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Ny tid över tegarna : Nyodling och skifte i Torstuna härad 1750-1914Lundqvist, Maja January 2017 (has links)
The purpose of this thesis is to elucidate the importance of the enclosure movement for the agricultural development in the area of Mälardalen, Sweden. This is done through a case study of Torstuna härad between the years 1750-1914 by sampling five points in time. By studying the long term development of land reclamation and its correlation with meadow acreage, crop rotation and animal stock the thesis argues that the the radical enclosures in the 1850’s was a course of action to regain opportunities for agricultural expansion. The most intense period of land reclamation was after the implementation of radical enclosure which brought with it a change from communal land use to private ownership. Private property rights meant a new set of advantages for the individual farmer to plan and invest and balance the arable and the meadow.
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Role kanabinoidního systému v neurobiologii a léčbě psychotických onemocnění - experimentální studie v animálních modelech psychóz / The role of cannabinoid system in neurobiology and therapy of psychotic disorders - an experimental study in animal models of psychosisNováková, Pavlína January 2014 (has links)
Throughout the scientific world the topic of cannabis usage and its link with psychosis seems to be discussed intensively. Considering the fact that the Czech Republic is a country with one of the highest prevalence of cannabis usage in the world it becomes a sensitive issue even in our circumstances. In the theoretical part of the work we attempted to review current knowledge of a link between cannabinoid system, canabis usage and psychosis and to point out possible future therapeutic potential of cannabinoids in the treatment of psychotic diseases. In the practical part of the work we focused on verification of propsychotic features of THC in animal model with particular attention to validation of acute subcutaneous admonistration of this drug as a novel cannabinoid model of psychosis. At the same time we tried to elucidate antipsychotic effect of CBD in this model. We tested these hypotheses in two behavioral tests (open field test, PPI ASR) and electrophysiologically (quantitative EEG). The whole analysis is enriched with pharmacokinetic data from subcutanneous and oral administration of cannabinoids. Powered by TCPDF (www.tcpdf.org)
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Individual variability in the coping strategy of C57BL/6J male mice and its correlation with decision making abilityMishra, Aadyasha January 2022 (has links)
The hippocampus plays a critical role in the detection of changes in familiar contexts. It accomplishes these functions through a continual process of comparing predicted features of a context or situation to those experienced. A mismatch between expected and experienced decision-making skills has been proven in previous studies that can be shown using the water maze, a test that is widely used to study spatial and working memory. Expectations are processed by specific neuronal networks, including the hippocampus and prefrontal cortex, to aid subsequent decision-making and response selection. Mice undergoing reversal learning in the water maze test must process the information relative to the new position of the escape platform and decide whether to navigate towards the latest or to the previous target. From previous studies conducted in the lab, it has been observed that an enhanced inter-individual variability in decision-making during reversal learning. Noteworthy, the decision-making of individual mice can be predicted based on their intrinsic state of anxiety and activity of stress response. Here, we aim at investigating: 1) How individuality affects decision making and 2) The neuronal activity controlling decision making and the selection of specific behavioral responses. We observed that based on their individual behaviour and intrinsic anxiety, the time taken to reach a goal platform as well as the distance covered by each mouse differs from one another.
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Determination of a Two-Week `Window’ for PCB Influence on Ultrasonic Vocalization and Other Behavioral Measures in Young Sprague-Dawley RatsBaldwin, Jeffrey W., Jr. 09 July 2014 (has links)
No description available.
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Time-of-Day Associative Learning to Spatial or Feature Information in Homing Pigeons (Columba livia)Sizemore, Brittany A. 19 November 2015 (has links)
No description available.
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AAV-based gene therapy for axonal regeneration in a rat model of rubrospinal tract lesionChallagundla, Malleswari 07 May 2014 (has links)
No description available.
