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Examining Infarct Sizes In Female Sprague Dawley Rats In Response To A Delayed Post-Stroke Pharmacological Treatment In Combination With Physical RehabilitationDharmadhikari, Sayali Ravindra 22 August 2016 (has links)
No description available.
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Examination Of A Post-Stroke Drug Treatment For Its Effect On Blood Brain Barrier Permeability, And Gene Expression Changes In The Peri-Infarct RegionPatel, Ankita Anil 29 August 2016 (has links)
No description available.
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Enhanced Neurogenesis In Subventricular Zone Of Rats That Voluntarily Ingest Fluoxetine And Simavastatin Combination TreatmentFlannery, Tiffany L. 02 May 2017 (has links)
No description available.
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"Determinantes funcionais e morfológicos de ação de droga sobre os pulmões utilizando um modelo experimental em cobaias sob uso do cloridrato de fluoxetina" / Functional and morphological determinants of drug action on the lungs through an experimental model in guinea pigs under use of fluoxetineCapelozzi, Marco Antonio 15 February 2005 (has links)
Muito se tem pesquisado sobre os efeitos adversos dos antidepressivos tricíclicos (p.e. imipramina) sobre o sistema respiratório, embora pouco ou quase nada se encontre com relação a tal aspecto na literatura médica sobre a fluoxetina (Prozac®) um inibidor seletivo da recaptação de serotonina, até porque esta droga começou a ser utilizada somente há cerca de quinze anos. Ambas substâncias (fluoxetina e imipramina, ou seus congêneres) agem basicamente sobre quadros depressivos, fóbicos e obsessivo-compulsivos, obesidade, anorexia, e outras indicações de várias naturezas, indo desde a ansiedade até a sindrome do pânico. Nota-se entretanto, que na maioria dos pacientes com tais quadros (sob tratamento com a fluoxetina ou não), são muito frequentes as queixas de natureza respiratória, como tosse, falta de ar, angústia" no peito etc. Alguns efeitos adversos da fluoxetina e seus derivados são descritos na literatura, embora raros. Entre eles, destaca-se o comprometimento do aparelho respiratório na forma de doença pulmonar intersticial, pneumonia de hipersensibilidade e fosfolipidose. Apresentamos a seguir um projeto de trabalho experimental em cobaias com intuito de verificar a ação da fluoxetina sobre o aparelho respiratório, com relação à mecânica pulmonar, influência sobre o óxido nítrico exalado e resposta histopatológica pulmonar frente a possíveis injúrias, comparados a animais controles sem efeito da droga. Nosso modelo descreve um protocolo em que os animais foram submetidos ao cloridrato de fluoxetina por via oral durante 30 dias consecutivos, sendo ainda submetidos a uma reação de estresse tipo pânico a natação forçada. / Although high-affinity imipramine binding sites have been reported in both rat and human lung, the role of the lungs in the pharmacokinetics of antidepressants like fluoxetine has not received much attention. Imipramine and fluoxetine have their action in depression, obesity, panic and anxiety among other indications. However, accumulation of selective serotonin-reuptake inhibitors- like fluoxetine, in the human lungs has been reported. Besides, it is very frequent to most patients (under fluoxetine treatment or not) present respiratory symptoms and/or signs, just like dyspnea, cough, chest anguish and so on. There also have been some adverse effects of fluoxetine described in the literature, although being few and isolated ones, related to hypersensitivity pneumonitis, phospholipidosis and interstitial lung disease. The purpose of this project is to investigate the fluoxetine action in respiratory tract, more specifically over the pulmonary interstitium, using an experimental model in guinea-pigs. Our project comprehends an experimental model with the animals under treatment of fluoxetine so that we could evaluate the substance effects on the respiratory system, concerning the mechanics and the lung histopathological aspects, compared to the control animals. We created then a protocol where the animals were treated with fluoxetine for 30 consecutive days and submmited to the forced swimmig test, a kind of panic-like reaction.
