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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

Apport de l’imagerie TEP TSPO dans un modèle d’épilepsie mésio-temporale chez la souris / Role of TSPO PET imaging in a mouse model of mesial temporal lobe epilepsy

Nguyen, Duc Loc 01 December 2017 (has links)
Le modèle induit par injectionunilatérale intrahippocampique d’acide kaïniquechez la souris présente de grandes analogiesavec l’épilepsie mésio-temporale (EMT) chezl’homme caractérisée par la périoded’épileptogénèse et par une sclérosehippocampique (SH) typique.De récents travaux ex vivo ont révélé l’existencede processus neuroinflammatoires au niveau dela SH chez des patients épileptiques et dans desmodèles animaux. La protéine translocatrice de18kDa (TSPO), la plus étudiée actuellement aumoyen de différents traceurs, est considéréecomme une cible de référence pour visualiser etquantifier la neuroinflammation.Ma thèse a donc eu pour objectif de déterminerl’évolution de l’expression de TSPO au cours dela constitution de la SH à l’aide de laTomographie par émission de positons (TEP) au18F-DPA-714 dans une étude longitudinale chezce modèle d’EMT, et à identifier son origine àpartir d’analyses d’immunohistofluorescence.Nous avons démontré la faisabilité de la TEPpour suivre in vivo le processus inflammatoiremême dans de petites structures cérébrales à lafois par la mesure locale du pourcentaged’activité injectée et par l’estimation du volumede distribution.Le signal maximum a été observé durantl’épileptogénèse et correspondait aux microgliesactivées puis il diminuait mais persistait lorsquela SH était bien établie, et était alorsprincipalement lié aux astrocytes activés.Nos principaux résultats ont permis d’identifierles phases pendant lesquelles de nouvellesstratégies thérapeutiques ciblant différentescomposants de la neuroinflammationmériteraient d’être étudiés. / The model induced by unilateralinjection of kainic acid is considered as the bestreliable model for the mesial temporal lobeepilepsy (MTLE) and reproduces theepileptogenesis and the typical hippocampalsclerosis (HS).Recent ex vivo studies have revealed theexistence of neuroinflammation in the HS ofepileptic patients and animal models. The18kDa translocator protein (TSPO), which iscurrently the most widely studied with variousradiotracers, is considered as a reference targetto visualize and quantify theneuroinflammation.In that context, my thesis focused ondetermining the evolution of TSPO during theconstitution of HS using 18F-DPA-714positrons emission tomography (PET) in alongitudinal study in this mouse model, and toidentify its origin fromimmunohistofluorescence analysis.We demonstrated the feasibility of PET tomonitor in vivo the inflammatory process evenin small cerebral structures both by the localmeasurement of the percent injected dose or bythe measurement of the volume of distribution.The peak signal was found during theepileptogenesis and corresponded to activatedmicroglia, and then this signal decreased butpersisted after the HS was well established, andmainly originated from activated astrocytesduring this period.Our main results allowed us to identifydifferent phases during which potential antiepileptictreatment targeting differentcomponents of neuroinflammation could beinvestigated.
132

Regional metabolic changes related to brain plasticity: a positron emission tomography study of glucose consumption

Trotta, Nicola 26 November 2015 (has links) (PDF)
Le cerveau humain adhère à deux principes organisationnels fondamentaux et complémentaires, l'intégration fonctionnelle et la spécialisation fonctionnelle, selon lesquels des aires corticales anatomiquement éloignées et spécialisées dans des tâches très spécifiques sont liées via la connectivité effective. Le rôle fonctionnel joué par une population neuronale spécialisée est défini par ses connexions avec d'autres régions corticales: la formation de ces réseaux distribués, à travers des interactions dynamiques, est la base de l'intégration fonctionnelle. Ces connexions sont soumises à des changements qui participent au processus de plasticité cérébrale ;l’étude de cette plasticité permet d’étendre nos connaissances sur la signification fonctionnelle des réseaux cérébraux intégrés, chez le sujet sain et au cours d’affections neurologiques. Ce travail de thèse est consacré à l’investigation de la plasticité du cerveau dans des conditions physiologiques et pathologiques. Il fait appel à des mesures régionales du métabolisme du glucose, grâce à la tomographie par émission de positons (PET) et à un traceur du métabolisme glucidique, le 18F-fluorodésoxyglucose (FDG-PET). Dans une première étude, les changements de l'intégration fonctionnelle ont été abordés du point de vue physiologique, en testant leur évolution en fonction de l'âge. Une augmentation de la connectivité effective a été mise en évidence entre diverses structures cérébrales entre l’âge de 6 ans et l’âge de 50 ans. L’évolution la plus importante touche les relations entre le cortex cingulaire antérieur et le cortex temporal, l’hippocampe, le thalamus et le cervelet. Une deuxième étude a concerné les changements de connectivité dans l’épilepsie mésiotemporale associée à une sclérose hippocampique unilatérale. Dans l’hémisphère opposé au foyer épileptique, des modifications de connectivité ont été démontrées entre diverses structures corticales frontales, temporales et cingulaires. Dans une troisième étude portant également sur une population de patients atteints d’épilepsie mésiotemporale associée à une sclérose hippocampique unilatérale, une relation a été démontrée entre les performances mnésiques attribuables à l’activité de l’hémisphère sain (testées lors d’une injection hétérolatérale d’amobarbital) et l’activité métabolique mésiotemporale dans cet hémisphère.En conclusion, ce travail démontre une réorganisation de l'intégration fonctionnelle cérébrale entre l’enfance et l’âge adulte, en relation probable avec le développement des fonctions cognitives. Des changements induits par l'épilepsie dans l'intégration fonctionnelle représentent un corrélat neuronal des troubles cognitifs, émotionnels et décisionnels fréquemment présentés par les patients atteints de cette maladie. / Doctorat en Sciences biomédicales et pharmaceutiques (Médecine) / info:eu-repo/semantics/nonPublished
133

