal) in patients in several brain regions: frontal, parietal and occipito-temporal. On the other hand, the psychophysiological interaction analysis (PPI) revealed that patients have had an increase in the OFC connectivity with the temporal regions. This has occurred in three of the four regions of interest that were placed in the OFC: lateral and medial of both hemispheres. Also, the patients showed a positive correlation between the semantic index and the BOLD effect in the OFC, which was not observed in the control group. These results suggest that there are differences in brain functioning of children and adolescents with OCD in regions that are inside/outside of the neurobiological model for OCD (CSPTC circuit). In accordance with the present results, these differences in brain activation and connectivity could be regarded as a latent deficit, since both groups presented the same behavioral performance
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The Rivermead Mobility Index allows valid comparisons between subgroups of patients undergoing rehabilitation after stroke who differ with respect to age, sex, or side of lesion

Roorda, L.D., Green, J.R., Houwink, A., Bagley, Pamela J., Smith, J., Molenaar, I.W., Geurts, A.C. January 2012 (has links)
No / To investigate differential item functioning or item bias of the Rivermead Mobility Index (RMI) and its impact on the drawing of valid comparisons with the RMI between subgroups of patients after stroke who differ with respect to age, sex, or side of lesion. DESIGN: Cross-sectional study. SETTING: A rehabilitation center in the Netherlands and 2 stroke rehabilitation units and the wider community in the United Kingdom. PARTICIPANTS: The RMI was completed for patients undergoing rehabilitation after stroke (N=620; mean age +/- SD, 69.2+/-12.5y; 297 [48%] men; 269 [43%] right hemisphere lesion, and 304 [49%] left hemisphere lesion). INTERVENTIONS: Not applicable. MAIN OUTCOME MEASURES: Mokken scale analysis was used to investigate differential item functioning of the RMI between subgroups of patients who differed with respect to age (young vs older), sex (men vs women), and side of stroke lesion (right vs left hemisphere). RESULTS: No differential item functioning was found for any of the comparison subgroups. CONCLUSIONS: The RMI allows valid comparisons to be made between subgroups of patients undergoing rehabilitation after stroke who differ with respect to age, sex, or side of lesion.

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