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"Determinantes funcionais e morfológicos de ação de droga sobre os pulmões utilizando um modelo experimental em cobaias sob uso do cloridrato de fluoxetina" / Functional and morphological determinants of drug action on the lungs through an experimental model in guinea pigs under use of fluoxetineMarco Antonio Capelozzi 15 February 2005 (has links)
Muito se tem pesquisado sobre os efeitos adversos dos antidepressivos tricíclicos (p.e. imipramina) sobre o sistema respiratório, embora pouco ou quase nada se encontre com relação a tal aspecto na literatura médica sobre a fluoxetina (Prozac®) um inibidor seletivo da recaptação de serotonina, até porque esta droga começou a ser utilizada somente há cerca de quinze anos. Ambas substâncias (fluoxetina e imipramina, ou seus congêneres) agem basicamente sobre quadros depressivos, fóbicos e obsessivo-compulsivos, obesidade, anorexia, e outras indicações de várias naturezas, indo desde a ansiedade até a sindrome do pânico. Nota-se entretanto, que na maioria dos pacientes com tais quadros (sob tratamento com a fluoxetina ou não), são muito frequentes as queixas de natureza respiratória, como tosse, falta de ar, angústia" no peito etc. Alguns efeitos adversos da fluoxetina e seus derivados são descritos na literatura, embora raros. Entre eles, destaca-se o comprometimento do aparelho respiratório na forma de doença pulmonar intersticial, pneumonia de hipersensibilidade e fosfolipidose. Apresentamos a seguir um projeto de trabalho experimental em cobaias com intuito de verificar a ação da fluoxetina sobre o aparelho respiratório, com relação à mecânica pulmonar, influência sobre o óxido nítrico exalado e resposta histopatológica pulmonar frente a possíveis injúrias, comparados a animais controles sem efeito da droga. Nosso modelo descreve um protocolo em que os animais foram submetidos ao cloridrato de fluoxetina por via oral durante 30 dias consecutivos, sendo ainda submetidos a uma reação de estresse tipo pânico a natação forçada. / Although high-affinity imipramine binding sites have been reported in both rat and human lung, the role of the lungs in the pharmacokinetics of antidepressants like fluoxetine has not received much attention. Imipramine and fluoxetine have their action in depression, obesity, panic and anxiety among other indications. However, accumulation of selective serotonin-reuptake inhibitors- like fluoxetine, in the human lungs has been reported. Besides, it is very frequent to most patients (under fluoxetine treatment or not) present respiratory symptoms and/or signs, just like dyspnea, cough, chest anguish and so on. There also have been some adverse effects of fluoxetine described in the literature, although being few and isolated ones, related to hypersensitivity pneumonitis, phospholipidosis and interstitial lung disease. The purpose of this project is to investigate the fluoxetine action in respiratory tract, more specifically over the pulmonary interstitium, using an experimental model in guinea-pigs. Our project comprehends an experimental model with the animals under treatment of fluoxetine so that we could evaluate the substance effects on the respiratory system, concerning the mechanics and the lung histopathological aspects, compared to the control animals. We created then a protocol where the animals were treated with fluoxetine for 30 consecutive days and submmited to the forced swimmig test, a kind of panic-like reaction.
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Affective Processing in Major Depressive Disorder: Neuroanatomical Correlates of State and Trait AbnormailitiesKonarski, Jakub Z. 21 April 2010 (has links)
Patients with MDD demonstrate impairments in various components of affective processing, which are believed to persist in the remitted phase of the illness and are believed to underlie the vulnerability for future relapse. Despite advances in neuropsychiatry, the neuroanatomical site of action of various treatment modalities remains unclear, leaving clinicians without an algorithm to guide optimal treatment selection for individual patients.
This thesis sought to characterize differences in brain activation during affective processing between MDD treatment responders (RS) and non-responders (NR) by combining clinical and neuroimaging variables in a repeat-measure functional magnetic resonance imaging (fMRI) investigation. We induced increases in positive and negative affect using visual stimuli under fMRI conditions in 21 MDD subjects and 18 healthy controls (HC).
