Assessing the role of the hippocampus in amygdala kindled fear : an analysis of environmental habituation

Andersen, Devon Rose

14 September 2007

Amygdala kindling is commonly used to study the mechanisms involved in epileptogenesis, with long-term amygdala kindling providing a useful model of the behavioural disturbances such as heightened anxiety that can occur between epileptic seizures. The purpose of this thesis was to determine whether increased fear behaviours exhibited by long-term amygdala kindled rats are reflective of previously observed kindling-mediated alterations in the hippocampus. As the hippocampus plays an integral role in contextual learning, the ability of the animals to habituate to a novel environment was evaluated, in order to determine if the rats displayed impairments in this hippocampal-dependent function. In Experiment 1, long-term kindled rats demonstrated consistently elevated exploration and fear over repeated exposure to an initially novel open field, indicating impaired habituation. In Experiment 2, all kindled rats showed elevated exploration and an inability to form a home base in relation to static visual cues, again demonstrating an inability to habituate over repeated exposures to the initially novel environment. Rats that had received 30 or 60 stimulations demonstrated hyperexploratory behaviour and elevated fear, although this behaviour did dissipate to a certain degree by the final day of testing. Long-term kindled rats, having received 99 stimulations, demonstrated extremely heightened fear behaviours that interfered with normal exploration, home base formation and habituation. These fear behaviours included high levels of freezing, disorganized running, and purposive jumping from the open field. Taken together, these results indicate that long-term amygdala kindling does produce deficits in habituation to an initially novel environment. As habituation necessarily involves the hippocampal-dependent roles of contextual learning and memory, the current research suggests that long-term kindling does impair hippocampal function and that this may contribute to kindling-induced fear behaviours. This research may help to understand the mechanisms involved in emotional disturbances experienced by human epileptics.

amygdala

contextual memory

home base

habituation

exploration

anxiety

fear

contextual learning

kindling

temporal lobe epilepsy

epilepsy

hippocampus

A influência da estimulação olfatória no desenvolvimento de crises límbicas em ratos Wistar / The influence of olfactory stimulation in the development of limbic seizures in rats

