Teaching and learning sexuality in nursing education

Sexuality is recognized as part of holistic nursing care, but its inclusion in clinical practice and nursing training is inconsistent. Based on the question "How students and teachers acknowledge sexuality in teaching and learning?", we developed a study in order to characterize the process of teaching and learning sexuality in a micro perspective of curriculum development. We used a mixed methods design with a sequential strategy: QUAN-qual of descriptive and explanatory type. 646 students and teachers participated. The quantitative component used questionnaire surveys. Document analysis was used in the additional component. A curricular dimension of sexuality emerges guided by a behaviourist line and based on a biological vision. The issues considered sage are highlighted and framed in steps of adolescence and adulthood and more attacghed to female sexuality and procreative aspect. There is in emeergence a hidden curriculum by reference to content from other dimensions of sexuality but less often expressed. Theoretical learning follows a communicational model of reality through abstraction strategies, which infers a deductive method of learning, with a behaviourist approach to assessment. Clinical teaching adresses sexuality in combination with reproductive lealth nursing. The influencing factors of teaching and learning of sexuality were also explored. We conclude that the vision of female sexuality taught and learned in relation to women has a projection of care in clinical practice based on the same principles

Contributions of Neuroscience to Develop Teaching Strategies and Learning of Mathematics

The goal of the present work is to develop some strategies based on research in neurosciences that contribute to the teaching and learning of mathematics. The interrelationship of education with the brain, as well as the relationship of cerebral structures with mathematical thinking was discussed. Strategies were developed taking into consideration levels that include cognitive, semiotic, language, affect and the overcoming of phobias to the subject. The fundamental conclusion was the imperative educational requirement in the near future of a new teacher, whose pedagogic formation must include the knowledge on the cerebral function, its structures and its implications to education, as well as a change in pedagogy and curricular structure in the teaching of mathematics.

The Students’ Perspective of Geometry Teaching and Learning in High School

The purpose of this article is to present the results obtained from a questionnaire applied to Costa Rican high school students, in order to know their perspectives about geometry teaching and learning. The results show that geometry classes in high school education have been based on a traditional system of teaching, where the teacher presents the theory; he presents examples and exercises that should be solved by students, which emphasize in the application and memorization of formulas. As a consequence, visualization processes, argumentation and justification don’t have a preponderant role. Geometry is presented to students like a group of definitions, formulas, and theorems completely far from their reality and, where the examples and exercises don’t possess any relationship with their context. As a result, it is considered not important, because it is not applicable to real life situations. Also, the students consider that, to be successful in geometry, it is necessary to know how to use the calculator, to carry out calculations, to have capacity to memorize definitions, formulas and theorems, to possess capacity to understand the geometric drawings and to carry out clever exercises to develop a practical ability.

Variational and learning models for image and time series inverse problems

Inverse problems are at the core of many challenging applications. Variational and learning models provide estimated solutions of inverse problems as the outcome of specific reconstruction maps. In the variational approach, the result of the reconstruction map is the solution of a regularized minimization problem encoding information on the acquisition process and prior knowledge on the solution. In the learning approach, the reconstruction map is a parametric function whose parameters are identified by solving a minimization problem depending on a large set of data. In this thesis, we go beyond this apparent dichotomy between variational and learning models and we show they can be harmoniously merged in unified hybrid frameworks preserving their main advantages. We develop several highly efficient methods based on both these model-driven and data-driven strategies, for which we provide a detailed convergence analysis. The arising algorithms are applied to solve inverse problems involving images and time series. For each task, we show the proposed schemes improve the performances of many other existing methods in terms of both computational burden and quality of the solution. In the first part, we focus on gradient-based regularized variational models which are shown to be effective for segmentation purposes and thermal and medical image enhancement. We consider gradient sparsity-promoting regularized models for which we develop different strategies to estimate the regularization strength. Furthermore, we introduce a novel gradient-based Plug-and-Play convergent scheme considering a deep learning based denoiser trained on the gradient domain. In the second part, we address the tasks of natural image deblurring, image and video super resolution microscopy and positioning time series prediction, through deep learning based methods. We boost the performances of supervised, such as trained convolutional and recurrent networks, and unsupervised deep learning strategies, such as Deep Image Prior, by penalizing the losses with handcrafted regularization terms.