Based on previous neuroimaging investigations and preclinical animal data, we hypothesized that increased activation of the amygdala and the pregenual cingulate during negative affect induction (NAI), and decreased activity of the ventral striatum during positive affect induction (PAI), would differentiate ultimate NR from RS. Following the first scan, treatment with fluoxetine and olanzapine was initiated in the MDD group, with follow-up scans at one- and six-weeks thereafter. We hypothesized that decreases in depressive symptoms would be associated with decreased activation of the ventromedial prefrontal cortex (PFC) and amygdala during NAI and increased activation of the hippocampus during PAI.
Eleven MDD subjects met criteria for clinical remission at study endpoint. Based on trait differences between MDD and HC, we hypothesized that differences observed during NAI would be limited to brain regions involved in regulation of the affective state, including the dorsolateral PFC and the anterior midcingulate cortex.
The results of the analyses confirmed the a-prior hypotheses and additionally demonstrated differential activation of the insular, medial temporal, and premotor cortex during repeat PAI and NAI between HC, RS, and NR. These findings provide: i) a neuroanatomical target of successful antidepressant therapy during PAI/NAI; ii) a differential effect of depressive symptoms and dispositional affect on brain activation during PAI/NAI; and iii) an a-prior method to differentiate RS from NR, and iv) demonstrate the need for additional treatment to prevent relapse in the remitted state.
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Plasticité du cortex visuel: «homéodynamie» des connexions neuronales et modèle d’effets d’antidépresseursBachatene, Lyes 04 1900 (has links)
Les informations sensorielles sont traitées dans le cortex par des réseaux de neurones co-activés qui forment des assemblées neuronales fonctionnelles. Le traitement visuel dans le cortex est régit par différents aspects des caractéristiques neuronales tels que l’aspect anatomique, électrophysiologique et moléculaire.
Au sein du cortex visuel primaire, les neurones sont sélectifs à divers attributs des stimuli tels que l’orientation, la direction, le mouvement et la fréquence spatiale. Chacun de ces attributs conduit à une activité de décharge maximale pour une population neuronale spécifique.
Les neurones du cortex visuel ont cependant la capacité de changer leur sélectivité en réponse à une exposition prolongée d’un stimulus approprié appelée apprentissage visuel ou adaptation visuelle à un stimulus non préférentiel.
De ce fait, l’objectif principal de cette thèse est d’investiguer les mécanismes neuronaux qui régissent le traitement visuel durant une plasticité induite par adaptation chez des animaux adultes. Ces mécanismes sont traités sous différents aspects : la connectivité neuronale, la sélectivité neuronale, les propriétés électrophysiologiques des neurones et les effets des drogues (sérotonine et fluoxétine). Le modèle testé se base sur les colonnes d’orientation du cortex visuel primaire.
La présente thèse est subdivisée en quatre principaux chapitres. Le premier chapitre (A) traite de la réorganisation du cortex visuel primaire suite à une plasticité induite par adaptation visuelle. Le second chapitre (B) examine la connectivité neuronale fonctionnelle en se basant sur des corrélations croisées entre paires neuronales ainsi que sur des corrélations d’activités de populations neuronales. Le troisième chapitre (C) met en liaison les aspects cités précédemment (les effets de l’adaptation visuelle et la connectivité fonctionnelle) aux propriétés électrophysiologiques des neurones (deux classes de neurones sont traitées : les neurones à décharge régulière et les neurones à décharge rapide ou burst). Enfin, le dernier chapitre (D) a pour objectif l’étude de l’effet du couplage de l’adaptation visuelle à l’administration de certaines drogues, notamment la sérotonine et la fluoxétine (inhibiteur sélectif de recapture de la sérotonine).
