998 resultados para Sistema Nervioso Central
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Mode of access: Internet.
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Mode of access: Internet.
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Mode of access: Internet.
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Acompaña atlas
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Mode of access: Internet.
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Mode of access: Internet.
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Mode of access: Internet.
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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES
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In the central nervous system (CNS) of mammalian, fast synaptic transmission between nerve cells is performed primarily by α-amino-3-hydroxy-5-methyl-4- isoxazolepropionic acid (AMPA) receptors, an ionotropic glutamate receptor that is related with learning, memory and homeostasis of the nervous system. Impairments in their functions are correlated with development of many brain desorders, such as epilepsy, schizophrenia, autism, Parkinson and Alzheimer. The use of willardiine analogs has been shown a powerful tool to understanding of activation and desensitization mechanisms of this receptors, because the modification of a single ligand atom allows the observation of varying levels of efficacy. In this work, taking advantage of Fluorine Willardiine (1.35Å), Hydrogen Willardiine (1.65Å), Bromine Willardiine (1.8Å) and Iodine Willardiine (2.15Å) structures co-crystalized with GluA2 with codes 1MQI, 1MQJ, 1MQH and 1MQG, we attempted to energetically differentiate the four ligands efficacy. The complexes were submitted to energetic calculations based on density functional theory (DFT), under the optics of molecular fractionation with conjugate caps (MFCC) method. Obtained results show a relationship between the energetic values and willardiines efficacy order (FW> HW > BrW > IW), also show the importance of E705, R485, Y450, S654, T655, T480 e P478 as the amino acids that contribute most strongly with the interaction of four partial agonists. Furthermore, we outlined the M708 behaviour, attracted by FW and HW ligands, and repels by BrW and IW. With the datas reported on this work, it is possible for a better understanding of the AMPA receptor, which can serve as an aid in the development of new drugs for this system.
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A epilepsia é uma patologia crônica do sistema nervoso central que afeta cerca de 65 milhões de indivíduos no mundo. Aproximadamente 30% desses indivíduos desenvolvem crises convulsivas que persistem apesar do tratamento monitorado com drogas antiepiléptica s. Assim, há uma evidente necessidade do desenvolvimento de novos fármacos antiepilépticos e as peçonhas podem ser uma excelente fonte de modelos. Nesse contexto, enquanto já vários estudos sobre peçonhas de serpentes, escorpiões e aranhas, pouco se sabe s obre as peçonhas de formigas. Estudos prévios do nosso laboratório demonstraram que a peçonha desnaturada da formiga Dinoponera quadríceps protegeu camundongos de crises convulsivas e morte induzidas por bicuculina (BIC). Nesse contexto, o objetivo desse t rabalho foi investigar o potencial anticonvulsivante de frações isoladas da peçonha de D. quadríceps em crises convulsivas induzidas pela BIC, bem como uma análise dos efeitos dessas frações no comportamento natural dos camundongos no campo aberto. Os anim ais foram divididos em grupos, os quais receberam injeções (1 mg/ml i.c.v.) de seis frações distintas e tiveram seu comportamento geral observado no campo aberto durante 3 0 min. No segundo experimento, o s animais receberam as mesmas frações 20 min antes da administração de bicuculina (10 mg/ml). Em seguida, foi analisado o comportamento motor convulsivo desses animais durante 30 minutos no campo aberto. No primeiro experimento, não foram observadas alterações comportamentais. Já no segundo experimento, a ad ministração prévia de DqTx1, DqTx3, DqTx4 e DqTx6 aumentou a latência para o desenvolvimento de crises tônico - clônicas. Além disso, todas as frações, exceto DqTx5, aumentaram a latência para a morte dos animais. Ainda, os melhores resultados foram obtidos com a fração DqTx6, que protegeu 62,5% dos animais testados contra o desenvolvimento de crises tônico - clônicas e 100% dos animais contra a morte.