Integrated communication and learning towards autonomous mobile radio networks

The integration of distributed and ubiquitous intelligence has emerged over the last years as the mainspring of transformative advancements in mobile radio networks. As we approach the era of “mobile for intelligence”, next-generation wireless networks are poised to undergo significant and profound changes. Notably, the overarching challenge that lies ahead is the development and implementation of integrated communication and learning mechanisms that will enable the realization of autonomous mobile radio networks. The ultimate pursuit of eliminating human-in-the-loop constitutes an ambitious challenge, necessitating a meticulous delineation of the fundamental characteristics that artificial intelligence (AI) should possess to effectively achieve this objective. This challenge represents a paradigm shift in the design, deployment, and operation of wireless networks, where conventional, static configurations give way to dynamic, adaptive, and AI-native systems capable of self-optimization, self-sustainment, and learning. This thesis aims to provide a comprehensive exploration of the fundamental principles and practical approaches required to create autonomous mobile radio networks that seamlessly integrate communication and learning components. The first chapter of this thesis introduces the notion of Predictive Quality of Service (PQoS) and adaptive optimization and expands upon the challenge to achieve adaptable, reliable, and robust network performance in dynamic and ever-changing environments. The subsequent chapter delves into the revolutionary role of generative AI in shaping next-generation autonomous networks. This chapter emphasizes achieving trustworthy uncertainty-aware generation processes with the use of approximate Bayesian methods and aims to show how generative AI can improve generalization while reducing data communication costs. Finally, the thesis embarks on the topic of distributed learning over wireless networks. Distributed learning and its declinations, including multi-agent reinforcement learning systems and federated learning, have the potential to meet the scalability demands of modern data-driven applications, enabling efficient and collaborative model training across dynamic scenarios while ensuring data privacy and reducing communication overhead.

Presynaptic long-term depression at a central glutamatergic synapse: a role for CaMKII

CaMKII is a calcium-activated kinase that is abundant in neurons and has been strongly implicated in memory and learning. Here we show that low-frequency stimulation of glutamatergic afferents in hippocampal slices from juvenile domestic chicks results in long-term depression of synaptic transmission. This reduction does not require activation of NMDA or metabotropic glutamate receptors and does not require a rise in postsynaptic calcium. However, buffering presynaptic calcium prevents the reduction of the excitatory postsynaptic potential or current that is induced by low-frequency stimulation. in addition, application of the calmodulin antagonist calmidazolium, or the specific CaMKII antagonist KN-93, completely blocks long-term depression. These findings demonstrate a newsy discovered form of long-term synaptic depression in the avian hippocampus.

Mutations in the DLG3 gene cause nonsyndromic X-linked mental retardation

We have identified truncating mutations in the human DLG3 ( neuroendocrine dlg) gene in 4 of 329 families with moderate to severe X-linked mental retardation. DLG3 encodes synapse-associated protein 102 (SAP102), a member of the membrane-associated guanylate kinase protein family. Neuronal SAP102 is expressed during early brain development and is localized to the postsynaptic density of excitatory synapses. It is composed of three amino-terminal PDZ domains, an src homology domain, and a carboxyl-terminal guanylate kinase domain. The PDZ domains interact directly with the NR2 subunits of the NMDA glutamate receptor and with other proteins responsible for NMDA receptor localization, immobilization, and signaling. The mutations identified in this study all introduce premature stop codons within or before the third PDZ domain, and it is likely that this impairs the ability of SAP102 to interact with the NMDA receptor and/or other proteins involved in downstream NMDA receptor signaling pathways. NMDA receptors have been implicated in the induction of certain forms of synaptic plasticity, such as long-term potentiation and long-term depression, and these changes in synaptic efficacy have been proposed as neural mechanisms underlying memory and learning. The disruption of NMDA receptor targeting or signaling, as a result of the loss of SAP102, may lead to altered synaptic plasticity and may explain the intellectual impairment observed in individuals with DLG3 mutations.

A rapid screen of the severity of mild traumatic brain injury

This study investigated the sensitivity of information processing, recall and orientation tasks to the presence of mild Traumatic Brain Injury (mTBI). Fifty-six (40 male, 16 female) mTBI patients and 85 (57 male and 28 female) controls with orthopaedic injuries were tested within 24 hr of injury in the Department of Emergency Medicine. mTBI patients answered fewer orientation questions and recalled fewer words in delayed recall than orthopaedic patients. mTBI patients judged fewer sentences in 2 min than orthopaedic controls, and female mTBI patients judged fewer sentences than male mTBI patients. Male mTBI patients correctly recalled fewer words during immediate memory and learning than female mTBI patients and orthopaedic controls. Those mTBI patients with a history of previous head injuries did not perform more poorly than those mTBI patients without previous head injuries. These results indicate that tests of speed of information processing, word learning and orientation questions are sensitive to the acute effects of mTBI.