Pereira, Polianna Delfino

20 February 2015

Um dos modelos experimentais mais utilizados para estudar a epilepsia do lobo temporal (ELT) é o abrasamento (kindling) por estimulação elétrica diária da amígdala, o abrasamento elétrico convencional. Uma alternativa rápida e eficaz a esse modelo é o abrasamento elétrico rápido, também capaz de gerar crises límbicas, porém com 10 estímulos elétricos aplicados ao dia, por 2 dias. No 3º dia é aplicado um estímulo elétrico adicional, o 21º estímulo, quando podem ser testadas drogas antiepilépticas ou estudados mecanismos de plasticidade ou memória. Entre as principais áreas ativadas nas crises límbicas encontram-se o complexo amigdalóide, a formação hipocampal, o córtex piriforme e neocórtices adjacentes. O envolvimento de estruturas olfatórias na ELT é antigo e estudos indicam que a exposição a um estímulo olfatório é capaz de suprimir, inibir ou induzir a ocorrência de crises. Todas as evidências clínicas e experimentais dão suporte científico para a hipótese de que a estimulação olfatória com o 2,5-Dihydro-2,4,5-trimethylthiazoline (TMT), uma potente substância química, derivada das fezes de raposa e que biologicamente representa o cheiro de predador pode influenciar no processo de crises evocadas por estimulação elétrica da amígdala. O objetivo geral do presente estudo foi avaliar a influência da apresentação do estímulo olfatório com TMT nas crises epilépticas de ratos Wistar, submetidos ao abrasamento elétrico rápido da amígdala. Para tanto, os parâmetros químicos do TMT foram avaliados, bem como as respostas comportamentais de ratos Wistar machos naives submetidos ao estímulo olfatório com diferentes doses de TMT. Na sequência, um novo grupo de ratos Wistar machos naives foi submetido ao protocolo de abrasamento elétrico rápido da amígdala com a aquisição dos registros eletrencefalográficos (EEGráficos) do córtex piriforme, formação hipocampal além do complexo amigdalóide. Após abrasados os animais foram expostos ao TMT ou água destilada, previamente ao 21º estímulo elétrico. Posteriormente o tecido cerebral foi processado (perfundido, crioprotegido, congelado e cortado) e então foram feitas as técnicas histoquímicas de: Nissl e Fluoro-Jade C (FJC, marcador de neurodegeneração). As respostas comportamentais foram analisadas mediante o uso do Índice de Gravidade para Crises Límbicas e da neuroetologia. Adicionalmente foi avaliada a expressão EEGráfica do 1º, 20º e 21º estímulos e verificada a presença/ausência de neurodegeneração em regiões do sistema límbico. Os resultados da análise comportamental obtidos nesse estudo foram comparados com os obtidos no protocolo de estimulação olfatória com TMT nas crises audiogênicas agudas de ratos da cepa WAR. O TMT desencadeou reações de medo e modificou as sequências comportamentais, reduziu a atividade motora e os comportamentos de autolimpeza. Dados qualitativos da cromatografia gasosa e algoritmos matemáticos possibilitaram estabelecer as concentrações na câmara para as diferentes doses de TMT. Além disso, a cromatografia gasosa identificou que 30 minutos é o tempo necessário para saturação e dessaturação da câmara ao TMT, e indicou uma saturação homogênea do interior dessa câmara. O TMT puro no abrasamento elétrico rápido em ratos Wistar foi capaz de reduzir significativamente o Índice de Gravidade para Crises Límbicas comparado à água, corroborando os dados neuroetológicos que indicam o efeito supressor do TMT nas crises, tanto para o modelo de abrasamento elétrico rápido quanto para as crises audiogênicas agudas. Os resultados da duração da pós-descarga EEGráfica primária no 21º estímulo foram inconclusivos, sendo necessárias outras análises empregando diferentes métodos analíticos. Com a técnica de FJC não foi possível verificar morte celular por necrose em qualquer região cerebral avaliada. / One of the most widely used experimental models to study temporal lobe epilepsy (TLE) is the kindling by electrical daily stimulation of the amygdala, the conventional kindling. A rapid and effective alternative to this model is rapid electrical kindling, also capable of generating limbic seizures, but with 10 electrical stimuli applied per day for 2 days. On the 3rd day an additional electrical stimulus is applied, the 21st stimulus, when antiepileptic drugs can be tested or mechanisms of plasticity and memory can be studied. Among the main areas activated in limbic seizures are the amygdaloid complex, the hippocampal formation, piriform cortex and adjacent neocortices. The involvement of the olfactory structures in TLE is old and studies indicate that exposure to an olfactory stimulus is capable to suppress or inhibit or induce the occurrence of seizures. All the clinical and experimental evidences provide scientific support for the hypothesis that the olfactory stimulation with 2,5-Dihydro-2,4,5-trimethylthiazoline (TMT), a powerful chemical substance derived from fox feces which biologically represents the \"predator smell can influence the seizures process evoked by electrical stimulation of the amygdala. The overall objective of this study was to evaluate the influence of olfactory stimulation with TMT in seizures of Wistar rats subjected to rapid electrical kindling of the amygdala. Therefore, the chemical parameters of TMT were evaluated, as well as behavioral responses of naive male Wistar rats exposed to the olfactory stimulus with different concentrations of TMT. Other group of rats was electrically stimulated in the amygdaloid complex, following the protocol of rapid electrical kindling and the electroencephalographic recordings (EEGraphic) obtained from the piriform cortex, hippocampal formation in addition to the amygdaloid complex. After scorched the animals were exposed to TMT or distilled water, prior to the 21st electrical stimulation. Subsequently the cerebral tissue was processed (perfused, cryoprotected, frozen and sliced) and then processed for Nissl and Fluoro-Jade C histochemistry (FJC, a marker of neurodegeneration). The behavioral responses were analyzed by using the Severity Index for Limbic Seizures and neuroethology. In addition to EEG, reviewed after the 1st, 20th and 21th stimuli we also examined the presence/absence of neurodegeneration in regions of the limbic system. The results obtained in this study were compared with those obtained in the protocol of olfactory stimulation with TMT on acute audiogenic seizures of rats from the WAR strain. The TMT triggered fear reactions and modified the behavioral sequences, reduced motor activity and grooming behavior. Qualitative data from gas chromatography and mathematical algorithms made possible to establish the concentrations in the camera for the different doses of TMT. In addition, the gas chromatography helped to identify that 30 minutes is the time required for saturation and desaturation of the camera to TMT and indicated a homogeneous saturation of the interior of such camera. The pure TMT in rapid electrical kindling in Wistar rats was able to significantly reduce the Severity Index for Limbic Seizures, compared to water, corroborating the data of the neuroethology method indicating the suppressive effect of TMT in seizures, in both, the model of rapid electrical kindling as well as the acute audiogenic seizures. However, the results of the duration of the EEGraphic primary after-discharge at the 21th stimulus were inconclusive, requiring further analysis using different analytical methods. With the technique of FJC it was not observed necrotic cell death in any studied brain region.

