Global ETD Search

21	Neuro-imagerie fonctionnelle du circuit cortico-limbique lors du traitement émotionnel chez le patient schizophrène et le volontaire sain / Functional neuro-imaging of the cortico-limbic circuit during emotional processing in schizophrenia patients and healthy volunteers Comte, Magali 18 December 2015 (has links) Au sein du circuit cortico-limbique, des régions complémentaires seraient impliquées soit dans l’évaluation soit dans la régulation des états affectifs. Cependant, la contribution respective de ces mécanismes «bottom-up» et «top-down» lors du traitement émotionnel reste à clarifier. Premièrement, nous avons validé un nouveau paradigme d’IRMf conçu pour dissocier les composants du circuit cortico-limbique, c.-à-d. le circuit dorsal cognitif entrecroisé avec le circuit ventral affectif. Nous avons trouvé que l’amygdale et ses connexions avec le circuit dorsal étaient engagées par le traitement émotionnel bottom-up. Le cortex cingulaire antérieur (CCA) dorsal et ses connexions avec le cortex préfrontal dorso-latéral (CPFDL) et l’amygdale étaient recrutés par la résolution top-down du conflit émotionnel. Le CPFDL et ses connexions avec le CCA dorsal étaient engagés par le contrôle attentionnel top-down. Puis, nous avons examiné l’impact de l’anxiété sur le circuit. Nous avons montré qu’une forte anxiété était associée à une activation plus importante du CCA en réponse au conflit émotionnel mais à une connectivité réduite entre CCA et CPFL. Enfin, nous avons examiné la variation d’activité et de connectivité fonctionnelle chez des patients schizophrènes. Chez les patients comparativement aux témoins, les processus bottom-up étaient associés à une interaction réduite entre l’amygdale et le CCA ventral et dorsal ainsi que le CPFDL. La résolution du conflit émotionnel entraînait une plus forte connectivité entre CCA dorsal et CCA ventral ainsi que le CPFDL. L’augmentation du contrôle attentionnel provoquait une connectivité plus importante entre le CPFDL et le CCA ventral. / Within the cortico-limbic circuit, complementary regions are believed to be involved in either the appraisal or the regulation of affective state. However, the respective contribution of these bottom-up and top-down mechanisms during emotion processing remains to be clarified. First, we validated a new fMRI paradigm designed to dissociate the components of the cortico-limbic circuit, that is, the dorsal cognitive circuit intertwined with the ventral affective circuit. We found that the amygdala and its connections to the dorsal circuit was engaged by bottom-up emotional processing. The dorsal anterior cingulate cortex (ACC) and its connections to the dorsolateral prefrontal cortex (DLPFC) and amygdala, was recruited by top-down resolution of emotional conflict. The DLPFC and its connections to dorsal ACC was engaged by top-down attentional control. Secondly, we investigated the impact of anxiety on the circuit. We demonstrated that higher levels of anxiety were associated with stronger conflict-related activation in ACC but with reduced connectivity between ACC and LPFC. Finally, we examined the variation in functional activity and connectivity in schizophrenia patients. In patients compared to controls, bottom-up processes were associated with reduced functional interaction between the amygdala and both dorsal and ventral ACC as well as DLPFC. Top-down resolution of emotional conflict led to stronger functional connectivity between the dorsal ACC and both ventral parts of ACC and DLPFC. Increased top-down attentional control caused higher functional coupling between the DLPFC and ventral ACC. Anxiété Émotion IRMf Schizophrénie Système cortico-Limbique Anxiety Cortico-Limbic system Emotion Fmri Schizophrenia
22	Computational Framework for the Identification of Neural Circuits Underlying Psychiatric Disorders Chang, Jonathan January 2021 (has links) Autism spectrum disorders (ASDs) are characterized by phenotypic and genetic heterogeneity. Our analysis of functional networks perturbed in ASD suggests that both truncating and non-truncating de novo mutations contribute to autism. Moreover, we find that truncating mutations affecting the same exon lead to strikingly similar intellectual phenotypes in unrelated ASD probands and propose that exons, rather than genes, represent a unit of effective phenotypic impact for truncating mutations in autism. The phenotypic effects are likely mediated by nonsense-mediated decay of splicing isoforms and similar patterns may be observed in other genetic disorders. While multiple cell types and brain areas are affected, the impact of ASD mutations converge on a strongly interconnected system of neural structures that involve basal ganglia loops and the limbic system. We observe that distant projections constitute a disproportionately large fraction of the network composition, suggesting that the integration of diverse brain regions is a key property of the neural circuit. We demonstrate that individual de novo mutations impact several disparate components of the network and may further explain the phenotypic variability. Overall, our study presents a method that, to our knowledge, is the first unbiased approach using genetic variants to comprehensively discover and identify the neural circuitry affected in a psychiatric disorder. Neurosciences Computer science Biology Autism spectrum disorders Mutation (Biology) Basal ganglia--Diseases Limbic system--Diseases
23	Long-term consequences of perinatal high-fat feeding on dopamine function and metabolism in rats Naef, Lindsay. January 2008 (has links) No description available. Ventral Tegmental Area -- physiology. Dopamine -- metabolism. Limbic System -- physiology. Animals, Newborn.