Novel action of a wake-promoting neuropeptide in hippocampus : inhibition of nmda receptor function at excitatory synapses through orexin-a

One of the most intriguing functions of the brain is the ability to learn and memorize. The mechanism through which memory and learning are expressed requires the activation of NMDA receptors (NMDARs). These molecular entities are placed at the postsynaptic density of excitatory synapses and their function is tightly controlled by the actions of several modulators at the extracellular, intracellular and pore sites. A large part of the intracellular modulation comes from the action of G-protein coupled receptors (GPCRs). Through intracellular cascades typically involving kinases and phosphatases, GPCRs potentiate or inhibit NMDARs, controlling the conductive state but also the trafficking within the synapse. The GPCRs are involved in the modulation of a variety of brain functions. Many of them control cognition, memory and learning performance, therefore, their effects on NMDARs are extensively studied. The orexinergic system signals through GPCRs and it is well known for the regulation of waking, feeding, reward and autonomic functions. Moreover, it is involved in potentiating hippocampus-related cognitive tasks. Orexin receptors and fibers are present within the hippocampus, but whether these directly modulate hippocampal cells and synapses has not yet been determined. During my thesis, I studied orexinergic actions on excitatory synaptic transmission via whole-cell patch-clamp recordings in rat acute hippocampal slices. I observed that exogenously applied orexin-A (ox-A) exerted a strong inhibitory action on NMDAR-mediated synaptic potentials at mossy fiber (MF)-CA3 synapses, by postsynaptically activating orexin-2 receptors, a minor inhibition at Schaffer collateral-CAl synapses and did not affect other synapses with the CA3 area. Moreover, I demonstrated that the susceptibility of NMDARs to ox- A depends on the tone of endogenous orexin known to fluctuate during the day-night cycle. In fact, in slices prepared during the active period of the rats, when endogenous orexin levels are high, NMDAR-currents were not affected by exogenously applied ox-A. The inhibitory effect of ox-A was, however, reverted when interfering with the orexinergic system through intraperitoneal injections of almorexant, a dual orexin receptor antagonist, during the active phase prior to slice preparation. This thesis work suggests that the orexinergic system regulates NMDAR-dependent information flow through select hippocampal pathways depending on the time-of-day. The specific orexinergic modulation of NMDARs at MFs dampens the excitability of the hippocampal circuit and could impede the mechanisms related to memory formation, possibly also following extended periods of waking. -- La capacité d'apprentissage et de mémorisation est une des fonctions les plus intrigantes de notre cerveau. Il a été montré qu'elles requièrent l'activation des récepteurs NMDA (NMDARs). Ces entités moléculaires sont présentes au niveau de la densité post-synaptique des synapses excitatrices et leur fonction est étroitement contrôlée par l'action de nombreux modulateurs au niveau extracellulaire, intracellulaire et membranaire de ces récepteurs. Une grande partie de la modulation intracellulaire s'effectue via l'action de récepteurs couplés aux protéines G (GPCRs). Grace à leurs cascades intracellulaires typiquement impliquant des kinases et des phosphatases, les GPCRs favorisent l'activation ou l'inhibition des NMDARs, contrôlant ainsi leur perméabilité mais aussi leur mouvement à la synapse. Les GPCRs sont impliquées dans de nombreuses fonctions cérébrales telles que la cognition, la mémoire ainsi que la capacité d'apprentissage c'est pour cela que leurs effets sur les NMDARs sont très étudiés. Le système orexinergique fait intervenir ces GPCRs et est connu par son rôle dans la régulation de fonctions physiologiques telles que l'éveil, la prise alimentaire, la récompense ainsi que d'autres fonctions du système nerveux autonome. De plus, ce système est impliqué dans la régulation de tâches cognitives liées à l'hippocampe. Bien que les fibres et les récepteurs à l'orexine soient présents dans l'hippocampe, leur mécanisme d'action sur les cellules et les synapses de l'hippocampe n'a pas encore été élucidé. Durant ma thèse, je me suis intéressée aux effets de l'orexine sur la transmission synaptique excitatrice en utilisant la méthode d'enregistrement en patch-clamp en configuration cellule entière sur des tranches aiguës d'hippocampes de rats. J'ai observé que l'application exogène d'orexine A d'une part inhibe fortement les courants synaptiques dépendants de l'activation des NMDARs au niveau de la synapse entre les fibres moussues et CA3 via l'activation post-synaptique des orexine récepteurs 2 mais d'autre part n'inhibe que de façon mineure la synapse entre les collatérales de Schaffer et CAI et n'affecte pas les autres synapses impliquant CA3. J'ai également démontré que la sensibilité des NMDARs à l'orexine A dépend de sa concentration endogène qui fluctue durant le cycle éveil-sommeil. En effet, lorsque les coupes d'hippocampes sont préparées durant la période active de l'animal correspondant à un niveau endogène d'orexine élevé, l'application exogène d'orexine A n'a aucun effet sur les courants dépendants de l'activation des NMDARs. Cependant, l'injection dans le péritoine, durant la phase active de l'animal, d'un antagoniste des orexine récepteurs, l'almorexant, va supprimer l'effet inhibiteur de l'orexine A. Les résultats de ma thèse suggèrent donc que le système orexinergique module les informations véhiculées par les NMDARs via des voies de signalisation sélectives de l'hippocampe en fonction du moment de la journée. La modulation orexinergique des NMDARs au niveau des fibres moussues diminue ainsi l'excitabilité du circuit hippocampal et pourrait entraver les mécanismes liés à la formation de la mémoire, potentiellement après de longues périodes d'éveil.