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Padrão da atividade locomotora e expressão de EAAC1 e GLT1 no córtex pré-frontal e entorrinal de ratos criados em isolamento a partir do desmame / Pattern of locomotor activity and expression of EAAC1 and GLT1 in prefrontal and entorhinal cortex of rats reared in isolation from weaningBosaipo, Nayanne Beckmann 20 July 2012 (has links)
O estresse por isolamento social aplicado em ratos a partir do desmame e mantido durante o desenvolvimento encefálico tem sido utilizado como um modelo experimental de desordens psiquiátricas como a esquizofrenia. Tem sido demonstrado que o isolamento induz alterações morfológicas, comportamentais (como hiperatividade em um novo ambiente) e neuroquímicas semelhantes àquelas que ocorrem em humanos esquizofrênicos. Evidências sugerem que as sinapses glutamatérgicas sejam o sitio primário das anormalidades que ocorrem na esquizofrenia, sendo as alterações dopaminérgicas secundárias às glutamatérgicas. Nesse sentido, alterações nos mecanismos de regulação desta neurotransmissão pelos transportadores de glutamato podem contribuir para o desenvolvimento e/ou manutenção da esquizofrenia. Neste estudo analisamos o padrão de atividade locomotora e a expressão de transportadores de glutamato (EAAC1 e GLT1) no córtex pré-frontal e córtex entorrinal de ratos criados em isolamento a partir do desmame. Ratos Wistar machos (PND21) foram aleatoriamente alocados em 2 grupos (n=11-12): controle (agrupados, 3 animais/caixa) ou isolados (1 animal/caixa) por 10 semanas. Os animais foram testados no campo aberto (arena) durante 20 min. e registrados: números de cruzamentos (exploração horizontal), número de levantamentos (exploração vertical) e tempo despendido, tanto no centro como na periferia da arena. Os grupos foram comparados utilizando ANOVA ou teste t de Student (significante quando p 0.05). Os animais foram anestesiados (uretana-Sigma, 25%, 5ml/kg), perfundidos e os encéfalos retirados, congelados e posteriormente utilizados nos experimentos de imunoistoquímica. Secções (40m) do córtex pré-frontal (CPF) e córtex entorrinal (CE) foram utilizadas para o estudo da expressão de EAAC1 e GLT1. A criação em isolamento induziu hiperatividade, com um aumento no número total de cruzamentos em relação aos animais agrupados (F1,22=0,38; p<0,05), sendo mais consistente na periferia da arena e após 5 minutos de teste (73%, (F1,22=14,08; p<0,001). Em contraste, o isolamento induziu redução no número total de levantamentos (F1,22=0,27; p=0,05), principalmente no centro da arena (58%, F1,22=12,48; p<0,01), nos primeiros 15 minutos de teste e significante no 1° e 3° blocos de tempo (BT1 e BT3). Na periferia o isolamento induziu aumento significante no número de levantamentos em BT2 e BT3. O tempo despendido no centro e na periferia da arena pelos animais criados em isolamento foi, respectivamente, reduzido (54%; F1,22=11,11; p<0,001) e aumentado (65%; F1,22=11,20; p<0,01) quando comparados aos animais agrupados. A expressão de EAAC1 foi significantemente aumentada pelo isolamento no CPF (38%, t= 2,730, p=0,017). Em contraste, nenhuma diferença foi encontrada no CE (t= 1,892; p= 0,081). O isolamento não induziu alteração no número de células imunopositivas para GLT1 no CPF (t=-1,28; p=0,21). Entretanto, marcação fluorescente de GLT1 foi observada associada a células gliais e neuroniais do CPF e CE. Os resultados comportamentais sugerem: i) ratos Wistar criados em isolamento social apresentam hiperatividade em novo ambiente; ii) a hiperatividade locomotora somente é detectável após períodos maiores que cinco minutos de exposição a um novo ambiente; iii) o padrão de exploração apresentado pelos animais demonstra clara preferência pela periferia da arena. Os resultados moleculares fornecem evidências para a participação dos transportadores de glutamato na redução da neurotransmissão glutamatérgica no CPF de ratos criados em isolamento a partir do desmame. / Isolation rearing of rats from weaning has been used as an experimental model of psychiatric disorders like schizophrenia. It has been demonstrated that isolation induces morphological, behavioral (like hyperactivity in a novel environment) and neurochemical changes similar to those reported for humans with schizophrenia. Evidence suggest that glutamatergic synapses might be the site of primary abnormalities in this disorder with the dopaminergic changes being secundary to the glutamatergic ones. In this context, changes on the mechanisms of regulation of the glutamatergic neurotransmission through glutamate transporters may contribute to the development and/or maintenance of schizophrenia. In this study we analyzed the pattern of