MECHANISMS OF SEIZURE REDUCTION BY LOW FREQUENCY ELECTRICAL STIMULATION

Toprani, Sheela C. 12 June 2014 (has links)
No description available.
134

Models of EEG data mining and classification in temporal lobe epilepsy: wavelet-chaos-neural network methodology and spiking neural networks

Ghosh Dastidar, Samanwoy 22 June 2007 (has links)
No description available.
135

Etude par IRM fonctionnelle et TEP métabolique des réorganisations mnésiques dans l'épilepsie temporale / Functional MRI and metabolic PET study of memory reorganization in temporal lobe epilepsy

Guedj, Eric 29 November 2010 (has links)
L’objectif général de ce travail de thèse a été de caractériser in vivo, chez l’Homme, les réorganisations mnésiques retrouvées dans l’épilepsie temporo-mésiale pharmaco-résistante.Nous nous sommes appuyés sur une approche multimodale d’imagerie combinant étude de la connectivité et des réseaux d’activations mnésiques en IRMf, et étude de la consommation métabolique régionale inter-critique de glucose en TEP. Il s’agissait, notamment, de mieux comprendre la relative préservation mnésique retrouvée chez certains de ces patients, malgré l’implication du cortex temporal interne au sein de leurs réseaux épileptiques.Nos résultats, obtenus pour l’encodage d’items uniques non matériel-spécifiques, apportent des connaissances nouvelles sur l’adaptation fonctionnelle des réseaux cognitifs au sein et en dehors de la zone épileptogène, expliquant les différences de performance mnésique en reconnaissance, et leur lien possible avec les réseaux épileptiques.Ces travaux suggèrent, notamment, l’existence de ressources fonctionnelles additionnelles efficaces, à la fois locales et à distance, impliquant la voie visuelle ventrale bilatérale. Ces processus de compensation pourraient être conditionnés par les caractéristiques propres de l’atteinte primitive, et en particulier une implication différente des structures temporales internes au sein de la zone épileptogène. L’altération fonctionnelle de ce système perceptivo-mnésique pourrait induire une réorganisation inefficace plus large, sollicitant l’activation alternative des réseaux de l’attention, au niveau des régions fronto-cingulaires et pariétales. / The overall objective of this thesis was to characterize in vivo the human memory reorganization observed in medial temporal lobe epilepsy, in particular for recognition memory.We conducted a multimodal neuroimaging approach, combining the study of connectivity and memory activation networks with fMRI, and the study of inter-ictal cerebral metabolic rate of glucose with PET. We aimed to better understand the relative preservation of memory found in some patients, despite the involvement of the medial temporal lobe within their epileptic networks. Our findings, obtained for the encoding of non material-specific single items, provide new insights into the functional adaptation of cognitive networks, within and outside the epileptogenic zone, and help to explain the differences in recognition performance, and their possible relationship with epileptic networks. These studies suggest, in particular, the existence of local and remote compensatory mechanisms which are functionally effective and involve the ventral visual stream bilaterally. These could be influenced by the exact involvement of medial temporal structures within the epileptogenic zone. The impairment of this perceptive-memory system may lead to a more large-scale reorganization with the alternative activation of an inefficient network of attention-related areas involving fronto-cingulate and parietal cortices.
136

Rôle des récepteurs glutamatergiques dans l'activité épileptiforme des interneurones inhibiteurs de l'hippocampe