24	A functional MRI study of happy and sad emotions in music with and without lyrics Brattico, Elvira, Alluri, Vinoo, Bogert, Brigitte, Jacobsen, Thomas, Vartiainen, Nuutti, Nieminen, Sirke, Tervaniemi, Mari 27 July 2022 (has links) Musical emotions,such as happiness and sadness,have been investigated using instrumental music devoid of linguistic content. However, pop and rock, the most common musical genres, utilize lyrics for conveying emotions. Using participants’ self-selected musical excerpts, we studied their behavior and brain responses to elucidate how lyrics interact with musical emotion processing, as reflected by emotion recognition and activation of limbic areas involved in affective experience. We extracted samples from subjects’ selections of sad and happy pieces and sorted them according to the presence of lyrics. Acoustic feature analysis showed that music with lyrics differed from music without lyrics in spectral centroid, a feature related toperceptual brightness,whereassadmusicwithlyricsdidnotdivergefromhappymusicwithoutlyrics,indicatingtheroleofotherfactorsinemotionclassification.Behavioralratingsrevealedthathappymusicwithoutlyricsinducedstrongerpositiveemotionsthanhappymusicwithlyrics.Wealsoacquiredfunctionalmagneticres-onanceimagingdatawhilesubjectsperformedaffectivetasksregardingthemusic.First,usingecologicalandacousticallyvariablestimuli,webroadenedpreviousfindingsaboutthebrainprocessingofmusicalemotionsandofsongsversusinstrumentalmusic.Addition-ally,contrastsbetweensadmusicwithversuswithoutlyricsrecruitedtheparahippocampalgyrus,theamygdala,theclaustrum,theputamen,theprecentralgyrus,themedialandinfe-riorfrontalgyri(includingBroca’sarea),andtheauditorycortex,whilethereversecontrastproducednoactivations.Happymusicwithoutlyricsactivatedstructuresofthelimbicsys-temandtherightparsopercularisoftheinferiorfrontalgyrus,whereasauditoryregionsalonerespondedtohappymusicwithlyrics.Thesefindingspointtotheroleofacousticcuesfortheexperienceofhappinessinmusicandtotheimportanceoflyricsforsadmusicalemotions. info:eu-repo/classification/ddc/150 ddc:150
25	Temporo-limbická dysfunkce u osob závislých na alkoholu / The temporolimbic dysfunction in alcohol dependent persons Mičulková, Jana January 2016 (has links) Charles University in Prague Faculty of Pharmacy in Hradec Králové Department of Biological and Medical Sciences Candidate: Bc. Jana Mičulková Consultant: Doc. MUDr. Josef Herink, DrSc. Title of Thesis: The temporo-limbic dysfunction in alcohol dependent persons This thesis is concerned on the temporo-limbic dysfunction of persons dependent on alcohol. The theoretical part summarizes the information about the neuroanatomical correlates, alcohol dependence syndrome, epidemiology of alcohol addiction in the Czech republic and the relationship between alcohol and epilepsy. The practical part includes evaluation of questionnaires filled out by alcohol dependent persons. These questionnaires are concerned on recognizing epilepsy spectrum disorder. The results are compared with the results obtained from previous studies in the healthy population and are used to evaluate other aims of this thesis. Keywords: alcohol dependence, epilepsy, epilepsy spectrum disorder, limbic system, questionnaire investigation