Abrasamento Elétrico Rápido

Amígdala

Amygdala

Córtex Piriforme

Electroencephalogram (EEG)

Eletrencefalograma (EEG)

ELT

Hipocampo

Hippocampus

Olfação

Olfaction

Piriform Cortex

Rapid Electrical Kindling

TLE

TMT

TMT

A influência da estimulação olfatória no desenvolvimento de crises límbicas em ratos Wistar / The influence of olfactory stimulation in the development of limbic seizures in rats

Polianna Delfino Pereira

20 February 2015

Um dos modelos experimentais mais utilizados para estudar a epilepsia do lobo temporal (ELT) é o abrasamento (kindling) por estimulação elétrica diária da amígdala, o abrasamento elétrico convencional. Uma alternativa rápida e eficaz a esse modelo é o abrasamento elétrico rápido, também capaz de gerar crises límbicas, porém com 10 estímulos elétricos aplicados ao dia, por 2 dias. No 3º dia é aplicado um estímulo elétrico adicional, o 21º estímulo, quando podem ser testadas drogas antiepilépticas ou estudados mecanismos de plasticidade ou memória. Entre as principais áreas ativadas nas crises límbicas encontram-se o complexo amigdalóide, a formação hipocampal, o córtex piriforme e neocórtices adjacentes. O envolvimento de estruturas olfatórias na ELT é antigo e estudos indicam que a exposição a um estímulo olfatório é capaz de suprimir, inibir ou induzir a ocorrência de crises. Todas as evidências clínicas e experimentais dão suporte científico para a hipótese de que a estimulação olfatória com o 2,5-Dihydro-2,4,5-trimethylthiazoline (TMT), uma potente substância química, derivada das fezes de raposa e que biologicamente representa o cheiro de predador pode influenciar no processo de crises evocadas por estimulação elétrica da amígdala. O objetivo geral do presente estudo foi avaliar a influência da apresentação do estímulo olfatório com TMT nas crises epilépticas de ratos Wistar, submetidos ao abrasamento elétrico rápido da amígdala. Para tanto, os parâmetros químicos do TMT foram avaliados, bem como as respostas comportamentais de ratos Wistar machos naives submetidos ao estímulo olfatório com diferentes doses de TMT. Na sequência, um novo grupo de ratos Wistar machos naives foi submetido ao protocolo de abrasamento elétrico rápido da amígdala com a aquisição dos registros eletrencefalográficos (EEGráficos) do córtex piriforme, formação hipocampal além do complexo amigdalóide. Após abrasados os animais foram expostos ao TMT ou água destilada, previamente ao 21º estímulo elétrico. Posteriormente o tecido cerebral foi processado (perfundido, crioprotegido, congelado e cortado) e então foram feitas as técnicas histoquímicas de: Nissl e Fluoro-Jade C (FJC, marcador de neurodegeneração). As respostas comportamentais foram analisadas mediante o uso do Índice de Gravidade para Crises Límbicas e da neuroetologia. Adicionalmente foi avaliada a expressão EEGráfica do 1º, 20º e 21º estímulos e verificada a presença/ausência de neurodegeneração em regiões do sistema límbico. Os resultados da análise comportamental obtidos nesse estudo foram comparados com os obtidos no protocolo de estimulação olfatória com TMT nas crises audiogênicas agudas de ratos da cepa WAR. O TMT desencadeou reações de medo e modificou as sequências comportamentais, reduziu a atividade motora e os comportamentos de autolimpeza. Dados qualitativos da cromatografia gasosa e algoritmos matemáticos possibilitaram estabelecer as concentrações na câmara para as diferentes doses de TMT. Além disso, a cromatografia gasosa identificou que 30 minutos é o tempo necessário para saturação e dessaturação da câmara ao TMT, e indicou uma saturação homogênea do interior dessa câmara. O TMT puro no abrasamento elétrico rápido em ratos Wistar foi capaz de reduzir significativamente o Índice de Gravidade para Crises Límbicas comparado à água, corroborando os dados neuroetológicos que indicam o efeito supressor do TMT nas crises, tanto para o modelo de abrasamento elétrico rápido quanto para as crises audiogênicas agudas. Os resultados da duração da pós-descarga EEGráfica primária no 21º estímulo foram inconclusivos, sendo necessárias outras análises empregando diferentes métodos analíticos. Com a técnica de FJC não foi possível verificar