Méthodes
En utilisant des enregistrements extracellulaires d’activités neuronales dans le cortex visuel primaire (V1) combinés à un processus d’imagerie cérébrale optique intrinsèque, nous enregistrons l’activité de décharge de populations neuronales et nous examinons l’activité de neurones individuels extraite des signaux multi-unitaires. L’analyse de l’activité cérébrale se base sur différents algorithmes : la distinction des propriétés électrophysiologiques des neurones se fait par calcul de l’intervalle de temps entre la vallée et le pic maximal du potentiel d’action (largeur du potentiel d’action), la sélectivité des neurones est basée sur leur taux de décharge à différents stimuli, et la connectivité fonctionnelle utilise des calculs de corrélations croisées. L’utilisation des drogues se fait par administration locale sur la surface du cortex (après une craniotomie et une durotomie).
Résultats et conclusions
Dans le premier chapitre, nous démontrons la capacité des neurones à modifier leur sélectivité après une période d’adaptation visuelle à un stimulus particulier, ces changements aboutissent à une réorganisation des cartes corticales suivant un patron spécifique. Nous attribuons ce résultat à la flexibilité de groupes fonctionnels de neurones qui étaient longtemps considérés comme des unités anatomiques rigides. En effet, nous observons une restructuration extensive des domaines d’orientation dans le but de remodeler les colonnes d’orientation où chaque stimulus est représenté de façon égale. Ceci est d’autant plus confirmé dans le second chapitre où dans ce cas, les cartes de connectivité fonctionnelle sont investiguées. En accord avec les résultats énumérés précédemment, les cartes de connectivité montrent également une restructuration massive mais de façon intéressante, les neurones utilisent une stratégie de sommation afin de stabiliser leurs poids de connectivité totaux. Ces dynamiques de connectivité sont examinées dans le troisième chapitre en relation avec les propriétés électrophysiologiques des neurones. En effet, deux modes de décharge neuronale permettent la distinction entre deux classes neuronales. Leurs dynamiques de corrélations distinctes suggèrent que ces deux classes jouent des rôles clés différents dans l’encodage et l’intégration des stimuli visuels au sein d’une population neuronale.
Enfin, dans le dernier chapitre, l’adaptation visuelle est combinée avec l’administration de certaines substances, notamment la sérotonine (neurotransmetteur) et la fluoxétine (inhibiteur sélectif de recapture de la sérotonine). Ces deux substances produisent un effet similaire en facilitant l’acquisition des stimuli imposés par adaptation. Lorsqu’un stimulus non optimal est présenté en présence de l’une des deux substances, nous observons une augmentation du taux de décharge des neurones en présentant ce stimulus. Nous présentons un modèle neuronal basé sur cette recherche afin d’expliquer les fluctuations du taux de décharge neuronale en présence ou en absence des drogues.
Cette thèse présente de nouvelles perspectives quant à la compréhension de l’adaptation des neurones du cortex visuel primaire adulte dans le but de changer leur sélectivité dans un environnement d’apprentissage. Nous montrons qu’il y a un parfait équilibre entre leurs habiletés plastiques et leur dynamique d’homéostasie. / Sensory informations are computed in the cortex by networks of co-activated neurons forming functional ensembles. Visual processing in the cortex underlies several aspects of neuronal characteristics such as anatomical, electrophysiological and molecular.
In the primary visual cortex, neurons display selectivity for stimulus features such as orientation, motion direction and spatial frequency. Each stimulus property elicits a maximal firing rate of specific neuronal populations.
Visual neurons display transient modifications of their response properties following prolonged exposure to an appropriate stimulus using visual learning or visual adaptation to a non-preferred stimulus.
The main objective of this thesis is to investigate the neuronal mechanisms underlying the visual processing during adaptation-induced plasticity in adult animals. These mechanisms are examined through different aspects: the neuronal connectivity, the neuronal selectivity, the electrical properties of neurons, and the effects of drugs (serotonin and fluoxetine). The tested model is the orientation columns of the primary visual cortex.