26	Mapeamento de potencial nicho neurogênico no lobo temporal humano / Mapping of potential neurogenic niche in the human temporal lobe Nogueira, Adriano Barreto 19 May 2014 (has links) No final do século 19, o neurônio foi descrito como a unidade funcional básica do sistema nervoso e sua formação era considerada inexistente na fase adulta, explicando a ausência de recuperação significativa em doenças neurológicas. Evidências de geração de neurônios em mamíferos adultos surgiram na década de 1960 e foram confirmadas três décadas depois. Atualmente, predomina a visão de que mamíferos adultos possuem dois nichos neurogênicos independentes: a zona subventricular (ZSV) e a zona subgranular (ZSG) do giro denteado. No entanto, a existência de nichos neurogênicos em humanos adultos é controversa. Nossa hipótese foi de que o mapeamento de nichos neurogênicos no lobo temporal humano poderia esclarecer aspectos sobre a neurogênese adulta. A detecção destes nichos foi buscada em 28 lobos temporais através de imuno-histoquímica para nestina, o marcador mais comum de células-tronco neurais, que são aquelas capazes de se autorrenovar e de gerar novas células neurais. A neurogênese foi pesquisada no hipocampo pelo uso de DCX (do inglês \"doublecortin\"), o principal marcador de neuroblastos e neurônios imaturos. Nestina foi observada em uma camada contínua formada pela ZSV, zona subpial do lobo temporal medial e ZSG, terminando no subículo. A partir do subículo, uma intensa expressão de DCX ocorreu através da principal via eferente do hipocampo até a fímbria. A visão panorâmica das marcações por nestina e DCX mostrava em conjunto uma linha que circundava as estruturas límbicas do lobo temporal. Por isto, foi denominada linha externa de células do sistema límbico (LECEL). Uma possível explicação para os resultados é que a LECEL seja um nicho neurogênico no qual a ZSV, a zona subpial do lobo temporal medial e a ZSG formam uma unidade contendo células-tronco neurais que se diferenciam em neurônios no subículo. Curiosamente, a área identificada previamente como sendo a corrente migratória rostral humana (formada por células neurais imaturas migrando a partir da ZSV do corno frontal) pode ser na verdade o fórnix, que contém axônios originados no subículo. A implicação mais intrigante dos resultados é que se as características da LECEL seguirem além do lobo temporal, então o encéfalo humano pode conter um anel neurogênico límbico, em que a neurogênese ocorreria principalmente no subículo e seria modulada pelas estruturas relacionadas à fissura coroideia. Este estudo sugere que a neurogênese ocorre de maneira orquestrada em uma área ampla do lobo temporal humano / At the end of the 19th century, the neuron was described as the basic functional unit of the nervous system. The formation of neurons was thought to be absent in adulthood, thus explaining the lack of significant recovery from neurological diseases. Evidence for the generation of neurons in adult mammals was reported in the 1960s and confirmed three decades later. Currently, the prevailing view is that adult mammals harbour two neurogenic niches: the subgranular zone (SGZ) of the dentate gyrus and the subventricular zone (SVZ). Nonetheless, the existence of these niches in adult humans is controversial. We hypothesised that mapping neurogenic niches in the human temporal lobe could clarify this issue. The presence of neurogenic niches was examined in 28 temporal lobes via immunostaining for nestin, the most common marker for neural stem cells, which are cells with the capacities of self-renewal and the generation of neural cells. The presence of neurogenesis was examined in the hippocampus with doublecortin (DCX), a prominent marker for neuroblasts and immature neurons. Nestin was observed in a continuous layer that was formed by the SVZ, the subpial zone of the medial temporal lobe and the SGZ, terminating in the subiculum. In the subiculum, remarkable DCX expression was observed through the principal efferent pathway of the hippocampus to the fimbria. A panoramic view of nestin and DCX staining collectively displayed a line that surrounded the limbic structures of the temporal lobe. Hence, we termed it the external line of cells of the limbic system (EXCEL). A possible explanation for the results is that the EXCEL is a neurogenic niche, in which the SVZ, the subpial zone of the medial