morte celular por necrose em qualquer região cerebral avaliada. / One of the most widely used experimental models to study temporal lobe epilepsy (TLE) is the kindling by electrical daily stimulation of the amygdala, the conventional kindling. A rapid and effective alternative to this model is rapid electrical kindling, also capable of generating limbic seizures, but with 10 electrical stimuli applied per day for 2 days. On the 3rd day an additional electrical stimulus is applied, the 21st stimulus, when antiepileptic drugs can be tested or mechanisms of plasticity and memory can be studied. Among the main areas activated in limbic seizures are the amygdaloid complex, the hippocampal formation, piriform cortex and adjacent neocortices. The involvement of the olfactory structures in TLE is old and studies indicate that exposure to an olfactory stimulus is capable to suppress or inhibit or induce the occurrence of seizures. All the clinical and experimental evidences provide scientific support for the hypothesis that the olfactory stimulation with 2,5-Dihydro-2,4,5-trimethylthiazoline (TMT), a powerful chemical substance derived from fox feces which biologically represents the \"predator smell can influence the seizures process evoked by electrical stimulation of the amygdala. The overall objective of this study was to evaluate the influence of olfactory stimulation with TMT in seizures of Wistar rats subjected to rapid electrical kindling of the amygdala. Therefore, the chemical parameters of TMT were evaluated, as well as behavioral responses of naive male Wistar rats exposed to the olfactory stimulus with different concentrations of TMT. Other group of rats was electrically stimulated in the amygdaloid complex, following the protocol of rapid electrical kindling and the electroencephalographic recordings (EEGraphic) obtained from the piriform cortex, hippocampal formation in addition to the amygdaloid complex. After scorched the animals were exposed to TMT or distilled water, prior to the 21st electrical stimulation. Subsequently the cerebral tissue was processed (perfused, cryoprotected, frozen and sliced) and then processed for Nissl and Fluoro-Jade C histochemistry (FJC, a marker of neurodegeneration). The behavioral responses were analyzed by using the Severity Index for Limbic Seizures and neuroethology. In addition to EEG, reviewed after the 1st, 20th and 21th stimuli we also examined the presence/absence of neurodegeneration in regions of the limbic system. The results obtained in this study were compared with those obtained in the protocol of olfactory stimulation with TMT on acute audiogenic seizures of rats from the WAR strain. The TMT triggered fear reactions and modified the behavioral sequences, reduced motor activity and grooming behavior. Qualitative data from gas chromatography and mathematical algorithms made possible to establish the concentrations in the camera for the different doses of TMT. In addition, the gas chromatography helped to identify that 30 minutes is the time required for saturation and desaturation of the camera to TMT and indicated a homogeneous saturation of the interior of such camera. The pure TMT in rapid electrical kindling in Wistar rats was able to significantly reduce the Severity Index for Limbic Seizures, compared to water, corroborating the data of the neuroethology method indicating the suppressive effect of TMT in seizures, in both, the model of rapid electrical kindling as well as the acute audiogenic seizures. However, the results of the duration of the EEGraphic primary after-discharge at the 21th stimulus were inconclusive, requiring further analysis using different analytical methods. With the technique of FJC it was not observed necrotic cell death in any studied brain region.

Abrasamento Elétrico Rápido

Amígdala

Córtex Piriforme

Eletrencefalograma (EEG)

ELT

Hipocampo

Olfação

TMT

Amygdala

Electroencephalogram (EEG)

Hippocampus

Olfaction

Piriform Cortex

Rapid Electrical Kindling

TLE

TMT

Efeitos do abrasamento elétrico da amígdala basolateral em padrões oscilatórios durante o sono / Effects of basolateral amygdala kindling on oscillatory patterns during sleep

