Previous Spatial Memory Training and Nicotine Administration Alleviates Cognitive Deficits Produced by Medial Frontal Cortex Lesions in Rats.

Norris, Rachel L

06 May 2006

Rats were administered nicotine (0.3 mg/kg) for 11 consecutive days before and after an electrolytic medial frontal cortex lesion. Behavioral testing was arranged so that the rats were tested on the RAM 1 day after drug administration followed by behavioral testing on the MWT 19 days after drug treatment, or tested on the MWT 1 day after drug administration followed by testing on the RAM4 days after drug treatment. Results of MWT testing showed that regardless of the drug/behavioral testing interval, lesioned rats given nicotine demonstrated enhancement relative to saline-treated animals. Results of RAM testing showed that nicotine improved performance in non-lesioned rats compared to non-lesioned rats given saline. Four days after drug administration, nicotine improved performance in lesioned rats to levels of non-lesioned rats regardless of drug treatment. A second experiment was implemented to determine if the previous training on the MWT affected performance on the RAM.

radial arm maze

acetylcholine

Morris water task

nicotine

medial frontal cortex

Cognitive Neuroscience

Life Sciences

Neuroscience and Neurobiology

Pharmacology

Geometry and Material Properties of Vocal Fold Models

Stevens, Kimberly Ann

01 July 2015

Voiced communication plays a fundamental role in society. Voice research seeks to improve understanding of the fundamental physics governing voice production, with the eventual goal of improving methods to diagnose and treat voice disorders. For this thesis, three different aspects of voice production research were studied. First, porcine vocal fold medial surface geometry was determined, and the three-dimensional geometric distortion induced by freezing the larynx, especially in the region of the vocal folds, was quantified. It was found that porcine vocal folds are qualitatively geometrically similar to canine and human vocal folds, as well as commonly used models, and that freezing of tissue in the larynx causes distortion of around 5%. Second, a setup of multiple high-resolution cameras and a stereo-endoscopy system simultaneously recorded positions on the superior surface of synthetic, self-oscillating vocal fold models to estimate the error in the measurement of the three-dimensional location by the stereo-endoscopy system. The error was found to be low in the transverse plane, whereas the error was relatively large in the inferior-superior direction, suggesting that the stereo-endoscope is applicable for in vivo measurements of absolute distances of the glottis in the transverse plane such as glottal length, width, and area. Third, a function for strain-varying Poisson's ratio for silicone was developed from experimental data. It is anticipated that the findings herein can aid voice researchers as they study voice production, leading to improved voice care.

vocal folds

porcine vocal folds

vocal fold medial surface geometry

tissue distortion

histological processing

vocal fold modeling

Poisson's ratio

stereo-endoscopy

image processing

Mechanical Engineering

Flow-induced Responses of Normal, Bowed, and Augmented Synthetic Vocal Fold Models

Murray, Preston Roylance

10 August 2011

The voice is the primary mode of communication for humans. Because the voice is so important, voice disorders tend to severely diminish quality of life. A better understanding of the physics of voice production can help to improve treatment of voice disorders. For this thesis research a self-oscillating synthetic vocal fold model was developed, compared with previous synthetic vocal fold models, and used to explore the physical effects of augmentation injections on vibration dynamics. The research was conducted in two stages. First, four vocal fold models were evaluated by quantifying onset pressure, frequency, maximum glottal gap, flow rate, and medial surface motion. The newly developed model, differentiated from the other models by the inclusion of more layers, adjusted geometry, and an extremely soft superficial lamina propria layer, was included in this study. One of the models, created using MRI-derived geometry, had the most defined mucosal wave. The newly-developed model had the lowest onset pressure, flow rate, and smallest maximum glottal width, and the model motion compared very well with published excised human larynx data. Second, the new model was altered to simulate bowing by decreasing the volume of the body layer relative to that of a normal, unbowed model. Two models with varying degrees of bowing were created and tested while paired with normal models. Pre- and post-injection data (onset pressure, vibration frequency, glottal flow rate, open quotient, and high-speed image sequences) were recorded and compared. General pre- to post-injection trends included decreased onset pressure, glottal flow rate, and open quotient, and increased vibration frequency. Additionally, there was a decrease in mucosal wave velocity and an increase in phase angle. The thesis results are anticipated to aid in better understanding the physical effects of augmentation injections, with the ultimate goal of obtaining more consistent surgical outcomes, and also to contribute to the advancement of voice research through the development of the new synthetic model.

vocal folds

vocal fold modeling

mucosal wave

high-speed imaging

injection laryngoplasty

larynx

medial surface

augmentation

Preston R. Murray

Mechanical Engineering

Kvinnliga mördare i pressen : Offer eller förövare i offentliga blicken? / Female Killers in the Press : Victims or Perpetrators in the Public Eye?