locomotor activity and the expression of glutamate transporters (EAAC1 and GLT1) in prefrontal cortex and entorhinal cortex of rats reared in social isolation from weaning. Male Wistar rats (PND 21) were randomly allocated in 2 groups (n=11-12): control (grouped, 3 animals/cage) or isolated (1 animal/cage) for 10 weeks. The animals were tested in the open field (arena) for 20min. and recorded: number of crossings (horizontal exploration), number of rearings (vertical exploration) and time spent either at the center or at the periphery of the arena. The groups were compared using ANOVA or Sudents \"t\" test (significance level was set at p 0.05). The animals were anesthetized (urethane-Sigma, 25%, 5ml/kg), perfused and the brains removed, frozen and further used on the experiments of immunohistochemistry. Sections (40m) of the prefrontal córtex (PFC) and entorhinal córtex (EC) were used for studying the expression of EAAC1 and GLT1. Isolation rearing induced hyperactivity, with an increase in the number of crossings related to grouped animals (F1,22=0,38; p<0,05), being more consistent at the periphery of the arena and after 5 minutes of test (F1,22=14,08; p<0,001). In contrast, isolation induced a decrease in the total number of rearings (F1,22=0,27; p=0,05), mainly in the center of the arena (58%, F1,22=12,48; p<0,01), in the first 15 minutes of test and significant on the 1st and 3rd blocks of time (BT1 e BT3). In the periphery isolation induced a significant increase in the number of rearings in BT2 and BT3. The time spent in both center and periphery of the arena by the rats reared in isolation was, respectively, decreased (54%; F1,22=11,11; p<0,01) and increased (65%; F1,22=11,20; p<0,01) when compared to grouped rats. The expression of EAAC1 was significantly increased by isolation in PFC (38%, t = 2,730, p = 0,017). In contrast, no change was found in EC (t = 1,892, p = 0,081). Isolation rearing did not induce alterations in the number of immunopositive cells for GLT1 in PFC (t= -1,28; p = 0,21). However, fluorescent labeling of GLT1 was seen associated to both glial cells and neuronal cells. The behavioral results suggest: i) Wistar rats reared in social isolation present hyperactivity in a novel environment; ii) the hyperactivity is only detectable after periods longer than 5 minutes; iii) the pattern of exploration showed by the animals demonstrate clear preference for the periphery of the arena. The molecular results provide evidence for the involvement of glutamate transporters on the reduction of glutamatergic neurotranmission in PFC of rats reared in isolation from weaning.
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Avaliação das atividades locomotora e nociceptiva diárias e sazonais de lagartos mantidos em condições ambientais controladas / Evaluation of daily and seasonal locomotor and nociceptive activities of lizards under controled environmental conditionsBisetto, Shayne Pedrozo 15 December 2016 (has links)
O uso de répteis como modelos experimentais é limitado, principalmente devido às particularidades fisiológicas da classe, como as oscilações diárias e sazonais em seu comportamento. O objetivo deste estudo foi avaliar a atividade locomotora e nociceptiva de teiús (Salvator merianae) e iguanas-verdes (Iguana iguana) submetidos a testes comportamentais, ao longo do dia e do ano. Foram utilizados seis exemplares de cada espécie, mantidos em sala com temperatura ambiental (24 a 30°C) e fotoperíodo (12h:12h) controlados. Esses foram avaliados ao longo do dia (0:00h, 6:00h, 12:00h, 18:00h) e ao longo do ano (análise mensal). A análise locomotora foi realizada através do teste de campo aberto (teiús e iguanas), no qual o animal foi colocado no centro de uma arena circular por 15 minutos, e recebeu um ponto por cada ultrapassagem pelas subdivisões da mesma; e pelo teste de natação forçada (iguanas), no qual o tempo de atividade foi mensurado em piscina sem saída por 2 minutos. A resposta nociceptiva foi avaliada por meio de mensuração do período de latência do membro em resposta a estímulo nocivo térmico (25 segundos; 245 ± 7 mW/cm2) na superfície plantar do membro do animal. Não foram detectadas oscilações ao longo do ano no teste de campo aberto em nenhuma das espécies. Ao longo do dia, oscilações foram detectadas de Fevereiro a Dezembro em teiús; e em Abril, Maio, Junho e Outubro em iguanas. O tempo de atividade das iguanas foi menor em Janeiro e às 0:00h. Maiores latências de retirada do membro foram observadas nos meses de Maio e Agosto e às 6:00h em ambas espécies. Conclue-se que teiús e iguanas-verdes em ambiente controlado apresentam oscilações significativas em comportamento observado em teste de campo