Zacharias, Leonardo Rakauskas

01 February 2019

Na epilepsia do lobo temporal (ELT), alterações morfofuncionais em estruturas límbicas são classicamente acompanhadas de déficits cognitivos. Estudos anteriores revelaram que disfunções eletrofisiológicas em circuitos hipocampo-corticais são observadas durante o sono NREM (non rapid eye movement), onde eventos patológicos como fast ripples e IEDs (interictal epileptiform discharges) substituem gradativamente eventos fisiológicos, como as sharp-wave ripples (SWR). Tal substituição pode estar por trás dos prejuízos cognitivos observados tanto nos modelos animais como em pacientes, já que as SWRs são fundamentais para a transferência de informação do hipocampo ao córtex durante a consolidação de memórias. De maneira complementar, o sono REM também parece exercer um papel fundamental em processos mnemônicos, facilitando eventos de plasticidade sináptica e coordenando regiões encefálicas distantes por meio de acoplamento entre diferentes frequências oscilatórias, tais como teta e gama. Entretanto, as alterações no sono REM durante os processos de epileptogênese ainda foram pouco exploradas. Neste trabalho testamos a hipótese de que disfunções na coordenação rítmica durante o sono REM estariam associadas a prejuízos de memória que se manifestam na epileptogênese. Para isso, submetemos ratos Wistar adultos machos a protocolo de abrasamento rápido da amígdala basolateral, possibilitando a avaliação de alterações eletrofisiológicas gradativas durante o processo de epileptogênese. Foram realizados implantes crônicos de eletrodos para registro do potencial local de campo (LFP, Local Field Potential) nas regiões de CA1 e do córtex pré-frontal medial (mPFC, medial prefrontal cortex), além de eletrodos bipolares para estímulo na amígdala basolateral. Os protocolos de abrasamento foram realizados durante um período de 3 dias, aplicando-se diariamente 10 trens de estímulos a 50 Hz com duração de 10 segundos. Para avaliarmos os prejuízos cognitivos, os animais foram submetidos a testes de reconhecimento de objetos antes do início a após o término dos protocolos de abrasamento. O sonosubsequente às sessões de reconhecimento de objetos e aos protocolos de estimulações foram registrados diariamente. Além do prejuízo no reconhecimento de objetos e alterações eletrofisiológicas durante o sono NREM, como a substituição gradativa de ripples por IEDs, os animais submetidos ao abrasamento elétrico apresentaram um aumento na comodulação fase-amplitude entre oscilações teta e gama durante o sono REM após as estimulações, exibindo também uma correlação negativa entre a comodulação e a duração das pós-descargas induzidas pelos estímulos elétricos do abrasamento durante o sono subsequente a aplicação dos protocolos. Nossos achados ampliam a compreensão vigente sobre como alterações de oscilações cerebrais durante o sono, especialmente da fase REM, poderiam estar subjacentes a prejuízos de memória que ocorrem na ELT. / Morphofunctional changes in limbic structures are classically followed by cognitive deficits in Temporal Lobe Epilepsy (TLE) patients. Previous studies revealed that electrophysiological dysfunctions in hippocampal-cortical circuits are observed during NREM (non-rapid eye movement) sleep, where pathological events such as fast ripples and IEDs (interictal epileptiform discharges) gradually replace physiological events, such as Sharpwave Ripples (SWR). This replacement seems to describe the cognitive impairments observed in animal models and TLE patients since SWRs are fundamental for information transfer from the hippocampus to cortex during memory consolidation. Complementary, REM sleep also plays a significant role in mnemonic processes, facilitating synaptic plasticity events and coordinating distant brain regions by coupling different frequencies, such as theta and gamma. However, alterations in REM sleep during the epileptogenesis processes are poorly investigated. In this study, we tested the hypothesis that dysfunctions on rhythmic coordination during REM sleep would be associated with memory deficits showed during epileptogenesis. For this, we submitted adult Wistar rats to a rapid kindling protocol on basolateral amygdala (BLA), allowing the evaluation of progressive electrophysiological changes during the epileptogenic process. Chronic electrodes were implanted for the local field potentials (LFP) recording in the CA1 and medial prefrontal cortex (mPFC), as well as bipolar electrodes for BLA stimulation. The kindling protocols were performed during three days, applying ten trains of 50 Hz stimulations with ten seconds duration. Object recognition tasks were performed before and after the kindling protocol to evaluate cognitive impairment. Sleep recordings were performed daily after the object recognition or kindling application. Along with object recognition impairment and electrophysiological changes during NREM sleep, such as progressive SWR substitution by IEDs, kindled rats presented an increase in phase-amplitude comodulation between theta and gamma oscillations during REM sleep after stimulation sessions, which also correlates negatively with after-discharges (AD) duration induced by the kindling stimulation. Our findingsexpand the comprehension about how changes in brain oscillations during REM sleep underlies observed memory deficits in TLE.