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The primary somatosensory cortex (S1) receives inputs from peripheral tactile receptors and plays a crucial role on many important behaviors. However, the plastic potential of this region is greatly reduced during adulthood, limiting functional recovery after injuries. This fact is due to the presence, in the brain parenchima, of structures and substances that have an inhibitory effect on plasticity, such as chondroitin sulfate proteoglicans (CSP) present in the perineuronal.nets (PNNs) surrounding a subset of neurons. Maturation of PNNs coincide with the closure of critical periods of plasticity in cortical areas, since CSP act to stabilize synaptic contacts. Removal of CSP is proven to be an effective therapeutic approach to restore plasticity and increase the odds of functional recovery after cortical lesion. In the present work, we removed CSP from the sensorimotor cortex of rats to restore plasticity and promote the compensatory morphofunctional regeneration of cortical circuits modified by removal of mystacial vibrissae during the critical period. Treatment with the CSP-digesting enzyme chondroitinase ABC proved efficient to restore plasticity in S1 circuits, as evidenced by morphological rearrangements and functional recovery.
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The primary somatosensory cortex (S1) receives inputs from peripheral tactile receptors and plays a crucial role on many important behaviors. However, the plastic potential of this region is greatly reduced during adulthood, limiting functional recovery after injuries. This fact is due to the presence, in the brain parenchima, of structures and substances that have an inhibitory effect on plasticity, such as chondroitin sulfate proteoglicans (CSP) present in the perineuronal.nets (PNNs) surrounding a subset of neurons. Maturation of PNNs coincide with the closure of critical periods of plasticity in cortical areas, since CSP act to stabilize synaptic contacts. Removal of CSP is proven to be an effective therapeutic approach to restore plasticity and increase the odds of functional recovery after cortical lesion. In the present work, we removed CSP from the sensorimotor cortex of rats to restore plasticity and promote the compensatory morphofunctional regeneration of cortical circuits modified by removal of mystacial vibrissae during the critical period. Treatment with the CSP-digesting enzyme chondroitinase ABC proved efficient to restore plasticity in S1 circuits, as evidenced by morphological rearrangements and functional recovery.
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Me decidí a realizar la siguiente ponencia, para analizar y reconocer la importancia que implica el trabajo cognitivo en el entrenamiento deportivo. El abordaje que efectuaré, está enfocado en el desarrollo del entrenamiento cognitivo, su fundamento y el desarrollo de la neuroplasticidad. Analizaré el concepto de neuroplasticidad y neurogénesis como base al sustento teórico de la neurociencia aplicada al deporte. También remarcaré diversas metodologías prácticas, con su fundamento teórico, de entrenamientos que generen estrés a nivel del sistema nervioso (SN) generando nuevas adaptaciones. Considero desde mi mirada profesional, que el entrenamiento físico debe ser acompañado por una forma de entrenamiento que ponga en jaque a los engramas motores básicos y combinados del deportista y genere nuevas estructuras que doten de mejores herramientas al sujeto a la hora de resolver un problema dentro del juego. En este juego, toma gran relevancia el trabajo del profesor en educación física dentro del gimnasio o centro deportivo conjugado los trabajos físicos con situaciones que estresen al SN y generen nuevas adaptaciones
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Me decidí a realizar la siguiente ponencia, para analizar y reconocer la importancia que implica el trabajo cognitivo en el entrenamiento deportivo. El abordaje que efectuaré, está enfocado en el desarrollo del entrenamiento cognitivo, su fundamento y el desarrollo de la neuroplasticidad. Analizaré el concepto de neuroplasticidad y neurogénesis como base al sustento teórico de la neurociencia aplicada al deporte. También remarcaré diversas metodologías prácticas, con su fundamento teórico, de entrenamientos que generen estrés a nivel del sistema nervioso (SN) generando nuevas adaptaciones. Considero desde mi mirada profesional, que el entrenamiento físico debe ser acompañado por una forma de entrenamiento que ponga en jaque a los engramas motores básicos y combinados del deportista y genere nuevas estructuras que doten de mejores herramientas al sujeto a la hora de resolver un problema dentro del juego. En este juego, toma gran relevancia el trabajo del profesor en educación física dentro del gimnasio o centro deportivo conjugado los trabajos físicos con situaciones que estresen al SN y generen nuevas adaptaciones
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The recent archaeological works in Hinojosa, allowed us to discover a camp from Roman republic period. It is located in the center of the Celtiberian area and its study could open interesting perspectives to study this historical period. This paper shows the results of its preliminary studies.