Sanon, Nathalie T. 12 1900 (has links)
Les patients atteints d'épilepsie du lobe temporal (TLE) ainsi que les rats injectés à l'acide kaïnique (KA) exhibent des patrons pathophysiologiques similaires de crises, de sclérose de l'hippocampe et de perte de certains types neuronaux. Parmi les cellules atteintes dans le modèle KA du TLE on retrouve certains interneurones inhibiteurs du CA1. En effet, certains interneurones des couches oriens et alveus (O/A-IN) meurent suite à une injection de KA chez le rat, contrairement aux interneurones à la bordure des couches radiatum et lacunosum/moleculare (R/LM-IN) de la même région. Bien que cette perte soit empêchée par des antagonistes des récepteurs glutamatergiques métabotropes de groupe I (mGluR1/5), la cause de cette perte sélective des O/A-INs reste à être précisée. Au cours des travaux de cette thèse, nous avons effectué des enregistrements de patch-clamp en configuration cellule-entière en modes courant- et voltage-imposé couplés à l'imagerie calcique pour étudier les causes de la vulnérabilité sélective des O/A-INs dans ce modèle. Dans un premier temps, nous avons évalué les effets d'une application aiguë de KA sur les propriétés membranaires et calciques pour voir s'il y avait des différences entre les O/A-INs et R/LM-INs qui pourraient expliquer la vulnérabilité. Nos résultats montrent que les dépolarisations et variations de résistance d'entrée ainsi que les augmentations de calcium intracellulaire, dépendantes principalement des récepteurs -amino-3-hydroxy-5-methyl-4-isoxasole propionic acid (AMPA), sont similaires entre les deux types d'interneurones suite à des applications aigües de KA. Ceci indique que l'effet aigu du KA sur les interneurones ne serait pas la cause de la vulnérabilité des O/A-INs. Dans un second temps nous avons comparé l'implication des sous-types de récepteurs mGluR1 et 5 dans l'activité épileptiforme des deux types d'interneurones évoquée dans un modèle de tranche désinhibée. Dans ce cas, nos données montrent un rôle important des mGluR1 et 5 activés synaptiquement lors des décharges épileptiformes et ce, de manière spécifique aux O/A-INs. Les courants synaptiques sous-tendant ces décharges impliquent des récepteurs ionotropes et métabotropes du glutamate. En présence d'antagonistes des récepteurs ionotropes glutamatergiques, les courants synaptiques sont biphasiques et formés de composantes rapide et lente. Les récepteurs mGluR1 et 5 sont différemment impliqués dans ces composantes: les mGluR5 étant impliqués dans les composantes rapide et lente, et les mGluR1 que dans la composante lente. Ces résultats indiquent que les mGluR1 et 5 contribuent différemment à l'activité épileptiforme, et spécifiquement dans les O/A-INs, et pourraient donc être impliqués dans la vulnérabilité sélective de ces interneurones dans le modèle KA. / Temporal lobe epilepsy (TLE) patients, as well as kainic acid (KA)-treated rodents, display similar pathophysiological patterns of behavioural seizures, hippocampal sclerosis and loss of certain neuronal types in the hippocampus. Among the cell types selectively vulnerable in the experimental KA model of TLE are certain inhibitory interneurons of the CA1 hippocampal region. Specifically, interneurons located in the oriens and alveus layers (O/A-IN) are lost following KA injections, whereas interneurons found in the radiatum/lacunosum-moleculare layers (R/LM-IN) are resistant. Although it has been shown that the group I metabotropic glutamate receptor (mGluR1/5) inhibitors can block this cell loss seen in the KA model, the precise cause of the selective O/A-IN vulnerability remains to be clarified. In this thesis, we have performed whole-cell patch-clamp recordings with simultaneous calcium imaging in an effort to elucidate the cause of the selective vulnerability of O/A-INs. We first determined the effects of acute KA applications on membrane properties and intracellular calcium rises in hippocampal slices to see if they might be different between O/A-INs and R/LM-INs. Our results reveal similar -amino-3-hydroxy-5-methyl-4-isoxasole propionic acid (AMPA) receptor dependent membrane depolarizations, input resistance variations and calcium reponses in these cells following KA applications, suggesting that acute KA actions may not cause the selective vulnerability of O/A-INs. Furthermore, we evaluated the contribution of mGluR1/5 to epileptiform discharges evoked in a disinhibited slice model, comparing responses between O/A-INs and R/LM-INs. Our data show an important role of synaptically activated mGluR1/5 during epileptiform discharges specifically in O/A-INs. In addition we show that the synaptic currents underlying these discharges involve ionotropic and metabotropic glutamate receptors. In the presence of antagonists of ionotropic glutamate receptors, synaptic currents are biphasic and composed of fast and slow components. mGluR1 and mGluR5 are involved differently in these components with mGluR5 implicated in fast and slow components and mGluR1 in the slow component only. Our findings therefore suggest that mGluR1 and 5 contribute differently to epileptiform discharges, and do so specifically in O/A-INs, suggesting that their activation may contribute to the selective vulnerability of these interneurons in the KA model of TLE.
137

Altération de la barrière hémato-encéphalique et autoimmunité dans l'épilepsie : rôle des Immunoglobulines G et recherche de biomarqueurs. / Blood-brain barrier impairment and autoimmunity in epilepsy : role of Immunoglobulins G and biomarkers identification.