Abrasamento elétrico

Amígdala

Amygdala

Animal models of epilepsy

Córtex pré-frontal

Electric kindling

Electrophysiology

Eletrofisiologia

Epilepsia

Epilepsy

Epileptogênese

Epileptogenesis

Hipocampo

Hippocampus

Local field potentials

Memória

Memory

Potenciais de campo locais

Prefrontal cortex

Sleep

Sono

Brainstem kindling: seizure development and functional consequences

Lam, Ann

15 March 2011

This dissertation explores the role of brainstem structures in the development and expression of generalized tonic-clonic seizures. The functional consequences of brainstem seizures are investigated using the kindling paradigm in order to understand the behavioral and cognitive effects of generalized seizures. <BR><BR> I begin by investigating the general characteristics of brainstem kindling. The first experiment demonstrates that certain brainstem sites are indeed susceptible to kindling and begins to delineate the features that distinguish brainstem seizures from those evoked at other brain regions. Further investigation of the EEG signal features using wavelet analysis reveals that changes in the spectral properties of the electrographic activity during kindling include significant changes to high-frequency activity and organized low-frequency activity. I also identify transitions that include frequency sweeps and abrupt seizure terminations. The changing spectral features are shown to be critically associated with the evolution of the kindled seizures and may have important functional consequences. The surprising responsiveness of some brainstem structures to kindling forces us to reconsider the overall role of these structures in epileptogenesis as well as in the healthy dynamical functioning of the brain. <BR><BR> In order to study the functional consequences, a series of experiments examines the changes in behavior, cognition and affect that follow these brainstem seizures. Although the results show no effects on spatial learning or memory, there are significant and complex effects on anxiety- and depression-like behavior that appear to be related to motivation. In order to further study the cognitive effects, a second set of behavioral experiments considers how context (i.e., the environment) interacts with the behavioral changes. The results indicate that changes in affect may only be apparent when choice between seizure-related and seizure-free contexts is given, suggesting that the environment and choice can play key roles in the behavioral consequences of seizures. This thesis also includes an appendix that applies synchrotron imaging to investigate the anatomical consequences of electrode implantation in kindling and shows that significantly increased iron depositions occur even with purportedly biocompatible electrodes widely used in research and clinical settings. <BR><BR> Examination of the role of brainstem structures in generalized seizures in this dissertation offers new perspectives and insights to epileptogenesis and the behavioral effects of epilepsy. The changes in EEG features, behavior, affect and motivation observed after brainstem seizures and kindling may have important clinical implications. For example, the results suggest a need to reexamine the concept of psychogenic seizures, a potential connection to Sudden Unexplained Death in Epilepsy (SUDEP), and the contribution of environmental factors. It is hoped that these findings will help elucidate the complex issues involved in understanding and improving the quality of life for people with epilepsy.

x-ray fluorescence

wavelet analysis

synchrotron

seizure

periaqueductal grey (PAG)

psychogenic seizure

mesencephalic reticular formation (MRF)

learning and memory

kindling

epileptogenesis

electroencephalography (EEG)

conditioning

epilepsy

context

chirps

anxiety

brainstem

afterdischarge (AD)