temporal lobe and the SGZ form a unit containing neural stem cells that differentiate into neurons in the subiculum. Curiously, the area previously identified as the human rostral migratory stream (formed by immature neural cells that migrate from the SVZ of the frontal horn) may in truth be the fornix, which contains axons that originate in the subiculum. Perhaps most intriguingly, if the EXCEL acts as a neurogenic niche beyond the boundaries of the temporal lobe, the human brain may contain a limbic neurogenic ring, in which neurogenesis would occur in the subiculum through the modulation of choroid fissure-related structures. This study suggests that neurogenesis may occur in an orchestrated manner in a broad area of the human temporal lobe Adult Adulto Humanos Humans Limbic system Lobo temporal Neurogênese Neurogenesis Nicho de células-tronco Sistema límbico Stem cell niche Temporal lobe
27	Sensibilidade diferencial aos efeitos comportamentais induzidos por etanol e sobre a expressão de c-Fos e Egr-1, entre camundongos adultos e adolescentes. / Differential sensitivity to ethanol-induced behavioral effects and c-Fos /Egr-1 expression between adolescent and adult mice. Faria, Rulian Ricardo 11 October 2007 (has links) A transição da adolescência (ADOLESC) para a idade adulta (ADULTO) é caracterizada por uma maturação de comportamentos, assim como de estruturas e sistemas do SNC. Este estudo investigou os efeitos da administração aguda e repetida de baixas doses de etanol (2,0 g/kg) em camundongos ADULTO (60 dias) e ADOLESC (28 dias), bem como a expressão de c-Fos e Egr-1 em distintas regiões cerebrais. Camundongos ADULTO e ADOLESC receberam agudamente salina (SAL) ou EtOH e sua atividade locomotora foi quantificada em campo aberto (CA). Uma hora após a injeção, a expressão de c-Fos e Egr-1 foi avaliada por imuno-histoquímica. Foram constatados: aumento na atividade locomotora e na expressão de c-Fos e Egr-1 nos animais tratados com EtOH. Outros animais ADULTO e ADOLESC foram tratados com EtOH ou SAL repetidamente (15 dias). Uma semana após o pré-tratamento, todos animais receberam etanol. A atividade locomotora foi quantificada e a expressão de c-Fos e Egr-1 foi avaliada. Os ADOLESC desenvolveram tolerância, enquanto que os ADULTO apresentaram sensibilização comportamental locomotora. A administração prolongada de etanol induziu alterações adaptativas diferenciadas, dependentes da idade, na expressão de c-Fos e Egr-1 em várias regiões encefálicas. / The transition from adolescence (ADOLESC) into adulthood (ADULT) is characterized by behavioral maturation, as well as of structures and systems of CNS. This study investigated the behavioral effects of acute and repeated administration of EtOH (2,0 g/kg) in ADULT and ADOLESC mice, as well as the c-Fos and Egr-1 expression induced by EtOH in distinctive brain structures. Locomotor activity from ADULT and ADOLESC mice acutely treated with either saline (SAL) or EtOH was measured in open field (OF). One hour after injections, c-Fos and Egr-1 expressions were evaluated by immunohistochemistry. The results demonstrated increased locomotor activity and increased c-Fos and Egr-1 expression in EtOH-treated mice. Other groups of ADULT and ADOLESC mice were treated repeatedly with SAL or EtOH during 15 days. One week after this pretreatment, all animals received an injection of EtOH. The locomotor activity was quantified and c-Fos and Egr-1 expressions were evaluated. While ADULT mice presented behavioral sensitization, ADOLESC mice developed tolerance. The repeated administration of EtOH induced an age-dependent differential expression of c-Fos and Egr-1 in several brain regions. Adolescentes Adolescents Behavior Comportamento Etanol Ethanol Fos gene Genes Fos Limbic system. Nuclear protein Proteínas nucleares Sistema límbico.