Michalak, Zuzanna 28 June 2012 (has links)
L'épilepsie est une maladie neurologique chronique caractérisée par des crises spontanées et récurrentes. Les crises sont générées par un déséquilibre dans le fonctionnement des neurotransmetteurs et des canaux ioniques qui contrôlent l'excitabilité. L'épileptogenèse est majoritairement associée à des pertes neuronales, une gliose, une inflammation plus ou moins importants. Un tiers des patients deviennent réfractaires. Récemment, plusieurs équipes ont montré une association entre les épilepsies focales pharmacorésistantes et la rupture de la barrière hémato-encéphalique (BHE). De plus, une implication du système immunitaire ainsi qu'une cause auto-immune de l'épilepsie ont été suggérées. Dans cette thèse, nous avons observé dans le tissu de patients atteints d'épilepsie pharmacorésistante du lobe temporal (ELT), des fuites d'Immunoglobulines G (IgG) dans le parenchyme et leur accumulation dans les neurones présentant des signes de neurodégénérescence. Le récepteur d'IgG de grande affinité FcyRI est surexprimé sur les cellules ayant une morphologie de type microglie/ macrophages, tandis que le récepteur de faible affinité FcyRIII et le récepteur inhibiteur FcγRII sont moins présents. Dans ce même tissu nous avons noté que les protéines du complément C3c et C5b9 sont exprimées. Ensuite, nous avons étudié si le modèle murin d'épilepsie focale induite par injection intra-amygdalienne de kaïnate reproduit la physiopathologie de l'ELT associée à une rupture de la BHE. ZO-1, la principale protéine des jonctions serrées, présente un marquage discontinu indiquant que la BHE a été affectée. Nous avons remarqué des fuites d'IgGs et d'albumine ainsi que leur accumulation dans le parenchyme coïncidant avec la survenue des crises. La présence d‘IgG dans l'épilepsie pourrait également avoir une cause auto-immune. Nous avons utilisé des puces à protéines pour identifier des antigènes qui induisent une réponse immunitaire, dans le plasma des patients atteints d'ELT, Nous avons sélectionné 19 auto-anticorps spécifiques qui peuvent servir de potentiels biomarqueurs diagnostiques L'ensemble de ces résultats suggère que les fuites d'IgG sont associées à une déficience neuronale, conduisant à des changements immunologiques dans le foyer épileptique qui participent à la pathogénèse de l'ELT. Nous pensons qu'une meilleure interprétation des profils de ces auto-anticorps pourrait offrir de nouvelles perspectives thérapeutiques. / Epilepsy is a chronic neurologic disorder characterized by recurrent unprovoked seizures. Seizures are generated by an imbalance in the functioning of neurotransmitters and ion channels that control excitability. Epileptogenesis is mostly associated with neuronal loss, gliosis, and inflammation more or less important. A third of patients become drug refractory. Recently, several teams have shown an association between drug-resistant focal epilepsy and disruption of the blood-brain barrier (BBB). In addition, a possible role of the immune system and an autoimmune nature in epilepsy has been suggested. In this thesis, in the tissue of patients with drug-resistant temporal lobe epilepsy (TLE), leakage of immunoglobulin G (IgG) into the parenchyma and IgG accumulation in neurons with attendant signs of neurodegeneration was observed. In addition, the high affinity IgG receptor, FcγRI was expressed on microglia/macrophage shaped cells. The expression of the low affinity IgG receptor, FcγRIII and the inhibitory IgG receptor, FcγRII was decreased. In the same tissue the complement proteins C3c and C5b9 were present on astrocyte/ microglia and macrophage/ microglia shaped cells respectively. Then, we evaluated whether the mouse model of focal epilepsy induced by intra-amygdala microinjection of kainic acid reproduced a pathophysiology of TLE associated with BBB impairment. ZO-1, the main tight junction protein presented discontinuous staining indicating that BBB was affected. Both IgG and albumin extravasations from blood vessels were noted and its parenchymal accumulation was concomitant with seizure occurrence. Another hypothesis of IgG presence in epilepsy incriminates an auto-immune cause. Protein microarray technology was used for identification in pooled plasma samples, of antigens that bind plasma antibody from TLE patients. 19 potential autoantibodies were identified as potential diagnostic biomarkers. Together, these observations suggest that IgG leakage is associated with neuronal impairment, leading to immunological changes in epileptic focus involved in the pathogenesis of TLE. A better interpretation of the profiles of these autoantibodies could offer new therapeutic and diagnostic perspectives.
138

Avaliação da expressão dos microRNAs-184, -190a-5p e -493-3p e sua correlação com o controle das crises epilépticas em pacientes operados por Epilepsia do Lobo Temporal Mesial / Evaluation of the microRNAs 184, -190a-5p and -493-3p expression and its correlation with epileptic crises control in Mesial Temporal Lobe Epilepsy operated patients