The present thesis is divided into four main chapters. The first chapter (A) focuses on the cortical reorganization following visual adaptation. The second chapter (B) examines the neuronal connectivity using pair-wise correlations and populational correlations of neuronal activities. The third chapter (C) further relate the previous aspects, i.e. the adaptation effects and the functional connectivity to the properties of neurons (two classes: regular-spiking and
fast-spiking neurons). Finally, the fourth chapter (D) investigates the coupling of visual adaptation with the local administration of drugs (serotonin and fluoxetine).
Methodology
Using in vivo extracellular recordings of the neural activity in the primary visual cortex (V1) combined with intrinsic optical brain imaging, we record the spiking activity of neuronal populations and examine, from the multi-unit activity, the activity of individual neurons. The analysis of brain activity uses different algorithms: the electrophysiological distinctions between neurons are based on the trough-to-peak time of each spike (spike-width), the selectivity of neurons is based on the firing rate at different stimuli, and the functional connectivity uses a crosscorrelation computation. The usage of drugs is performed locally on the visual cortex (after craniotomy and removing of the dura).
Results and conclusions
In the first chapter, we demonstrate the ability of neurons to modify their selectivity to the presented stimuli following visual adaptation, exhibiting a well-organized reprogramming of the orientation columns; we attribute this result to a flexibility of functional units rather than rigid anatomical structures. Indeed, we observe an extensive restructuring of the complete orientation domain in order to refine the columnar organization where every stimulus is equally represented. This is further confirmed in the second chapter where in this case, the connectivity maps are investigated. In concordance with the previous results, the connectivity maps also exhibit restructuring but interestingly, neurons use a summative strategy to stabilize their total connectivity weights. These connectivity dynamics are examined in the third chapter in relation to electrophysiological properties of neurons. Indeed, two differently firing modes dissociate between two classes of neurons. Their distinct correlation dynamics point to the fact that they play different key roles in stimulus encoding within a neuronal population. Finally, in the last chapter, visual adaptation is coupled with the administration of serotonin and fluoxetine. Both drugs produce similar effects by facilitating the acquisition of the imposed stimulus. The non-preferred stimulus when adapted with the presence of the drug results in an increased firing rate of neurons at this particular stimulus. We present a neuronal model based on our findings to explain the fluctuations of firing with and without the drug.
This thesis provides new insights into how visual neurons adapt to change their selectivity in the interplay between their plastic ability and their homeostatic dynamic.
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Avaliação do tratamento de depressão em pacientes com doença de Parkinson através de ressonância magnética funcional / Evaluation of depression treatment in Parkinson\'s disease patients with functional magnetic resonanceCardoso, Ellison Fernando 04 April 2008 (has links)
O circuito neuronal relacionado à depressão na doença de Parkinson (DP), assim como os efeitos da terapia antidepressiva nestes pacientes, não é bem estabelecido. Os métodos de neuroimagem podem levar ao melhor conhecimento da patogênese e também dos mecanismos de ação relacionados a um tipo específico de tratamento. Para avaliar as diferenças da atividade neuronal, comparamos 21 pacientes com DP e diagnóstico de depressão e 16 sem depressão através de ressonância magnética funcional (RMf) em uma tarefa cognitiva que inclui percepção emocional e escolha forçada com duas opções. Estes 21 pacientes deprimidos foram aleatorizados em dois grupos de tratamento