Descartes wears Converse: Liberal Arts for the Twenty-First Century Student

Students today have a different way of relating to information due to the new media channels that have arisen in the last decades. These have changed the way high-school and undergraduate students learn and they have altered the manner by which they perceive the world. Today’s Education Theory must take this fact into account in order to enhance the student’s learning process. The objective of this project is to give an example of how this enhancement may be achieved. First, it will give a brief overview of the relation between today’s young generations and the different channels of information; secondly, it will analyze the cognitive, psychological and educational theories that explain how the human brain learns and the important value that nonverbal information has for the memory system; afterwards, it will focus on this nonverbal information, looking at the possible effects that it may have on human memory and learning; finally, it will give an example of the practical implementation of this theory through the presentation of three animated instructional videos that have been created with the specific aim of enhancing the young generation’s understanding of some complex subjects of the Liberal Arts.

Plasticité synaptique dans l’aire tegmentaire ventrale : implication des endocannabinoïdes

Le système dopaminergique (DA) méso-corticolimbique du cerveau, qui prend son origine dans l'aire tegmentaire ventrale (ATV), est fortement impliqué dans les comportements motivés et la toxicomanie. Les drogues d'abus activent ce système et y induisent une plasticité synaptique de longue durée. Les neurones DA de l'ATV reçoivent sur leur arborisation dendritique une grande densité de terminaisons glutamatergiques. Les drogues d'abus induisent une potentialisation à long terme (PLT) de ces contacts glutamatergiques. La PLT est une augmentation prolongée de la transmission synaptique, qui semble sous-tendre la mémoire et l'apprentissage. Les endocannabinoïdes (ECs) sont des neurotransmetteurs qui agissent de façon rétrograde sur des récepteurs présynaptiques (CB1) pour diminuer la libération des neurotransmetteurs comme le glutamate. Les neurones libèrent les ECs à partir de leur compartiment somatodendritique suite à une stimulation des afférences et la dépolarisation membranaire qui s’ensuit. La neurotensine (NT) est un neuropeptide retrouvé de façon abondante dans le système DA du cerveau. Il a été découvert que la NT peut induire la libération des ECs dans le striatum. En faisant appel à une combinaison d’approches immunohistochimique, électrophysiologique et pharmacologique chez la souris, nous avons confirmé dans la première étude de cette thèse la présence des récepteurs CB1 sur les terminaisons glutamatergiques des neurones DA de l'ATV, et avons montré que leur activation induit une diminution de la libération de glutamate. Par ailleurs, nous avons montré que des trains de stimulation peuvent induire la libération des ECs. Nous avons découvert qu'en présence d'un antagoniste des récepteurs CB1, il y a facilitation de l’induction de la PLT. Cette observation suggère que les ECs ont un effet inhibiteur sur l’induction de la PLT, plutôt que sur son expression. Nous avons déterminé que le 2-arachidonoylglycerol (2-AG) est l’EC qui est principalement responsable de cette action inhibitrice. Finalement, la PLT induite en présence d’un antagoniste CB1 est aussi dépendante d'une activation des récepteurs NMDA du glutamate. Les travaux réalisés dans la deuxième étude de cette thèse ont montré que la NT est présente dans une sous-population de terminaisons axonales glutamatergiques dans l’ATV. Une application exogène de NT induit une diminution prolongée de l'amplitude des courants postsynaptiques excitateurs (CPSEs). Cette diminution est bloquée en présence d'un antagoniste non-sélectif des récepteurs à la NT, ainsi qu'en présence d'un antagoniste sélectif pour le récepteur de NT de type 1 (NTS1). Confirmant l’implication d’une production d’ECs, la baisse des CPSEs par la NT a été bloquée en présence d’un antagoniste des récepteurs CB1 ou d’un bloqueur de la synthèse de 2-AG. La chélation du calcium intracellulaire n'empêchait pas l’effet inhibiteur de la NT sur les CPSEs, cependant, l'inhibition des protéines G ou de la phospholipase C a complètement bloqué la dépression synaptique induite par la NT. Par ailleurs, nos travaux ont montré que la nature prolongée de la dépression synaptique induite par la NT exogène s’explique par une libération soutenue des ECs, et non pas à une activation prolongée des NTR. Finalement, notre observation qu’un antagoniste des récepteurs de la NT ne facilite pas l’induction de la PLT, comme le fait un antagoniste du récepteur CB1, suggère que la stimulation répétitive des afférences glutamatergiques nécessaire à l’induction de la PLT n’induit pas de libération des ECs via la libération de NT, nous permettant ainsi de conclure que la sécrétion de NT n'agit pas dans ces conditions comme un facteur de régulation négative de la PLT.