Silvestre, Renata Nacasaki 23 May 2016 (has links)
Introdução: A epilepsia pode ser considerada uma desordem neurológica causada pela anormalidade da transmissão de impulsos nervosos, devido ao aumento da excitação nervosa e/ou diminuição da sua inibição. Dentre as síndromes epilépticas, destaca-se a Epilepsia do Lobo Temporal Mesial (ELTM) devido a sua alta prevalência e refratariedade ao tratamento medicamentoso. Com intuito de implementar novas possibilidades de tratamento torna-se necessário uma maior compreensão das bases moleculares da ELTM. Dentro desta perspectiva, destacam-se os microRNAs, que possuem papel regulatório nas células, inclusive as do Sistema Nervoso Central. Com base em dados da literatura e num experimento de microarray, realizado no laboratório de Biologia Molecular do Departamento de Cirurgia e Anatomia da Faculdade de Medicina de Ribeirão Preto, foram escolhidos 3 dos 10 microRNAs, cujos alvos preditos estão relacionados à epileptogênese e que se apresentam diferencialmente expressos em hipocampos de pacientes com ELTM. Objetivos: avaliar a expressão diferencial de três microRNAs de interesse em hipocampos de pacientes operados por ELTM refratária ao tratamento clínico a fim de correlacionar os resultados em relação aos controles das crises epilépticas após a cirurgia. Metodologia: Foram utilizadas 15 amostras de hipocampo de pacientes com ELTM classificados como Engel I (boa evolução - nenhuma ou poucas crises convulsivas após lobectomia temporal parcial) e 15 amostras de hipocampos de pacientes classificados como Engel III/IV (má evolução - sem melhora evidente após tratamento cirúrgico). Como controles, foram utilizadas 10 amostras de hipocampo de pacientes sem doenças neurológicas, obtidas de necropsias do Serviço de Patologia do Hospital das Clínicas de Ribeirão Preto (HCFMRP). Por meio de técnica de PCR quantitativo em tempo real (RT-qPCR) foram realizadas as avaliações das expressões diferenciais dos seguintes microRNAs: miR-184, miR-190a-5p e miR-493-3p. Resultados: Em relação aos controles, o miR-184 e o miR190a-5p apresentaram-se, respectivamente, com redução significativa (p = 0,001) e com tendência a baixa expressão (p = 0,24) nos hipocampos de pacientes com ELTM. No que se refere ao controle das crises, o miR-184 apresentou-se significativamente mais expresso nos hipocampos de pacientes com pior evolução (Engel III/IV vs Engel I, p = 0,003). A expressão do miR-493-3p não se correlacionou com o controle de crises com significância estatística. Conclusão: Dentro os microRNAs avaliados, a expressão do miR-184, que possui importante papel na regulação de componentes celulares relacionados a apoptose e morte celular, correlacionou-se inversamente com o controle das crises após cirurgia (mais expresso em pacientes com má evolução) tornando-se potencial biomarcador e com valor preditivo / Introduction: Epilepsy is a neurological disorder caused by nerve impulse transmission abnormalities, by increasing nerve excitation and/or decreasing nerve inhibition. Among the epileptic syndromes, one of the most important ones is Mesial Temporal Lobe Epilepsy (MTLE) due to its high prevalence and resistance to drug treatment. A greater understanding of the epilepsy molecular basis is necessary aiming to implement new treatments possibilities. Within this field of study, it is possible to highlight the microRNA molecules, which have a regulatory role in cell regulation including in the Central Nervous System (CNS). Based on literature data and in an microarray experiment, performed in the Anatomy and Surgery Departament Molecular Biology laboratory of the Ribeirao Preto Medical School, we have chosen three out of ten microRNAs, with predicted targets related to epileptogenesis and that presented themselves differencially expressed in patients hippocampus with MTLE. Objective: To evaluate three microRNAs of interest which were differentially expressed in the hippocampus of MTLE drug-resistant operated patients in order to correlate the results with the clinical evolution based on the seizures control after surgery. Methodology: Fifteen hippocampus samples from patients with MTLE classified as Engel I (good evolution - without seizures or few seizures after surgical resection) and 15 samples from patients classified as Engel III/IV (bad evolution - no evident improvement after surgery) were used in this study. In the control group, we used ten samples of hippocampus fragments from patients without neurological diseases, that were obtained from the Ribeirao Preto Clinical Hospital Pathology and Legal Medicine Service. The differential expression validation from microRNAs-184, -190a-5p and -493-3p were performed by quantitative real time PCR (RT-qPCR) technique. Results: Regarding the controls, miR-184 and miR- 190a-5p showed, respectively, a significant expression reduction (p=0,001) and a decreased expression tendency (p=0,24) in MTLE patients. If we consider seizure control, miR-184 presented itself significantly upregulated in bad evolution hippocampus patients (Engel III/IV vs Engel I, p=0,003). miR-493-3p did not show expression differences with statistical significance. Conclusions: After evaluating the expression of these microRNAs, it was possible to conclude that microRNA-184, which regulates cellular death and apoptosis related components, was the best molecule that could differentiate the patients regarding seizure control after surgery, and that fact makes this microRNA a potential biomarker with predictive value
139

Estudo das relações entre populações celulares, expressão de aquaporina-4 e sulfato de condroitina com o tempo de relaxamento e a taxa de transferência de magnetização no hipocampo de pacientes com epilepsia do lobo temporal farmacorresistente / Study of the associations between cellular populations, aquaporin 4 and chondroitin sulfate with T2 relaxation and magnetization transfer in the hippocampus of patients with drug-resistant temporal lobe epilepsy