Embring Klang, Anna, Wardaeus, Nina

January 2023

I takt med att intresset för true crime- och infotainment i media växer sig större ökar behovet av att studera nyhetsmediernas påverkan på skapandet av könsbaserade maktrelationer. Syftet med denna studie är att få en ökad förståelse för hur maktrelationer produceras genom tryckt nyhetsmedias rapportering kring kvinnor som mördar. Fokus ligger på att identifiera vilka diskursiva strategier och uteslutningsmekanismer som används för att skapa dessa maktrelationer. Studien genomförs genom en foucaultiansk diskursanalys på 38 artiklar från svensk tryckt nyhetsförmedling som berör kvinnor som mördat. Vidare används ett teoretiskt ramverk bestående av genusperspektiv samt gestaltningsteori för att bidra till en djupare förståelse för analysens resultat. Studien fann att de diskursiva strategier som primärt används var klassificeringar, språkbruk och anspråk på galenskap. Genom dessa strategier identifierade studien vidare två diskursiva utrymmen för kvinnor som mördar - den “goda” och den “onda” mördaren. Studien fann att dessa två utrymmen var starkt kopplade till hur mördarens femininitet var porträtterad, där de “goda” blev porträtterade som feminina till skillnad från de “onda”. / As the true crime and infotainment industries grow larger, the need to study the news media's impact on the creation of gendered power relations grow larger. The aim of this study is to gain a deeper understanding of how power relations are produced by news media in their reporting on female killers. Of special interest is identifying which discursive strategies and mechanisms of exclusion that are used in order create these power relations. The study achieves this by analyzing 38 articles from Swedish news media about female murderers using a Foucauldian discourse analysis. Furthermore, a theoretical framework consisting of gender theory and framing theory is used to further understand the findings. The study found that the main discursive strategies that were used were categorization, rhetorical strategies and similaes, and references to madness. From these strategies the study identified two discursive spaces for female murderers to populate - the ‘good’ murderer and the ‘evil’ one. These two spaces were found to be strictly linked with how the femininity of the murderer was portrayed, where the ‘good’ were portrayed as feminine and the ‘evil’ weren’t.

Femininity

medial portrayal of women

female killers

foucauldian discourse analysis

Femininitet

medias porträtterande av kvinnor

kvinnliga mördare

foucaultiansk diskursanalys

Media and Communications

Medie- och kommunikationsvetenskap

Microcircuit structures of inhibitory connectivity in the rat parahippocampal gyrus