28	Sensibilidade diferencial aos efeitos comportamentais induzidos por etanol e sobre a expressão de c-Fos e Egr-1, entre camundongos adultos e adolescentes. / Differential sensitivity to ethanol-induced behavioral effects and c-Fos /Egr-1 expression between adolescent and adult mice. Rulian Ricardo Faria 11 October 2007 (has links) A transição da adolescência (ADOLESC) para a idade adulta (ADULTO) é caracterizada por uma maturação de comportamentos, assim como de estruturas e sistemas do SNC. Este estudo investigou os efeitos da administração aguda e repetida de baixas doses de etanol (2,0 g/kg) em camundongos ADULTO (60 dias) e ADOLESC (28 dias), bem como a expressão de c-Fos e Egr-1 em distintas regiões cerebrais. Camundongos ADULTO e ADOLESC receberam agudamente salina (SAL) ou EtOH e sua atividade locomotora foi quantificada em campo aberto (CA). Uma hora após a injeção, a expressão de c-Fos e Egr-1 foi avaliada por imuno-histoquímica. Foram constatados: aumento na atividade locomotora e na expressão de c-Fos e Egr-1 nos animais tratados com EtOH. Outros animais ADULTO e ADOLESC foram tratados com EtOH ou SAL repetidamente (15 dias). Uma semana após o pré-tratamento, todos animais receberam etanol. A atividade locomotora foi quantificada e a expressão de c-Fos e Egr-1 foi avaliada. Os ADOLESC desenvolveram tolerância, enquanto que os ADULTO apresentaram sensibilização comportamental locomotora. A administração prolongada de etanol induziu alterações adaptativas diferenciadas, dependentes da idade, na expressão de c-Fos e Egr-1 em várias regiões encefálicas. / The transition from adolescence (ADOLESC) into adulthood (ADULT) is characterized by behavioral maturation, as well as of structures and systems of CNS. This study investigated the behavioral effects of acute and repeated administration of EtOH (2,0 g/kg) in ADULT and ADOLESC mice, as well as the c-Fos and Egr-1 expression induced by EtOH in distinctive brain structures. Locomotor activity from ADULT and ADOLESC mice acutely treated with either saline (SAL) or EtOH was measured in open field (OF). One hour after injections, c-Fos and Egr-1 expressions were evaluated by immunohistochemistry. The results demonstrated increased locomotor activity and increased c-Fos and Egr-1 expression in EtOH-treated mice. Other groups of ADULT and ADOLESC mice were treated repeatedly with SAL or EtOH during 15 days. One week after this pretreatment, all animals received an injection of EtOH. The locomotor activity was quantified and c-Fos and Egr-1 expressions were evaluated. While ADULT mice presented behavioral sensitization, ADOLESC mice developed tolerance. The repeated administration of EtOH induced an age-dependent differential expression of c-Fos and Egr-1 in several brain regions. Adolescentes Comportamento Etanol Genes Fos Proteínas nucleares Sistema límbico. Adolescents Behavior Ethanol Fos gene Limbic system. Nuclear protein
29	Mapeamento de potencial nicho neurogênico no lobo temporal humano / Mapping of potential neurogenic niche in the human temporal lobe Adriano Barreto Nogueira 19 May 2014 (has links) No final do século 19, o neurônio foi descrito como a unidade funcional básica do sistema nervoso e sua formação era considerada inexistente na fase adulta, explicando a ausência de recuperação significativa em doenças neurológicas. Evidências de geração de neurônios em mamíferos adultos surgiram na década de 1960 e foram confirmadas três décadas depois. Atualmente, predomina a visão de que mamíferos adultos possuem dois nichos neurogênicos independentes: a zona subventricular (ZSV) e a zona subgranular (ZSG) do giro denteado. No entanto, a existência de nichos neurogênicos em humanos adultos é controversa. Nossa hipótese foi de que o mapeamento de nichos neurogênicos no lobo temporal humano poderia esclarecer aspectos sobre a neurogênese adulta. A detecção destes nichos foi buscada em 28 lobos temporais através de imuno-histoquímica para nestina, o marcador mais comum de células-tronco neurais, que são aquelas capazes de se autorrenovar e de gerar novas células neurais. A neurogênese foi pesquisada no hipocampo pelo uso de DCX (do inglês \"doublecortin\"), o principal marcador de neuroblastos e neurônios imaturos. Nestina foi observada em uma camada contínua formada pela ZSV, zona subpial do lobo temporal medial e ZSG, terminando no subículo. A partir do subículo, uma intensa expressão de DCX ocorreu através da principal via eferente do hipocampo até a fímbria. A visão panorâmica das marcações por nestina e DCX mostrava em conjunto uma linha que circundava as estruturas límbicas do lobo temporal. Por isto, foi denominada linha externa de células