Santos, José Eduardo Peixoto 30 September 2014 (has links)
Racional: A epilepsia do lobo temporal está comumente associada à farmacorresistência e tem a esclerose hipocampal como achado neuropatológico em mais da metade dos casos. Histologicamente, a esclerose hipocampal está associada à perda neuronal diferencial e gliose, além de alterações nos níveis de moléculas associadas à homeostase da água tecidual, como a aquaporina 4 e a molécula de matriz sulfato de condroitina. Em imagens de ressonância nuclear magnética, a esclerose é caracterizada por redução de volume em sequências ponderadas em T1, aumento de sinal e tempo de relaxamento em sequências ponderadas em T2 e redução na transferência de magnetização. Justificativa e Objetivos: Uma vez que tanto o sinal T2 quando a transferência de magnetização são dependentes da água tecidual, nosso objetivo é avaliar, na formação hipocampal de pacientes com epilepsia do lobo temporal, as correlações entre populações celulares e moléculas ligadas à homeostase da água e as imagens ponderadas em T2 e transferência de magnetização. Visamos ainda definir, na formação hipocampal de indivíduos sem alterações neuropatológicas, o volume de cada um dos subcampos hipocampais. Metodologia: Pacientes com epilepsia do lobo temporal farmacorresistente (ELT, n = 43), bem como voluntários sadios (controle radiológico, CH, n = 20), foram submetidos a exames de ressonância magnética em máquina de 3T para mensuração da volumetria hipocampal, tempo de relaxamento T2 e transferência de magnetização hipocampal (exames in vivo). Após o tratamento cirúrgico para o controle das crises, os hipocampos dos pacientes com ELT foram fixados por 8 dias e submetidos aos exames ex vivo em máquina de 3T para cálculo do tempo de relaxamento T2 de cada subcampo hipocampal. Hipocampos controle (Controle historadiológico, CHR, n = 14), foram obtidos de autópsias de pacientes sem histórico ante-mortem de doença neurológica ou presença de patologia no exame do encéfalo pos mortem. Ambos os grupos controle foram pareados para idade em relação ao grupo ELT. Alguns dos casos CHR (n = 6) foram também submetidos à imagem 3D T2 em máquina de 4,7T para cálculo de volumetria dos subcampos hipocampais. Após emblocamento em parafina, secções coronais hipocampais dos casos CHR e ELT foram submetidas às técnicas de histoquímica básica Hematoxilina e Eosina e Luxol Fast Blue, e às imuno-histoquímicas para avaliação das populações neuronais (NeuN), astrócitos reativos (GFAP), micróglias ativadas (HLA-DR) e para a expressão de aquaporina 4 (AQP4) e níveis de sulfato de condroitina (CS-56). Para a comparação entre os grupos, foram realizados testes t para dados paramétricos e Mann-Whitney para dados não-paramétricos. Testes de correlação foram empregados para análise da associação entre as avaliações histológicas e os exames de ressonância magnética. Resultados: Pacientes com ELT apresentaram menor volume hipocampal, maior tempo de relaxamento T2 e menor transferência de magnetização no exame in vivo, quando comparados com o CR. O exame ex vivo para a volumetria dos subcampos hipocampais em casos do grupo CHR indicou que a fascia dentata, a região CA1 e o subículo correspondem à 85 % do volume hipocampal total. Quanto ao tempo de relaxamento T2 ex vivo, foi observado aumento em todos os subcampos hipocampais do grupo ELT, à exceção da fascia dentata, quando comparados ao CHR. A avaliação da densidade neuronal indicou redução significativa em todos os subcampos dos casos ELT, à exceção do subículo, quando comparados ao CHR. Em relação aos valores do grupo CHR, foi observada astrogliose em quase todos subcampos da formação hipocampal (a exceção da zona subgranular e do hilo) e microgliose em todos os subcampos (exceto pelo subículo) dos casos com ELT. Pacientes com ELT apresentaram redução na expressão de aquaporina 4 perivascular em todos os subcampos do hipocampo, comparados ao CHR. Aumento nos níveis de sulfato de condroitina foi observado em todos os subcampos da formação hipocampal, à exceção da camada granular, nos pacientes com ELT. O volume hipocampal e a transferência de magnetização in vivo dos pacientes com ELT correlacionaram-se tanto com a população neuronal como com os níveis de sulfato de condroitina, enquanto que o tempo de relaxamento in vivo correlacionou-se com a população astroglial e os níveis de sulfato de condroitina. O exame ex vivo corroborou a correlação entre a população glial e o tempo de relaxamento observado nos pacientes com ELT. A diferença entre o tempo de relaxamento in vivo e ex vivo correlacionou-se tanto com a difusibilidade da água no tecido como com os níveis de sulfato de condroitina. Conclusões: Nossos dados indicam correlação entre a patologia hipocampal e as imagens de ressonância nuclear magnética, sendo que a maior qualidade das imagens ex vivo permitiu uma avaliação mais direta entre o sinal de ressonância e a patologia, indicando