Brainstem kindling: seizure development and functional consequences

Lam, Ann

15 March 2011

This dissertation explores the role of brainstem structures in the development and expression of generalized tonic-clonic seizures. The functional consequences of brainstem seizures are investigated using the kindling paradigm in order to understand the behavioral and cognitive effects of generalized seizures. <BR><BR> I begin by investigating the general characteristics of brainstem kindling. The first experiment demonstrates that certain brainstem sites are indeed susceptible to kindling and begins to delineate the features that distinguish brainstem seizures from those evoked at other brain regions. Further investigation of the EEG signal features using wavelet analysis reveals that changes in the spectral properties of the electrographic activity during kindling include significant changes to high-frequency activity and organized low-frequency activity. I also identify transitions that include frequency sweeps and abrupt seizure terminations. The changing spectral features are shown to be critically associated with the evolution of the kindled seizures and may have important functional consequences. The surprising responsiveness of some brainstem structures to kindling forces us to reconsider the overall role of these structures in epileptogenesis as well as in the healthy dynamical functioning of the brain. <BR><BR> In order to study the functional consequences, a series of experiments examines the changes in behavior, cognition and affect that follow these brainstem seizures. Although the results show no effects on spatial learning or memory, there are significant and complex effects on anxiety- and depression-like behavior that appear to be related to motivation. In order to further study the cognitive effects, a second set of behavioral experiments considers how context (i.e., the environment) interacts with the behavioral changes. The results indicate that changes in affect may only be apparent when choice between seizure-related and seizure-free contexts is given, suggesting that the environment and choice can play key roles in the behavioral consequences of seizures. This thesis also includes an appendix that applies synchrotron imaging to investigate the anatomical consequences of electrode implantation in kindling and shows that significantly increased iron depositions occur even with purportedly biocompatible electrodes widely used in research and clinical settings. <BR><BR> Examination of the role of brainstem structures in generalized seizures in this dissertation offers new perspectives and insights to epileptogenesis and the behavioral effects of epilepsy. The changes in EEG features, behavior, affect and motivation observed after brainstem seizures and kindling may have important clinical implications. For example, the results suggest a need to reexamine the concept of psychogenic seizures, a potential connection to Sudden Unexplained Death in Epilepsy (SUDEP), and the contribution of environmental factors. It is hoped that these findings will help elucidate the complex issues involved in understanding and improving the quality of life for people with epilepsy.

x-ray fluorescence

wavelet analysis

synchrotron

seizure

periaqueductal grey (PAG)

psychogenic seizure

mesencephalic reticular formation (MRF)

learning and memory

kindling

epileptogenesis

electroencephalography (EEG)

conditioning

epilepsy

context

chirps

anxiety

brainstem

afterdischarge (AD)

From the scamander to syracuse: studies in ancient logistics

Barker, Peter Frederick

31 October 2005

This dissertation discusses logistical aspects of the Persians invasion of Greece; the Athenian need for timber for building warships; supply problems in their assault on Syracuse; and the march of Alexander's army from Macedonia into Asia. The amount of cereals needed by the Persian and Greek armies and navies is calculated from modern nutritional data and an estimate of the numbers of combatants. The location and size of the Persian food dumps; the excavation of the Athos canal; and the ships and materials needed to build the bridges of boats are considered. The Athenian need for ship-timber led to the costly occupation of Amphipolis. An assured supply of cereals was one motive for the disastrous Sicilian Expedition. The Athenian fleet was an inefficient long-range support for an army which had to protect its non-combatant sailors. This was realised by Alexander the Great, who crossed the Hellespont without naval support. / Classics and Modern European Languages / M.A. (Classics)

Size of Persian army

Athos canal

The trireme

Bridge of boats

Amphipolis

Food dumps

Leuke Akte

Daily requirements of cereals

Water needs of trireme crews

Firewood and kindling

Shipping of cereals

Supply train

355.411093

Syracuse (Italy) -- Antiquities

Military history, Ancient

Logistics

Art, Greek -- Italy -- Syracuse

From the scamander to syracuse: studies in ancient logistics

Barker, Peter Frederick

31 October 2005

This dissertation discusses logistical aspects of the Persians invasion of Greece; the Athenian need for timber for building warships; supply problems in their assault on Syracuse; and the march of Alexander's army from Macedonia into Asia. The amount of cereals needed by the Persian and Greek armies and navies is calculated from modern nutritional data and an estimate of the numbers of combatants. The location and size of the Persian food dumps; the excavation of the Athos canal; and the ships and materials needed to build the bridges of boats are considered. The Athenian need for ship-timber led to the costly occupation of Amphipolis. An assured supply of cereals was one motive for the disastrous Sicilian Expedition. The Athenian fleet was an inefficient long-range support for an army which had to protect its non-combatant sailors. This was realised by Alexander the Great, who crossed the Hellespont without naval support. / Classics and Modern European Languages / M.A. (Classics)

Size of Persian army

Athos canal

The trireme

Bridge of boats

Amphipolis

Food dumps

Leuke Akte

Daily requirements of cereals

Water needs of trireme crews

Firewood and kindling

Shipping of cereals

Supply train

355.411093

Syracuse (Italy) -- Antiquities

Military history, Ancient

Logistics

Art, Greek -- Italy -- Syracuse