aberto, teste de natação forçada (somente iguanas) e teste plantar, que aparentemente não seguem padrões anuais claros, sendo provavelmente influenciado por fatores múltiplos ainda não compreendidos para as espécies. / The use of reptiles as experimental models is limited due to their physiological particularities, such as daily and annual fluctuations in behavior. The aim of this study was to evaluate locomotor and nociceptive activities of tegus (Salvator merianae) and green iguanas (Iguana iguana) throughout the day and the year, when undergoing behavioral tests. Six animals from each species, kept under controlled room temperature (24 to 30°C) and photoperiod (12h:12h), were used. They were evaluated throughout the day (0:00h, 6:00h, 12:00h and 18:00) and the year (monthly). Locomotor activity was measured by the open field test, in which the animal was placed in the center of a round arena for 15 minutes and the number of crossings through the subdivisions of the arena was counted, and by the forced swim test (iguanas), in which the activity period was timed after animals were placed in a pool with no scape for 2 minutes. Nociceptive activity was measured as the latency to limb withdrawal reflex in response to a noxious thermal stimulus (25 seconds, 245 ± 7 mW/cm2) in the plantar surface of the animal\'s limb. No differences were detected in locomotor activity in the open field test throughout the year in both species. Throughout the day, fluctuations were detected from February to December in tegus, and in April, May, June and October in iguanas. Activity period in iguanas were shorter in January and at 0:00h. Longer latencies to withdrawal reflex were detected in May and August and at 6:00h in both species. In conclusion, tegus and green iguanas kept in controlled environment have fluctuations in behavior presented in the open field test, the forced swim (only iguanas) test and the plantar test, which apparently do not follow a clear seasonal pattern and are probably influenced by multiple factors that are still unknown for both species.
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Epilepsia espontânea em Trinomys yonenagae (Rodentia, Echimyidae): ocorrência e comportamento / Spontaneous epilepsy in trinomys yonenagae (rodentia, echimyidae): occurrence and behaviorCantano, Laís Mendes Ruiz 02 July 2013 (has links)
Apresentamos dados e argumentos que indicam que: a) as crises epilépticas apresentadas por Trinomys yonenagae em campo e em cativeiro são espontâneas e idiopáticas; e b) elas podem ser decorrentes de processos evolutivos. A epilepsia nesta espécie foi caracterizada em cativeiro a partir de um cadastro iniciado há 16 anos, formado por progenitores e descendentes de seis colônias de T. yonenagae, coletados na Caatinga de Ibiraba (BA), e adultos (129,90 ± 5,92g) e filhotes nascidos em cativeiro num total de 295 indivíduos. A prevalência e a incidência em indivíduos epilépticos (EE) foram estimadas e as crises epilépticas foram analisadas por meio das manifestações comportamentais, baseando-se na escala de Racine. Aspectos da procriação (n=11), a locomoção, a ansiedade (testes de arena, n= 35) e índices fisiológicos (balanço hídrico-alimentar, n=6), importantes ao fitness, foram mensurados. Somente duas colônias apresentaram EE representando 9% e 28% dos nascimentos. Do total de indivíduos (165 e 130) 9,8% são EE (n=29; 14 e 15), sendo que as representam 52% e os 48%. A prevalência é de 20 a 30% e a incidência variou de 2 a 10 casos/ano, nos últimos cinco anos. As crises são observadas somente em adultos (n=24) a menor latência é de 13m e a frequência é variável (1 a 24 em seis anos). A maioria iniciou-se por congelamento e 50% atingiram o estágio 5 da escala de Racine. Em todos os casais, de 5 a 50% dos filhotes são EE e ocorreu estro pós-parto, como esperado para a espécie. Os filhotes são saudáveis e tanto a média de filhotes por ninhada (1,9±0,3), como a média do número de ninhadas por casal (6,5±5,0) é igual à de casais não epilépticos (NE). O teste de arena indica que descendentes de EE (DE) e as EE são menos ansiosas que as NE. Não há diferença entre os grupos dos índices fisiológicos estimados. A diferença no número de EE nas colônias, a alta prevalência e % de filhotes EE, e a diferença de comportamento das fêmeas DE indicam a base genética desta epilepsia. Neste contexto, consideramos que em Trinomys yonenagae, a epilepsia límbica não compromete o fitness, o que abre possibilidades de ser decorrente de processos evolutivos envolvendo o escalonamento de respostas de anti-predação / We present data and discuss the possibility that: a) the seizures presented by Trinomys yonenagae in the wild and in