importância da população celular e matriz extracelular para o volume hipocampal e a transferência de magnetização, e da astrogliose para o tempo de relaxamento T2. Finalmente, nossos dados mostraram que CA1, subículo e fascia dentata tem grande participação no volume hipocampal, sendo que alterações nestas regiões tem um papel mais relevante nas alterações observadas na ressonância magnética, como indicado por nossas correlações. / Rationale: Drug resistant temporal lobe epilepsy is often associated with hippocampal sclerosis. Histological evaluation reveals differential neuronal loss, gliosis and changes in molecules associated with water homeostasis, such as aquaporin 4 and chondroitin sulfate. Magnetic resonance imaging in these cases often reveals hippocampal atrophy, increased T2 signal and T2 relaxation and reduced magnetization transfer ratio in the hippocampus. Aims: Once both T2 signal and magnetization transfer are affected by tissue water, our goal was to evaluate, in the hippocampus of drug-resistant temporal lobe epilepsy patients who underwent surgery for seizure control, the associations between cellular populations, aquaporin 4 and chondroitin sulfate with T2 relaxation time and magnetization transfer. Additionally, we intended to measure the individual volume of each hippocampal subfield in hippocampus from patients without neurological disease. Methods: Patients with drug-resistant temporal lobe epilepsy (TLE, n = 43) and age-matched health volunteers (radiological control, RC, n = 20) were submitted to magnetic resonance in a 3T machine for hippocampal volumetry measure, T2 relaxation and magnetization transfer (in vivo examination). After surgical treatment for seizure control, hippocampi from the TLE patients were fixed in formalin for 8 days and then submitted to ex vivo imaging in 3T for relaxation time of every hippocampal subfield. Control hippocampi were obtained from autopsies of age-matched patients without ante mortem history of neurological disease or post mortem neurological pathology, and underwent the same ex vivo imaging (histo-radiological control, HRC, n = 14). Six cases from the HRC underwent 3D T2 imaging in a 4.7T machine, in order to measure the volumes of the hippocampal subfields. Paraffin embedded hippocampal sections from TLE and HRC were submitted to Hematoxilin-Eosin and Luxol Fast Blue histochemistries, and to immunohistochemistries for the evaluation of neurons (NeuN), reactive astrocytes (GFAP), activated microglia (HLA-DR), for aquaporin 4 (AQP4) and for chondroitin sulfate (CS-56). Students t-test or Mann-Whitneys test were performed for comparison between groups, and correlation tests were performed for the comparison between histological and magnetic resonance measures. Results: Patients with TLE presented reduced hippocampal volume, increased T2 relaxation time and reduced magnetization transfer, when compared to RC. The ex vivo volumetry of the hippocampal subfields revealed that fascia dentata, CA1 and subiculum together correspond to 85 % of the total hippocampal volume. Ex vivo relaxation time, as the in vivo, were increased in the subfields of TLE patients, when compared to HRC. Compared to HRC, TLE patients presented neuron loss and microgliosis in all hippocampal subfields but the subiculum, and astrogliosis in all hippocampal subfields but the subgranule zone and the hilus. Reduced perivascular aquaporin 4 was observed in all hippocampal subfields of TLE patients, and increased chondroitin sulfate was observed in all hippocampal subfields, with the exception of granule cell layer, of TLE patients, when compared to HRC. In TLE, both in vivo hippocampal volume and magnetization transfer correlated with the levels of chondroitin sulfate and the neuronal population, whereas the in vivo relaxation time correlated with the astroglial population and the levels of chondroitin sulfate. Ex vivo relaxation time also correlated with the astroglial population in TLE patients. The difference between in vivo and ex vivo relaxation values correlated with water difusibility and the levels of chondroitin sulfate. Conclusion: Our data indicate the importance of neuron population and extracellular matrix to both hippocampal volume and magnetization transfer, and of the reactive astrocytes for T2 relaxation. Ex vivo relaxation time allowed a more detailed evaluation, and indicated more robust correlations between reactive astrocytes and T2 relaxation. Finally, Our data indicated that CA1, the subiculum and fascia dentata are the major contributors to hippocampal volume, so changes in these subfields most likely will affect magnetic resonance imaging.
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Avaliação por imagem por tensor de difusão do corpo caloso em pacientes com epilepsia mesial temporal e esclerose hipocampal / Diffusion tensor imaging of the CC of patients with mesial temporal epilepsy and hippocampal sclerosis