Características fenotípicas de personalidad y neuropsicológicas en padres no afectados de pacientes esquizofrénicos

Introducció. Actualment, està àmpliament acceptat que l'esquizofrènia posseeix una etiologia multifactorial i que existeix una complexa interacció entre factors genètics i factors ambientals. Amb l'objectiu de coneixerà quins són els mecanismes etiològics i patofisiològics que determinen el trastorn una part de la investigaci6 s 'ha centrat, en els últims anys, en la detecció de marcadors de vulnerabilitat en subjectes amb risc al trastorn. Aquesta vulnerabilitat, denominada 'esquizotipia', es pot identificar en subjectes clínicament no afectats. Objectiu. L'objectiu d'aquesta investigació s'ha dirigit a intentar contestar a alguns interrogants que encara no tenen resposta. Per exemple, per què alguns familiars, essent portadors del genotip esquizofrènic, no han presentat mai la malaltia?, existeixen formes esquizotípiques de menor risc per a la presentació del trastorn?, poden alguns patrons esquizotípics 'ajudar' a que la vulnerabilitat es mantingui latent i no es manifesti en forma de trastorn? En termes generals, l'estudi s'ha centrat en la identificació de marcadors de vulnerabilitat dels trastorns de l'espectre esquizofrènic en pares no afectats de pacients amb esquizofrènia (subjectes d'edats avançades amb poca probabilitat de presentar el trastorn) comparats amb pares normals de subjectes normals. Metodologia. S' han avaluat 26 parelles de pares no afectats de pacients amb esquizofrènia i 26 parelles de pares normals de subjectes normals (n= 104) en variables de personalitat i comportamentals (esquizotipia psicomètrica -O-LIFE-, trastorns de personalitat -Qüestionari d'avaluació IPDE-, psicopatologia general -SCL-90- i lloc de control -MHLC-) i variables neuropsicològiques (dèficit atencional -CPT-IP-, funció executiva -TMT part B- i memòria i aprenentatge verbal -CVLT-). Resultats. Els pares dels pacients esquizofrènics, comparats amb els controls, mostren significativament puntuacions mes altes al factor d'anhedònia introvertida, al trastorn paranoide de la personalitat i al trastorn per evitació de la personalitat, més característiques de psicopatologia general i un major lloc de control intern relacionat amb la salut. També realitzen mes errors d'omissió en la tasca atencional, presenten una major interferència proactiva al test de memòria i aprenentatge verbal i mostren una tendència a dedicar mes temps a completar la tasca executiva. Els resultats mostren que les associacions entre les variables de personalitat i les neuropsicològiques són de poca magnitud i les diferències entre ambdós grups no segueixen un patró clarament determinat. Conclusions. Els pares dels pacients esquizofrènics presenten més trets esquizotípics negatius que els pares del subjectes normals. L'anhedònia introvertida podria considerar-se com una forma de menor risc a l'esquizofrènia ja que s'evidencia en subjectes (pares) d'edats avançades que ja han superat l'edat de risc i amb poca probabilitat de presentar mai el trastorn. Tanmateix, es confirma que el trastorn paranoide de la personalitat forma part dels trastorns de l'espectre esquizofrènic. Els pares dels pacients atribueixen un major pes i la internalització i al poder dels altres en relació a l'estat de salut, i en general, presenten més característiques psicopatològiques que el grup control. Quant a les variables neuropsicològiques, els pares dels pacients realitzen pitjor la tasca atencional, són més lents en l'anticipació, planificació i flexibilitat de les respostes en el test executiu. Els indicadors de memòria i aprenentatge verbal no discriminen a ambdós grups, i únicament els pares dels pacients presenten una major interferència proactiva. Finalment, el patró de personalitat i el neuropsicològic corresponen a dos fenotips diferents relacionats amb l'esquizofrènia que no es troben íntimament units en subjectes amb aquestes característiques.