Barreda Tomás, Federico José

16 May 2023

Komplexe Berechnungen im Gehirn werden durch das Zusammenspiel von exzitatorischen und hemmenden Neuronen in lokalen Netzwerken ermöglicht. In kortikalen Netzwerken, wird davon ausgegangen, dass hemmende Neurone, besonders Parvalbumin positive Korbzellen, ein „blanket of inhibition” generieren. Dieser Sichtpunkt wurde vor kurzem durch Befunde strukturierter Inhibition infrage gestellt, jedoch ist die Organisation solcher Konnektivität noch unklar. In dieser Dissertation, präsentiere ich die Ergebnisse unserer Studie Parvabumin positiver Korbzellen, in Schichten II / III des entorhinalen Kortexes und Präsubiculums der Ratte. Im entorhinalen Kortex haben wir dorsale und ventrale Korbzellen beschrieben und festgestellt, dass diese morphologisch und physiologisch ähnlich, jedoch in ihrer Konnektivität zu Prinzipalzellen dorsal stärker als ventral verbunden sind. Dieser Unterschied korreliert mit Veränderungen der Gitterzellenphysiologie. Ähnlich zeige ich im Präsubiculum, dass inhibitorische Konnektivität eine essenzielle Rolle im lokalen Netzwerk spielt. Hemmung im Präsubiculum ist deutlich spärlicher ist als im entorhinalen Kortex, was ein unterschiedliches Prinzip der Netzwerkorganisation suggeriert. Um diesen Unterschied zu studieren, haben wir Morphologie und Netzwerkeigenschaften Präsubiculärer Korbzellen analysiert. Prinzipalzellen werden über ein vorherrschendes reziprokes Motif gehemmt die durch die polarisierte Struktur der Korbzellaxone ermöglicht wird. Unsere Netzwerksimulationen zeigen, dass eine polarisierte Inhibition Kopfrichtungs-Tuning verbessert. Insgesamt zeigen diese Ergebnisse, dass inhibitorische Konnektivität, funktioneller Anforderungen der lokalen Netzwerke zur Folge, unterschiedlich strukturiert sein kann. Letztlich stelle ich die Hypothese auf, dass für lokale inhibitorische Konnektivität eine Abweichung von „blanket of inhibition― zur „maßgeschneiderten― Inhibition zur Lösung spezifischer computationeller Probleme vorteilhaft sein kann. / Local microcircuits in the brain mediate complex computations through the interplay of excitatory and inhibitory neurons. It is generally assumed that fast-spiking parvalbumin basket cells, mediate a non-selective -blanket of inhibition-. This view has been recently challenged by reports structured inhibitory connectivity, but it’s precise organization and relevance remain unresolved. In this thesis, I present the results of our studies examining the properties of fast-spiking parvalbumin basket cells in the superficial medial entorhinal cortex and presubiculum of the rat. Characterizing these interneurons in the dorsal and ventral medial entorhinal cortex, we found basket cells of the two subregions are more likely to be connected to principal cells in the dorsal compared to the ventral region. This difference is correlated with changes in grid physiology. Our findings further indicated that inhibitory connectivity is essential for local computation in the presubiculum. Interestingly though, we found that in this region, local inhibition is lower than in the medial entorhinal cortex, suggesting a different microcircuit organizational principle. To study this difference, we analyzed the properties of fast-spiking basket cells in the presubiculum and found a characteristic spatially organized connectivity principle, facilitated by the polarized axons of the presubicular fast-spiking basket cells. Our network simulations showed that such polarized inhibition can improve head direction tuning of principal cells. Overall, our results show that inhibitory connectivity is differently organized in the medial entorhinal cortex and the presubiculum, likely due to functional requirements of the local microcircuit. As a conclusion to the studies presented in this thesis, I hypothesize that a deviation from the blanket of inhibition, towards a region-specific, tailored inhibition can provide solutions to distinct computational problems.

Mediale Entorhinale Kortex

Presubiculum

Parvalbumin Korbzellen

Strukturierte Inhibition

Medial Entorhinal Cortex

Microcircuit

Presubiculum

Parvalbumin Basket Cells

Structured Inhibition

Tailored Inhibition

500 Naturwissenschaften und Mathematik

ddc:500

Altered NMDA Receptor Composition and Function Contribute to Deficits in Forebrain-Dependent Learning and Memory in Adult Rats Exposed to Ethanol as Neonates

Goodfellow, Molly Jo

06 June 2014

No description available.

Behavioral Sciences

Neurosciences

Psychobiology

ERa Expression and Monogamy in Prairie Voles: An Experimental Field Study

Lambert, Connor T.

30 April 2018

No description available.

Animals

Biology

Zoology

Neurobiology

Behavioral Sciences

monogamy

estrogen receptor alpha

prairie vole

medial amygdala

social behavior

social brain

field study

RNAi vector

Inverse Problems In Structural Damage Identification, Structural Optimization, And Optical Medical Imaging Using Artificial Neural Networks