por 4 semanas: estimulação magnética transcraniana (EMT) ativa sobre o córtex pré-frontal dorsolateral esquerdo ( 5 Hz EMT - 120% do limiar motor) com pílula placebo e EMT placebo com 20 mg diária de fluoxetina. Os pacientes foram submetidos a um experimento de RMf cujo paradigma foi relacionado a eventos apresentação visual de faces de conteúdo emocional. Os pacientes sem depressão realizaram RMf duas vezes (teste reteste) e os deprimidos quatro vezes (duas vezes antes e duas depois do tratamento). As imagens dos pacientes com DP e depressão demonstraram menor atividade no córtex pré-frontal medial quando comparados aos pacientes com DP sem depressão. Ambos os subgrupos de pacientes com DP e depressão apresentaram melhora significativa e similar dos sintomas da depressão. Após o tratamento com EMT ativa observou-se menor atividade do giro fusiforme esquerdo, do cerebelo e do córtex pré-frontal dorsolateral direito e maior atividade do córtex pré-frontal dorsolateral esquerdo e do cíngulo anterior nas imagens de RMf quando comparados àquelas antes do tratamento. Por outro lado a fluoxetina determinou aumento da atividade do córtex pré-motor direito e do córtex pré-frontal medial direito em imagens de RMf realizadas após o tratamento. Observou-se efeito de interação entre os grupos (tempo (pré x pós) versus tipo de tratamento (fluoxetina x EMT)) no córtex préfrontal medial esquerdo sendo maior o aumento no grupo tratado com EMT. Nossos achados mostraram: 1) padrão diferente de atividade cerebral em pacientes com DP com e sem depressão; 2) efeitos antidepressivos da EMT e da fluoxetina foram semelhantes e significativos;e 3) em pacientes com DP e depressão os efeitos da EMT e fluoxetina são associados a diferentes mudanças da atividade cerebral, e em ambos as áreas encontradas são parte da rede neural relacionada à depressão. / The neural circuitry underlying depression in patients with Parkinson\'s disease (PD) is unknown, let alone the treatment effects of antidepressant therapy. Neuroimaging methods can give insights into the pathogenesis of depression and also in the mechanisms of action related to specific treatment choice. In order to evaluate differences between PD patients with and without concomitant depression we studied 21 patients with PD and depression and 16 PD patients without depression using fMRI. All patients were examined using an event-related fMRI paradigm based on visual presentation of faces with emotional content in a two options forced choice task. Furthermore the twenty-one PD depressed patients were randomized in two active treatment groups for 4 weeks: active rTMS over left dorsolateral prefrontal cortex (5 Hz rTMS - 120% motor threshold) with placebo pill and sham rTMS with fluoxetine 20 mg/day. Event-related fMRI with emotional stimuli was performed before and after treatment - in two sessions (test and re-test) at each time point. The same test-retest approach was adopted in the group of non-depressed PD patients. The analysis showed significant differences between depressed and non-depressed PD patients in the medial pre-frontal cortex, with reduced activation as detected by BOLD effect in the later group. The two groups of depressed PD patients showed a had a significant treatment effect, and with similar mood improvement. After rTMS treatment, there were brain activity decreases in left fusiform gyrus, cerebellum and right dorsolateral prefrontal cortex (DLPFC) and brain activity increases in left DLPFC and anterior cingulate gyrus as compared to baseline. In contrast, after fluoxetine treatment, there was brain activity increases in right premotor and right medial prefrontal cortex. There was a significant interaction effect between groups versus time in the left medial prefrontal cortex, suggesting that the activity in this area changed differently in the two treatment groups. Our findings show that medial prefrontal cortex is a critical area in the depression neural circuitry in PD. Antidepressant effects of rTMS and fluoxetine in PD are associated with changes in different areas of the depression-related neural network.