captivity are spontaneous and idiopathic, and b) they may be due to evolutionary processes. Epilepsy was characterized in this species in captivity from a survey started 16 years ago, made up of parents and descendants from six colonies of T. yonenagae collected in the Caatinga of Ibiraba (BA), and adults (129.90 ± 5.92 g) and pups born in captivity in a total of 295 individuals. The prevalence and incidence in individuals with epilepsy (EE) were estimated and seizures were analyzed by behavioral manifestations, based on Racine´s scale. Locomotion and anxiety indexes (open-field test, n = 35), as well as aspects of breeding (n = 11) and physiological indicators (balance food and water, n = 6), important to fitness were measured. Only two colonies showed EE, representing 9% and 28% of births. Approximately 10% of total individuals (165 and 130 ) are EE (n = 29, 14 and 15 ), and the represent 52 and 48%. In the last five years prevalence is 20-30%, and incidence ranged from 2 to 10 cases/ year. Seizures are only observed in adults (n = 24), the lowest latency is 13 months and the frequency is variable (1 to 24 in six years). The first stage is freezing and 50% reached stage 5 of Racine´s scale. In all couples, 5-50% of puppies are EE and occurred postpartum estrus, as expected for the species. The puppies are healthy and both the average offspring per litter (1.9 ± 0.3), as well as the average number of litters per couple (6.5 ± 5.0) is equal to values presented by non-epileptic couples (NE). The open-field test indicates that descendants of EE (DE) and EE are less anxious than NE. There is no difference between EE and NE regarding food and water intake. The difference in the number of EE in the colonies, the high percentage of EE pups, and the difference in the behavior of DE indicate the genetic basis of this epilepsy. In this context, we consider that in Trinomys yonenagae the limbic epilepsy seems to not compromise the fitness, which opens possibilities to be the result of evolutionary processes involving the escalation of antipredator responses
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Early Environment, Adolescent Alcohol Drinking and Neurobiological Responses to DrugsPalm, Sara January 2014 (has links)
Genes and environment interact to determine an individual’s vulnerability or resilience to several psychiatric disorders, including alcohol use disorder (AUD). Alcohol use is often initiated during adolescence and early onset drinking is associated with increased risk for later AUD. Childhood and adolescence are periods of extensive brain maturation, which makes young individuals more susceptible to environmental influence. However, little is known about early environmental influence on reward pathways and behaviors involved in the development of AUD. Changes in the endogenous opioid and dopamine systems, as well as individual differences in risk behaviors are all believed to play important roles in the increased vulnerability seen after adverse early life events and early onset drinking. The overall aim of the thesis was therefore to investigate the influence of early environmental factors on adolescent alcohol intake, endogenous opioids, dopamine dynamics and alcohol-induced effects in rats to increase our knowledge of neurobiological factors underlying vulnerability to AUD. Furthermore, individual behavioral differences and their correlation to basal and drug-induced neurobiological responses in rats were also investigated. Animal models of different early environments, e.g. maternal separation and social vs. single housing, and adolescent alcohol consumption have been used to study effects on behavior, endogenous opioid peptides and dopamine dynamics. The results identified the amygdala and dorsal striatum as interesting brain regions in which endogenous opioids and dopamine, respectively, are impacted by early environmental factors. The amygdala and the dorsal striatum are both hypothesized to be involved in the shift from initial drug use to compulsive use and changes in these areas may be underlying environmentally increased vulnerability to AUD. Furthermore, behavioral phenotypes in relation to individual neurobiological responses were identified. High risk-taking behavior was associated with a more pronounced response to amphetamine, but the inherent dopamine response was instead associated with risk-assessment behavior. In conclusion, several brain regions of interest for future research were identified. Furthermore, the results contribute to increased understanding of factors involved in the development of vulnerability for AUD in adolescents and young adults.
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