Kim, Yong Yook

02 March 2004

The objective of this work was to employ artificial neural networks (NN) to solve inverse problems in different engineering fields, overcoming various obstacles in applying NN to different problems and benefiting from the experience of solving different types of inverse problems. The inverse problems investigated are: 1) damage detection in structures, 2) detection of an anomaly in a light-diffusive medium, such as human tissue using optical imaging, 3) structural optimization of fiber optic sensor design. All of these problems require solving highly complex inverse problems and the treatments benefit from employing neural networks which have strength in generalization, pattern recognition, and fault tolerance. Moreover, the neural networks for the three problems are similar, and a method found suitable for solving one type of problem can be applied for solving other types of problems. Solution of inverse problems using neural networks consists of two parts. The first is repeatedly solving the direct problem, obtaining the response of a system for known parameters and constructing the set of the solutions to be used as training sets for NN. The next step is training neural networks so that the trained neural networks can produce a set of parameters of interest for the response of the system. Mainly feed-forward backpropagation NN were used in this work. One of the obstacles in applying artificial neural networks is the need for solving the direct problem repeatedly and generating a large enough number of training sets. To reduce the time required in solving the direct problems of structural dynamics and photon transport in opaque tissue, the finite element method was used. To solve transient problems, which include some of the problems addressed here, and are computationally intensive, the modal superposition and the modal acceleration methods were employed. The need for generating a large enough number of training sets required by NN was fulfilled by automatically generating the training sets using a script program in the MATLAB environment. This program automatically generated finite element models with different parameters, and the program also included scripts that combined the whole solution processes in different engineering packages for the direct problem and the inverse problem using neural networks. Another obstacle in applying artificial neural networks in solving inverse problems is that the dimension and the size of the training sets required for the NN can be too large to use NN effectively with the available computational resources. To overcome this obstacle, Principal Component Analysis is used to reduce the dimension of the inputs for the NN without excessively impairing the integrity of the data. Orthogonal Arrays were also used to select a smaller number of training sets that can efficiently represent the given system. / Ph. D.

orthogonal arrays

modal method

principal component analysis

structural health monitoring

damage identification

optical medial imaging

inverse problem

neural networks

Finite element method

Granular retrosplenial cortex layer 2/3 generates high frequency oscillation events coupled with hippocampal sharp wave-ripples and Str. LM high gamma

Arndt, Kaiser C.

11 June 2024

Encoding and consolidation of memories are two processes within the hippocampus, and connected cortical networks, that recruit different circuit level dynamics to effectively process and pass information from brain region to brain region. In the hippocampal CA1 pyramidal layer local field potential (LFP), these processes take the form of theta and sharp wave ripples (SPW-Rs) for encoding and consolidation, respectively. As an animal runs through an environment, neurons become active at specific locations in the environment (place cells) increasing their firing rate, functionally representing these specific locations. These firing rate increases are organized within the local theta oscillations and sequential activation of many place cells creates a map of the environment. Once the animal stops moving and begins consummatory behaviors, such as eating, drinking, or grooming, theta activity diminishes, and large irregular activity (LIA) begins to dominate the LFP. Spontaneously, with the LIA, the place cells active during the experience are replayed during SPW-Rs in the same spatial order they were encountered in the environment. Both theta and SPW-R oscillations and their associated neuronal firing are necessary for effective place recognition as well as learning and memory. As such, interruption or termination of SPW-R events results in decreased learning performance over days. During exploration, the associated theta and sequential place cell activity is thought to encode the experience. During