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\"Otimização da extração, separação cromatográfica, identificação e quantificação de fármacos em fluidos biológicos\" / \"Optimization of the extraction, chromatographic separation, identification, and quantification of drugs in biological fluids\"Fernandes, Christian 20 December 2006 (has links)
Este trabalho apresenta o desenvolvimento de diferentes métodos para a determinação de fluoxetina, norfluoxetina e bisfosfonatos, utilizando técnicas modernas de preparo de amostras. Dentre eles, um método simples e sensível, empregando microextração em fase sólida (SPME) e cromatografia líquida foi desenvolvido para a análise de fluoxetina e norfluoxetina em plasma. As condições de SPME foram otimizadas empregando planejamento fatorial. A extração foi realizada utilizando fibras com PDMS-DVB, e a etapa de dessorção foi realizada em uma nova interface homemade com sistema de aquecimento. Extração com sorção em barra de agitação (SBSE) com derivatização in-situ, combinada com dessorção com solventes ou dessorção térmica, acoplada à cromatografia gasosa e espectrometria de massas (GC-MS), foi também empregada para a determinação de fluoxetina em plasma. Avaliou-se a derivatização dos analitos in situ com cloroformato de etila, bem como os parâmetros tempo de extração, solvente e tempo de dessorção. A combinação de SBSE e LC-MS foi também avaliada. As amostras de plasma foram submetidas à precipitação de proteínas com ácido tricloroacético, extraídas com SBSE, e analizadas por LC-MS. Os métodos SPME-LC, SBSE-GC e SBSE-LC desenvolvidos foram completamente validados, demonstrando serem adequados para analisar fluoxetina em amostras de plasma. Métodos rápidos para a determinação de etidronato, clodronato, pamidronato e alendronato, baseados em cromatografia de troca iônica com detecção indireta no ultravioleta, foram também desenvolvidos. Os métodos são simples e demonstraram precisão, exatidão e especificidade. Além disso, os métodos validados empregam colunas de sílica, mais baratas e de mais disponibilidade do que as colunas poliméricas, frequentemente utilizadas em métodos descritos na literatura para o mesmo propósito. / This study describes different methods to analyze fluoxetine, norfluoxetine and bisphosphonates, employing modern sample preparation techniques. A simple and sensitive procedure using solid-phase microextraction (SPME) coupled with liquid chromatography was developed for the analysis of fluoxetine and norfluoxetine in plasma samples. SPME conditions were optimized employing a factorial design. The sampling step was performed using a PDMS-DVB fiber and desorption was carried out in a novel homemade heated interface. Stir bar sorptive extraction (SBSE) with in situ derivatization, in combination with either thermal or liquid desorption on-line coupled to gas chromatography-mass spectrometry (GC-MS), was employed for the analysis of fluoxetine. In situ derivatization using ethylchloroformate was evaluated as well as parameters such as solvent polarity, time for analytes desorption, and extraction time. SBSE combined with liquid chromatography and mass spectrometry was also used to analyze fluoxetine in plasma. Plasma samples were first submitted to protein precipitation with trichloroacetic acid, subjected to SBSE, and thereafter analyzed by LC-MS. SPME-LC, SBSE-GC, and SBSE-LC methods were completely validated showing to be adequate to assess fluoxetine in plasma samples. Rapid methods for etidronate, clodronate, pamidronate and alendronate assay were also developed. The methods were based on ion chromatography with indirect ultraviolet detection, which avoids the need for chemical derivatization procedures. The methods were simple, rapid, and demonstrated precision, accuracy, and specificity. Furthermore, they employed silica-based columns, cheaper and more readily available than polymeric columns, frequently used in previous reported methods.
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Avaliação neuropsicológica de crianças e adolescentes com TOC: comparação com controles saudáveis e desfechos pós-tratamento / Neuropsychological evaluation of children and adolescents with OCD: comparison with healthy controls and post-treatment outcomesSouza, Marina de Marco e 28 November 2018 (has links)