Lyra, Katarina Paz de 23 June 2015 (has links)
INTRODUÇÃO: Epilepsia do lobo temporal mesial (ELTM) por esclerose hipocampal (EH) é a forma de epilepsia focal mais comum na idade adulta e a causa mais frequente de refratariedade ao tratamento clínico. Apesar de se tratar de uma patologia da substância cinzenta, alguns estudos, por meio da imagem por tensor de difusão (diffusion tensor imaging-DTI), têm demonstrado alteração da substância branca temporal e extratemporal nestes pacientes. O corpo caloso (CC) é a maior comissura cerebral conectando áreas corticais homólogas de ambos os hemisférios cerebrais e tem sido implicado na propagação da atividade epiléptica. O objetivo principal do presente estudo foi avaliar possíveis alterações no CC de pacientes com ELTM-EH pela técnica de DTI e verificar se essas dependem da lateralidade da EH e da concordância entre os exames de ressonância magnética (RM) e os exames de vídeo-eletroencefalograma (EEG). Como objetivo secundário, também avaliou-se se estas alterações se correlacionavam com alguma variável clínica ou com as medidas volumétricas do CC. MÉTODOS: 42 pacientes com ELTM-EH (idades: 20-54 anos) e 30 voluntários saudáveis como grupo controle (idades: 18-53 anos) realizaram exame de RM de crânio, sendo obtidas sequências de DTI com 32 direções de gradiente e imagens volumétricas ponderadas em T1. Os pacientes foram também divididos em subgrupos: EH à direita e EH à esquerda, e em pacientes concordantes e discordantes. Os valores de anisotropia fracionada (AF), difusividade média (DM), difusividade axial (DA), difusividade radial (DR) e os dados volumétricos foram extraídos a partir de cinco segmentos obtidos automaticamente na secção sagital do CC. Foram realizadas comparações dos parâmetros de DTI no CC entre os grupos de pacientes e controles, e entre os subgrupos de pacientes. Foram investigadas correlações entre os parâmetros do tensor de difusão e as variáveis clínicas. As alterações volumétricas no CC dos pacientes com ELTM-EH bem como a correlação dessas alterações com as anormalidades de difusão também foram avaliadas. Considerou-se um valor de p < 0,05 como estatisticamente significativo. RESULTADOS: Nas regiões anterior, médio-posterior e posterior do CC dos pacientes, observaram-se redução da AF e aumento da DM e da DR, em relação aos controles. A DA manteve-se inalterada. Não foram demonstradas diferenças nos padrões de alteração de difusão entre os pacientes com EH à direita e com EH à esquerda, nem entre pacientes concordantes e discordantes. Não foram observadas correlações significativas entre os parâmetros do tensor de difusão com a idade ao evento inicial, idade de início da epilepsia, tempo de doença, tempo de epilepsia, período de latência e frequência de crises. No entanto, pacientes que apresentaram crise febril como evento precipitante inicial exibiram maior intensidade e extensão das alterações de difusão. Observou-se redução volumétrica difusa do CC, sendo demonstrada correlação negativa significativa entre DM e DR, e o volume nos segmentos central, médio-posterior e posterior, e, ainda, entre DA e volume do segmento posterior. Nós observamos, ainda, correlação negativa significativa entre o volume e o tempo de epilepsia, e o tempo de doença. CONCLUSÕES: Houve alteração dos parâmetros de DTI em áreas específicas do CC e redução volumétrica difusa desta estrutura. Tais anormalidades parecem ser secundárias à propagação das crises epilépticas ao longo de vias específicas anatômica ou funcionalmente relacionadas aos lobos temporais promovendo alterações secundárias na substância branca cerebral. O histórico de crise febril está relacionado a maior intensidade e extensão de acometimento do CC / INTRODUCTION: Mesial temporal lobe epilepsy (MTLE) with hippocampal sclerosis (HS) is the most common form of focal epilepsy in adults and it is frequently associated with refractoriness to medical treatment. Although epilepsy is considered a grey-matter disease, abnormalities in the temporal and extra-temporal white matter have been identified in these patients with diffusion tensor imaging (DTI). The corpus callosum (CC) is the major white matter tract connecting both cerebral hemispheres and has been implicated as an important route of spread of epileptic activity. The first goal of this study was to detect DTI abnormalities in specific areas of the CC in patients with MTLE-HS and to verify if these abnormalities depend on the laterality of the HS and on the concordance between the magnetic resonance imaging (MRI) and video-electroencephalogram (EEG). As a second goal we assessed if DTI results were correlated with any clinical variable or volumetric changes of the CC. METHODS: 42 patients (age: 20-54 years) and 30 healthy controls (age:18-53 years) were submitted to brain MRI. DTI sequences with 32 gradient encoding directions and volumetric T1-weighted images were obtained. Additionally, we grouped the patients in left sided and right sided HS and in concordant and discordant HS. Mean values of fractional anisotropy (FA), mean diffusivity (MD), axial diffusivity (AD), radial diffusivity (RD) and volumetric results were extracted from five segments at the midsagittal section of the CC obtained through automatic segmentation. Comparisons of DTI parameters of the CC were performed between patients and controls and between subgroups of patients. Correlations between DTI parameters and clinical findings were calculated. We also evaluated volume abnormalities of the CC in MTLE-HS patients and the correlations between these abnormalities and DTI changes. We considered a value of p <0.05 statistically significant. RESULTS: Our study showed that, when HS patients was compared to controls, the FA was lowest in the anterior, mid-posterior and posterior subregions of the CC. MD and RD were higher in these same segments. No changes were observed in AD. No differences in the CC DTI parameters were detected between right-sided HS and left-sided HS or between concordant and discordant HS patients. Age at initial event, age at epilepsy onset, duration of disease, duration of epilepsy, latency period and seizure frequency were not significantly correlated with the DTI parameters. However, patients who had febrile seizures as initial event exhibited greater intensity and extent of DTI changes. All segments demonstrated volume reduction compared to controls. Significant negative correlation was demonstrated between MD and RD and the volume in the central, midposterior and posterior segments of the CC, and between AD and volume of the posterior segment. We also demonstrated negative correlation between volume and duration of disease and duration of epilepsy. CONCLUSIONS: This study showed diffusion abnormalities in specific areas of the CC and diffuse atrophy in patients with unilateral HS, which may be secondary to seizures propagation along specific pathways leading to secondary changes in brain white matter. The history of febrile seizure is related to greater involvement of the CC

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