do sistema límbico (LECEL). Uma possível explicação para os resultados é que a LECEL seja um nicho neurogênico no qual a ZSV, a zona subpial do lobo temporal medial e a ZSG formam uma unidade contendo células-tronco neurais que se diferenciam em neurônios no subículo. Curiosamente, a área identificada previamente como sendo a corrente migratória rostral humana (formada por células neurais imaturas migrando a partir da ZSV do corno frontal) pode ser na verdade o fórnix, que contém axônios originados no subículo. A implicação mais intrigante dos resultados é que se as características da LECEL seguirem além do lobo temporal, então o encéfalo humano pode conter um anel neurogênico límbico, em que a neurogênese ocorreria principalmente no subículo e seria modulada pelas estruturas relacionadas à fissura coroideia. Este estudo sugere que a neurogênese ocorre de maneira orquestrada em uma área ampla do lobo temporal humano / At the end of the 19th century, the neuron was described as the basic functional unit of the nervous system. The formation of neurons was thought to be absent in adulthood, thus explaining the lack of significant recovery from neurological diseases. Evidence for the generation of neurons in adult mammals was reported in the 1960s and confirmed three decades later. Currently, the prevailing view is that adult mammals harbour two neurogenic niches: the subgranular zone (SGZ) of the dentate gyrus and the subventricular zone (SVZ). Nonetheless, the existence of these niches in adult humans is controversial. We hypothesised that mapping neurogenic niches in the human temporal lobe could clarify this issue. The presence of neurogenic niches was examined in 28 temporal lobes via immunostaining for nestin, the most common marker for neural stem cells, which are cells with the capacities of self-renewal and the generation of neural cells. The presence of neurogenesis was examined in the hippocampus with doublecortin (DCX), a prominent marker for neuroblasts and immature neurons. Nestin was observed in a continuous layer that was formed by the SVZ, the subpial zone of the medial temporal lobe and the SGZ, terminating in the subiculum. In the subiculum, remarkable DCX expression was observed through the principal efferent pathway of the hippocampus to the fimbria. A panoramic view of nestin and DCX staining collectively displayed a line that surrounded the limbic structures of the temporal lobe. Hence, we termed it the external line of cells of the limbic system (EXCEL). A possible explanation for the results is that the EXCEL is a neurogenic niche, in which the SVZ, the subpial zone of the medial temporal lobe and the SGZ form a unit containing neural stem cells that differentiate into neurons in the subiculum. Curiously, the area previously identified as the human rostral migratory stream (formed by immature neural cells that migrate from the SVZ of the frontal horn) may in truth be the fornix, which contains axons that originate in the subiculum. Perhaps most intriguingly, if the EXCEL acts as a neurogenic niche beyond the boundaries of the temporal lobe, the human brain may contain a limbic neurogenic ring, in which neurogenesis would occur in the subiculum through the modulation of choroid fissure-related structures. This study suggests that neurogenesis may occur in an orchestrated manner in a broad area of the human temporal lobe Adulto Humanos Lobo temporal Neurogênese Nicho de células-tronco Sistema límbico Adult Humans Limbic system Neurogenesis Stem cell niche Temporal lobe
30	Výskyt symptomů temporolimbické dysfunkce u epileptiků / Signs of the temporolimbic dysfunction in epileptics Nováková, Vladimíra January 2017 (has links) v anglickém jazyce Charles University in Prague Faculty of Pharmacy in Hradec Králové Department of Biological and Medical Sciences Author: Bc. Vladimíra Nováková Supervisor: Doc. MUDr. Josef Herink, DrSc. Title of diploma thesis: Signs of the temporolimbic dysfunction in epileptics The diploma thesis deals with signs of the temporolimbic dysfunction in epileptics and it is divided into the two main parts. The theoretical part summarized the issue of the temporo-limbic dysfunction. Then a survey of the basic knowledge of epilepsy with concentration on characteristic of temporal epilepsy is given. The practical part is targeted to the questionnaire chosen evaluation and of the working hypotheses confirmation. The main aim of the diploma thesis was the incidence of the epilepsy spectrum disorder evaluation. Keywords: temporal lobe, limbic system, temporal epilepsy, temporolimbic dysfunction, questionnaire assessment

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