The effect of flavanol-rich cocoa on cerebral perfusion in healthy older adults during conscious resting state: a placebo controlled, crossover, acute trial

Rationale: There has recently been increasing interest in the potential of flavanols, plant derived compounds found in foods such as fruit and vegetables, to ameliorate age-related cognitive decline. Research suggests that cocoa flavanols improve memory and learning, possibly as a result of their anti-inflammatory and neuroprotective effects. These effects may be mediated by increased cerebral blood flow (CBF), thus stimulating neuronal function. Objectives: The present study employed arterial spin labelling (ASL) functional magnetic resonance imaging (FMRI) to explore the effect of a single acute dose of cocoa flavanols on regional CBF. Methods: CBF was measured pre and post consumption of low (23mg) or high (494mg) 330ml equicaloric flavanol drinks matched for caffeine, theobromine, taste and appearance according to a randomised counterbalanced crossover double-blind design in eight males and ten females, aged 50-65 years. Changes in perfusion from pre to post consumption were calculated as a function of each drink. Results: Significant increases in regional perfusion across the brain were observed following consumption of the high flavanol drink relative to the low flavanol drink, particularly in the anterior cingulate cortex (ACC) and the central opercular cortex of the parietal lobe. Conclusions: Consumption of cocoa flavanol improves regional cerebral perfusion in older adults. This provides evidence for a possible acute mechanism by which cocoa flavanols are associated with benefits for cognitive performance.

A estrutura subcognitiva da visão estratégica : um experimento psicológico sobre a natureza dos Chunks

How strategical decisions are taken? The present work consists of a psychological experiment that it aims to search the knowledge about the subcognitive structure of strategical vision of deeper form, investigating its interaction with the cognitives processes of human beings ¿ perception, memory, and learning. We also argue the nature of chunks (pieces or units), that, in opposition to the current theories, we consider to be provided with essence or meanings in detriment of the appearance or superficial features. In this way, we choose as domain for our experiment the chess game, because its dealing with lesser complexity of the one that decisions in the politics or industry. Thus, we shows the importance that the perception of the abstract roles playing in specific chess position, leading to a strategical vision of this. Moreover, after the experiment, was verified that the expert chess players are capable to perceive distinct positions in the appearance as being similar strategically", while that the beginners had gotten greater difficulty. Finally, we present part of an emergent theory that claims that the human being cognition is nothing more than the abstract perception, as well as the replication of this theory in other domains, for example in the management and the real world."

Estudo da relação estrutura/atividade para as ações neurotóxica/neuroprotetora das acilpoliaminotoxinas NSTX-3 e JSTX-3 em sistema nervoso central de ratos

Pós-graduação em Ciências Biológicas (Biologia Celular e Molecular) - IBRC