984 resultados para Regula Pastoralis
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O plasma não térmico nos cuidados de saúde é um campo emergente que tem as suas raízes na ciência de plasmas. Este tipo de investigação tem crescido rapidamente e é agora objeto de um amplo esforço de pesquisa interdisciplinar envolvendo a medicina, a biologia, a física, a química e a engenharia. Têm sido feitos vários trabalhos de modo a elucidar quais as interações das espécies produzidas pelo plasma com os sistemas vivos. É evidente que o mecanismo da interação do plasma com os sistemas vivos é complexo, em parte devido à complexidade do plasma mas principalmente devido à enorme complexidade da biologia. O principal objetivo desta dissertação foi observar os efeitos do plasma não térmico à pressão atmosférica (PNTPAs) no desenvolvimento larval e anomalias morfológicas de Drosophila melanogaster. Para o efeito, foram expostas e analisadas fenotipicamente 2.566 larvas após exposição, dos diferentes estádios (1.º, 2.º e 3.º) de desenvolvimento. Os testes foram realizados com aplicações de plasma com e sem ultra violeta, em duas linhas diferentes de Drosophila; uma linha selvagem preparada por nós e uma linha laboratorial. A análise fenotípica revelou que após exposição as larvas apresentavam alterações no fenótipo e no comportamento que não foram observadas no controlo, nomeadamente anomalias nas mudas, traqueias partidas, formação de massas melanóticas que podiam persistir até à fase adulta, excesso de gotículas lipídicas, atraso no desenvolvimento, comportamento de não alimentação e formação de pupa imatura que levava à formação de pupa precoce e morte pupal. Na fase pupal, as anomalias mais comuns estavam relacionadas com a forma do pupário (causadas pela pipação prematura), apresentando um desenvolvimento aberrante. Entre os vários fenótipos observados, o mais significativo foi o criptocefálico (alterações na eversão dos discos imaginais) levando à morte pupal. Nos adultos, as principais anomalias morfológicas foram registadas na formação e segmentação das patas, na forma e padrão das nervuras das asas e na formação do tórax. A similaridade destes resultados com trabalhos publicados relacionados com a hormona esteróide ecdisona indicam que provavelmente o PNTPA poderá ter influenciado a biossíntese e/ou a regulação da ecdisona, a principal hormona que regula o desenvolvimento e a metamorfose em Drosophila.
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Dopamine (DA) is known to regulate both sleep and memory formations, while sleep plays a critical role in the consolidation of different types of memories. We believe that pharmacological manipulation of dopaminergic pathways might disrupt the sleep-wake cycle, leading to mnemonic deficits, which can be observed in both behavioral and molecular levels. Therefore, here we investigated how systemic injections of haloperidol (0.3 mg/kg), immediately after training in dark and light periods, affects learning assessed in the novel object preference test (NOPT) in mice. We also investigated the hippocampal levels of the plasticity-related proteins Zif-268, brain-derived neurotrophic factor (BDNF) and phosphorylated Ca2+/calmodulin-dependent protein kinases II (CaMKII-P) in non-exposed (naïve), vehicle-injected controls and haloperidol-treated mice at 3, 6 and 12 hours after training in the light period. Haloperidol administration during the light period led to a subsequent impairment in the NOPT. In contrast, preference was not observed during the dark period neither in mice injected with haloperidol, nor in vehicle-injected animals. A partial increase of CaMKII-P in the hippocampal field CA3 of vehicle-injected mice was detected at 3h. Haloperidol-treated mice showed a significant decrease in the dentate gyrus of CaMKII-P levels at 3, 6 and 12h; of Zif-268 levels at 6h, and of BDNF levels at 12h after training. Since the mnemonic effects of haloperidol were only observed in the light period when animals tend to sleep, we suggest that these effects are related to REM sleep disruption after haloperidol injection
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Conventional control strategies used in shunt active power filters (SAPF) employs real-time instantaneous harmonic detection schemes which is usually implements with digital filters. This increase the number of current sensors on the filter structure which results in high costs. Furthermore, these detection schemes introduce time delays which can deteriorate the harmonic compensation performance. Differently from the conventional control schemes, this paper proposes a non-standard control strategy which indirectly regulates the phase currents of the power mains. The reference currents of system are generated by the dc-link voltage controller and is based on the active power balance of SAPF system. The reference currents are aligned to the phase angle of the power mains voltage vector which is obtained by using a dq phase locked loop (PLL) system. The current control strategy is implemented by