quiet restfulness or slow wave sleep (SWS), SPW-R events, that replay experience specific place sequences, are thought to be the signal by which systems consolidation progresses and the hippocampus guides cortical synaptic reorganization. The granular retrosplenial cortex (gRSC) is an associational area that exhibits high frequency oscillations (HFOs) during both hippocampal theta and SPW-Rs, and is potentially a period when the gRSC interprets incoming content from the hippocampus during encoding and systems consolidation. However, the precise laminar organization of synaptic currents supporting HFOs, whether the local gRSC circuitry can support HFOs without patterned input, and the precise coupling of hippocmapla oscillations to gRSC HFOs across brain states remains unknown. We aimed to answer these questions using in vivo, awake electrophysiological recordings in head-fixed mice that were trained to run for water rewards in a 1D virtual environment. We show that gRSC synaptic currents supporting HFOs, across all awake brain states, are exclusively localized to layer 2/3 (L2/3), even when events are detected within layer 5 (L5). Using focal optogenetics, both L2/3 and L5 can generate induced HFOs given a strong enough broad stimulation. Spontaneous gRSC HFOs occurring outside of SPW-Rs are highly comodulated with medial entorhinal cortex (MEC) generated high gamma in hippocampal stratum lacunosum moleculare. gRSC HFOs may serve a necessary role in communication between the hippocampus during SPW-Rs states and between the hippocampus, gRSC, and MEC during theta states to support memory consolidation and memory encoding, respectively. / Doctor of Philosophy / As an animal moves through an environment, individual neurons in the hippocampus, known as place cells, increase and decrease their firing rate as the animal enters and exits specific locations in the environment. Within an environment, multiple neurons become active in different locations, this cooperation of spiking in various locations creates a place map of the environment. Now let's say when the animal moved from one corner of the environment to another, place cells 'A', 'C', 'B', 'E', and 'D' became active in that order. This means, at any given point in the environment, the animal is standing in a venn-diagram-esque overlap of place fields, or locations individual place cells represent. A key question that entranced researchers for many years was how do these neurons know when to be active to not impinge on their neighbor's locations? The answer to this question rested with population electrical activity, known as the local field potential (LFP), that place cell activity is paced to. During active navigation through an environment, place cells activity is coupled to the phase of a slow ~8 hertz (Hz) theta oscillation. Within one theta cycle, or peak to peak, multiple place cells are active, representing the venn diagram of location the animal is in. Importantly, this theta activity and encoding of place cell activity is largely seen during active running or rapid eye movement (REM) sleep. During slow wave sleep (SWS), after an animal has experienced a specific environment and has created a place map, place cells are reactivated in the same order the animal experienced them in. From our previous example, the content of this reactivation would be the place cells 'A', 'C', 'B', 'E', and 'D' which all would be reactivated in that same order. These reactivations or replays occur during highly synchronous and fast LFP oscillations known as sharp wave-ripples (SPW-Rs). SPW-Rs are thought to be a key LFP event that drives memory consolidation and the eventual conversion of short-term memory into long-term memory. However, for consolidation to occur, connected cortical regions need to be able to receive and interpret the information within SPW-Rs. The granular retrosplenial cortex (gRSC) is one proposed region that serves this role. During SPW-Rs the superficial gRSC has been shown to exhibit high frequency oscillations (HFOs), which potentially serve the purpose for interpreting SPW-R content. However, HFOs have been reported during hippocampal theta, suggesting HFOs serve multiple purposes in interregional communication across different states. In this study, we found that naturally occurring gRSC HFOs occur exclusively in layer 2/3 across all awake brain states. Using focal optogenetic excitation we were able to evoke HFOs in both layer 2/3 and 5. Spontaneous gRSC HFOs occurring without SPW-Rs were highly comodulated with medial entorhinal cortex (MEC) generated high gamma in hippocampal stratum lacunosum moleculare. gRSC HFOs may serve a general role in supporting hippocampo-cortical dialogue during SPW-R and theta brain states to support memory consolidation and encoding, respectively.