Até o momento, são escassos os estudos que se propuseram a investigar o funcionamento cognitivo das crianças e adolescentes com Transtorno Obsessivo-Compulsivo (TOC). Os estudos disponíveis apontam que essa população apresenta pior desempenho nos testes neuropsicológicos que avaliam as funções executivas, a memória não-verbal, o funcionamento visuoespacial e a velocidade de processamento, em comparação aos sujeitos saudáveis. Mesmo com esses achados, poucos autores averiguaram a influência dos tratamentos de primeira linha para o TOC [Terapia Cognitivo- Comportamental (TCC) e inibidores de recaptura de serotonina (IRS)] na cognição. Vale ressaltar que tais estudos expressam resultados divergentes, não havendo um consenso sobre a melhora ou manutenção dos déficits no desempenho dos jovens após o tratamento. Diante deste contexto, o presente estudo teve como objetivos: A) Comparar as características sociodemográficas e clínicas e o funcionamento cognitivo de uma amostra pediátrica com TOC e sujeitos saudáveis; B) Verificar as modificações no funcionamento cognitivo do grupo TOC após 14 semanas de tratamento farmacológico ou psicoterápico. Para isso, foram avaliados 82 crianças e adolescentes com TOC e 82 controles saudáveis, com idades entre 6-17 anos, com questionários para avaliação de sintomas psiquiátricos e uma bateria de testes neuropsicológicos. Todos os participantes do estudo foram submetidos às avaliações na linha de base. Os pacientes, após randomização para TCC em grupo ou fluoxetina (FLX), foram reavaliados findadas 14 semanas de tratamento. A análise dos dados indicou que os pacientes apresentam desempenho cognitivo global pior que os controles, havendo diferenças significativas no QI de execução, nas habilidades visuoconstrutivas, na memória episódica não verbal e na flexibilidade mental. Variáveis clínicas, como idade de início dos sintomas, gravidade dos sintomas do TOC, dimensões dos sintomas obsessivo-compulsivos e comorbidades, não correlacionaram com o pior desempenho dos pacientes nos diferentes testes neuropsicológicos. Após 14 semanas de tratamento, embora os pacientes tenham apresentado melhora clínica dos sintomas obsessivo-compulsivos, o mesmo não ocorreu com as diferentes funções neuropsicológicas, mesmo naquelas que estavam prejudicadas na linha de base. De acordo com os resultados do presente estudo, as crianças e adolescentes com TOC apresentam pior desempenho cognitivo global em provas neuropsicológicas quando comparados aos controles saudáveis. O fato da melhora dos sintomas não ser acompanhada da melhora do desempenho neuropsicológico dos pacientes, sugere que as alterações cognitivas observadas no grupo TOC sejam relacionadas à própria neurobiologia do transtorno, independentemente da gravidade dos sintomas. Futuros estudos longitudinais serão necessários para aumentar a compreensão do funcionamento cognitivo dos jovens com TOC e as implicações do tratamento na sua cognição no longo prazo / To date, only a few studies have investigated the cognitive functioning of children and adolescents with Obsessive-Compulsive Disorder (OCD). These studies indicate that youth with OCD present a worse performance in neurocognitive tests that assess the executive functions, nonverbal memory, visuospatial functioning and processing speed. Despite these findings, only a few authors have investigated the influence of Cognitive-Behavioral Therapy (CBT) and selective serotonin reuptake inhibitors (SSRIs) on the cognition of youth with OCD. It is worth noting that these studies express divergent results, and there is no consensus on the improvement or maintenance of the cognitive deficits after treatment. In this context, the present study aimed: A) To compare the sociodemographic/ clinical characteristics and the cognitive functioning of youth with OCD and healthy controls; B) To verify the changes in cognitive functioning of children and adolescents with OCD after 14 weeks of randomized pharmacological or cognitive-behavioral treatment. Eighty-two children and adolescents with OCD and 82 healthy controls, aged between 6 and 17 years, were evaluated by means of structured questionnaires and a battery of neuropsychological tests. All participants underwent assessments at baseline. The OCD group, after being randomized to group CBT or Fluoxetine (FLX), was re-evaluated after 14 weeks of treatment. Data analyses indicated that patients presented a worse cognitive performance when compared to the healthy controls, with significant differences in performance IQ, visuoconstructive skills, nonverbal memory, and mental flexibility. Clinical variables, such as age of onset, severity of OCD symptoms, OCD dimensions and comorbidities, did not correlate with poorer performance on neuropsychological tests. Although patients had clinical improvement after 14 weeks of treatment, the same did not occur with the cognitive performance, even in those functions which were impaired at baseline. According to the results of the present study, youth with OCD present a worse cognitive performance when compared to controls. The fact that the improvement of the symptoms is not followed by the improvement of the neuropsychological performance suggests that the cognitive deficits observed in the OCD group may be related to the neurobiology of the disorder, regardless of the symptom severity. Future longitudinal studies will be needed to further clarify the cognitive functioning of youth with OCD and the implications of treatment on their cognition in the long run
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