an adaptive pole placement control strategy integrated to a variable structure control scheme (VS-APPC). In the VS-APPC, the internal model principle (IMP) of reference currents is used for achieving the zero steady state tracking error of the power system currents. This forces the phase current of the system mains to be sinusoidal with low harmonics content. Moreover, the current controllers are implemented on the stationary reference frame to avoid transformations to the mains voltage vector reference coordinates. This proposed current control strategy enhance the performance of SAPF with fast transient response and robustness to parametric uncertainties. Experimental results are showing for determining the effectiveness of SAPF proposed control system
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Conventional control strategies used in shunt active power filters (SAPF) employs real-time instantaneous harmonic detection schemes which is usually implements with digital filters. This increase the number of current sensors on the filter structure which results in high costs. Furthermore, these detection schemes introduce time delays which can deteriorate the harmonic compensation performance. Differently from the conventional control schemes, this paper proposes a non-standard control strategy which indirectly regulates the phase currents of the power mains. The reference currents of system are generated by the dc-link voltage controller and is based on the active power balance of SAPF system. The reference currents are aligned to the phase angle of the power mains voltage vector which is obtained by using a dq phase locked loop (PLL) system. The current control strategy is implemented by an adaptive pole placement control strategy integrated to a variable structure control scheme (VS¡APPC). In the VS¡APPC, the internal model principle (IMP) of reference currents is used for achieving the zero steady state tracking error of the power system currents. This forces the phase current of the system mains to be sinusoidal with low harmonics content. Moreover, the current controllers are implemented on the stationary reference frame to avoid transformations to the mains voltage vector reference coordinates. This proposed current control strategy enhance the performance of SAPF with fast transient response and robustness to parametric uncertainties. Experimental results are showing for determining the effectiveness of SAPF proposed control system
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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior
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The circadian behavior associated with the 24 hours light-dark (LD) cycle (T24) is due to a circadian clock , which in mammals is located in the hypothalamic suprachiasmatic nucleus (SCN). Under experimental conditions in which rats are espoused to a symmetric LD 22h cycle (T22) the two SCN regions, ventrolateral (vl) and dorsomedial (dm), can be functionally isolated, suggesting that each region regulates distinct physiological and behavioral components. The vl region regulates the locomotor activity and slow wave sleep (SWS) rhythms, while the dm region assures the body temperature and paradoxical sleep (PS) rhythms regulation. This research aimed to deepen the knowledge on the functional properties of circadian rhythmicity, specifically about the internal desynchronization process, and its consequences to locomotor activity and body temperature rhythms as well as to the sleep-wake cycle pattern in rats. We applied infrared motion sensors, implanted body temperature sensors and a telemetry system to record electrocorticogram (ECoG) and electromyogram (EMG) in two rat groups. The control group under 24h period LD cycle (T24: 12hL-12hD) to the baseline record and the experimental group under 22h period LD cycle (T22: 11hL- 11hD), in which is known to occur the uncoupling process of the circadian locomotor activity rhythm where the animals show two distinct locomotor activity rhythms: one synchronized to the external LD cycle, and another expressed in free running course, with period greater than 24h. As a result of 22h cycles, characteristic locomotor activity moment appear, that are coincidence moments (T22C) and non coincidence moments (T22NC) which were the main focus or our study. Our results show an increase in locomotor activity, especially in coincidence moments, and the inversion of locomotor activity, body temperature, and sleep-wake cycle patterns in non coincidence moments. We can also observe the increase in SWS and decrease in PS, both in coincidence and non coincidence moments. Probably the increases in locomotor activity as a way to promote the coupling between circadian oscillators generate an increased homeostatic pressure and thus increase SWS, promoting the decreasing in PS
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Experiencia reciente y desafíos para la generación de renta petrolera "aguas arriba" en la Argentina
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