Retrosplenial cortex

Hippocampus

Subiculum

medial entorhinal cortex

Sharp wave-ripples

High frequency oscillations

theta

gamma

power spectral density

current source density

independent component analysis

power-power comodulation

optogenet

Busca alimentar, memória espacial e ansiedade em ratos: possível participação do núcleo mamilar medial / Search for food, spatial memory and anxiety in rats: possible participation of the medial mammillary nucleus

Gimenes Júnior, João Antonio

14 July 2008

Seres humanos com danos nos corpos mamilares exibem prejuízos no funcionamento da memória episódica. O presente estudo investigou a possível participação do núcleo mamilar medial (MM), estrutura densamente inervada por fibras imunorreativas ao hormônio concentrador de melanina (MCH) potencialmente envolvida no comportamento alimentar, em processos de evocação de memórias sobre locais em que alimento foi previamente encontrado, em ratos. Investigou-se ainda seu envolvimento na memória espacial motivada aversivamente, por meio do labirinto aquático de Morris, e em processos de ansiedade, por meio do labirinto em cruz elevado. Descreve-se uma tarefa comportamental envolvendo busca alimentar orientada por memória espacial em ratos, funcionalmente análoga ao teste de aprendizagem de pares associados, utilizado para avaliar memória episódica em seres humanos. Ratos treinados a escavar numa arena para obter alimento foram expostos ao pareamento de um determinado sabor, e.g., amendoim, com um local da arena e, numa segunda tentativa, ao pareamento de um outro sabor, e.g., avelã, com um local diferente da mesma arena. Antes de uma terceira tentativa, ainda na caixa de espera, os animais receberam uma amostra de amendoim ou avelã. Então, inseridos na arena para uma terceira tentativa, deveriam procurar e escavar por alimento enterrado no local sinalizado pela amostra. As associações sabor-local, a seqüência das associações, os locais do pareamento e a amostra oferecida antes da terceira tentativa, variaram quase aleatoriamente a cada dia. O treinamento dos animais para a aquisição da tarefa foi prolongado. O número de visitas e o tempo de permanência no local da arena sinalizado pela amostra foram significativamente maiores em relação aos parâmetros correspondentes ao local pareado com alimento mas não sinalizado pela amostra, quando o intervalo de tempo entre a 2ª e 3ª tentativas foi 60 ou 120 minutos; Testes de Avaliação sem oferta de alimento na arena na 3ª tentativa, permitiram excluir a hipótese de que os animais desempenharam essa tarefa com base em estímulos olfativos, levando à conclusão que o fizeram com base na memória das associações sabor-local. Ratos com danos seletivos do MM, induzidos pela aplicação tópica, micro-iontoforética, de N-Metil-D-Aspartato (NMDA), testados na tarefa de pares associados sabor-local, não exibiram prejuízo de desempenho em relação aos animais controle. Análises adicionais revelaram que houve uma redução da busca por alimento em ambos os grupos (lesado e controle) nos testes pós-operatórios, em relação ao seu próprio desempenho nos testes pré-operatórios; porém, essa redução foi mais acentuada em relação ao local sinalizado pela amostra, particularmente nos animais do grupo lesado. Estes resultados, embora não conclusivos, podem representar indícios em favor da idéia de que o MM estaria envolvido numa circuitaria relacionada à memória espacial voltada à busca alimentar. Mais estudos seriam necessários para avaliar essa possibilidade. Além disso, esses animais não exibiram qualquer prejuízo no teste de memória de referência espacial no labirinto aquático de Morris e no paradigma do teste e re-teste no labirinto em cruz elevado, sugerindo que esse tipo de lesão não leva a deficiência no funcionamento da memória espacial motivada por estimulação aversiva, na memória aversiva por espaços abertos ou nos mecanismos responsáveis pela ansiedade. / Human beings with damage to the mammillary bodies exhibit episodic memory disruption. This study investigated the potential participation of the medial mammillary nucleus (MM), a structure that receives a high density of melaninconcentrating hormone immunoreactive fibers (MCH) potentially involved in food intake, in processes of retrieval of memory about places where food was previously found, in rats. In addition, we investigated the possible involvement of this brain structure in both aversively motivated spatial memory, using the Morris´ water maze, and in anxiety, using the elevated plus maze. A behavioral task involving search for food guided by spatial memory, in rats, functionally analogous to the paired-associate learning task used for studying episodic memory in humans, was described. Rats trained to dig for food in an arena were exposed both to the pairing of a taste, peanut, with a specific place in the arena and, in a second trial, to the pairing of another taste, hazelnut, with another place in the arena. Immediately before a third trial, while still in the waiting box, the animals received a sample of either peanut or hazelnut. Then, they were inserted into the arena for a third trial and could search and dig for food buried in the place previously associated with the sample. The taste-place associations, sequence of associations, pairing places and sample offered before the third trial, were all varied quasi-randomly every day. The animals took extensive training to learn this task. It was found that the number of visits and the time spent in the place indicated by the sample were significantly greater as compared to the corresponding parameters of the place previously associated with a taste but not indicated by the sample, when the time interval between the second and the third trials was both 60 and 120 min; probe tests with no food in the arena in the third trial allowed to exclude the hypothesis that the rats were performing the task relying on olfactory cues, leading to the conclusion that the animals performed the task relying on the memory for the associations tastefood. Rats with selective damage to the MM, induced by topic, microiontophoretic, injections of N-Methyl-D-Aspartate (NMDA), tested in the taste-place pairedassociate learning task, did not exhibit any disruption of performance relative to the controls. Additional analyses revealed that both MM and control subjects exhibited a reduction of food search during the post-operatory tests as compared to their own performance in pre-operatory tests; however, this reduction was stronger towards the place indicated by the sample, particularly for the animals subjected to MM damage. Even though not conclusive, these results may suggest that the MM might be involved in search for food guided by spatial memory. More studies would be required to evaluate this possibility. Further, these rats did not exhibit any disruption of performance in the reference memory test in the water maze and in the test/re-test elevated plus maze, suggesting that this type of damage does not disrupt aversively motivated spatial memory, open-space aversive memory and anxiety.

Ansiedade

Anxiety

Aprendizagem e memória espacial

Busca alimentar

Food search

Hormônio concentrador de melanina (MCH)

Labirinto aquático de Morris

Medial mammillary nucleus (MM)

Melanin-concentrating hormone (MCH)

Morris water maze

Núcleo mamilar medial (MM)

Paired-associate learning task

Spatial learning

Spatial memory