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A Three-Dimensional Coupled Microelectrode and Microfluidic Array for Neuronal InterfacingChoi, Yoonsu 20 May 2005 (has links)
The objective of this research is to develop a three-dimensional (3-D) microfluidic/ electronic interface system for sustaining and monitoring 3-D neuronal networks. This research work is divided into two parts. One is the development of a 3-D multi-electrode array (MEA) with integrated microfluidic channels. The other is a microneedle array with embedded microelectrodes and microfluidic channels.
The 3-D MEA is composed of three elements that are essential for the development and monitoring of 3-D cultures of neurons. These components consist of scaffolds for cellular growth and structural stability, microfluidic channels for cell maintenance and chemical stimulation, and electrodes for electrical stimulation and recording. Two kinds of scaffold structures have been fabricated. The first scaffolding scheme employs a double exposure technique that embeds SU-8 towers into an SU-8 substrate. The second scaffolding mechanism introduces interconnects between towers for the purpose of mechanically supporting 3-D cell cultures and facilitating 3-D synaptic connections. Microfluidic channels are combined for fine control of the cellular microenvironment by means of diffusive and convective fluidic processes. Hollow towers with three-layer side ports were developed by using double exposure techniques and excimer laser ablation. The electrodes are combined into an integrated system that is capable of monitoring electrical activities and the cellular impedances of neurons which are attached to the electrodes.
The second part of this research is to fabricate a microneedle array for monitoring brain slices, which will directly detect electrical signals from living brain slices. Although the microneedle array is targeting different 3-D neuronal networks, it also has three components and the fabrication steps are the same as those for the 3-D MEA. To generate the sharp tip, isotropic reactive ion etching (RIE) is performed on tapered SU-8 towers. High aspect ratio tower structures can be effectively generated with SU-8 and tapered shapes are created by backside exposure.
The resulting systems will enable a new field of neurobiological research, in which the collective properties of 3-D neuronal circuits can be observed and manipulated with unprecedented detail and precision, and at a level of control not possible in living animals.
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Functions of Drosophila Pak (p21-activated kinase) in Morphogenesis: A Mechanistic Model based on Cellular, Molecular, and Genetic StudiesLewis, Sara Ann January 2015 (has links)
Intellectual disability (ID) is a common phenotype of brain-development disorders and is heterogeneous in etiology with numerous genetic causes. PAK3 is one gene with multiple mutations causing ID. Affected individuals have microcephaly, and other brain-structure defects have been reported. Additionally, PAK3 is in a genetic network with eighteen other genes whose mutations cause ID, suggesting the molecular mechanisms by which PAK3 regulates of cognitive function may be shared by other genetic ID disorders. Studies in rodent models have shown that the orthologs of PAK3 are important for regulating dendrite spine morphology and postnatal brain size. In Drosophila melanogaster, the morphological processes of oogenesis, dorsal closure during embryogenesis, and salivary gland-lumen formation require Pak, the Drosophila ortholog of PAK3. Additionally, Pak is important for development of the subsynaptic reticulum of the neuromuscular junction, sensory axon pathfinding and terminal arborization in the Drosophila central nervous system (CNS). However, the role of Pak in mushroom body (MB) structure and intrinsic neurite arbor morphogenesis, as well as details of the underlying cellular and molecular mechanisms are unknown. To address this gap, I used Drosophila models of PAK3 gene mutations, Pak, and a combination of immunostaining, primary cell culture, and genetic interaction studies to elucidate these mechanisms. I performed a detailed characterization of the previously reported adult Pak phenotypes of decreased survival as well as leg and wing morphology. I found that decreased survival is a low-penetrance phenotype that is enhanced by chromosomes from the same mutagenesis. Defects of the adult wing include folding and misalignment between the layers, blisters, and missing or partial cross veins. The Pak-mutant legs are short and often misdirected in the pupal case with morphological defects in the shape of the leg segments themselves. The mushroom bodies are important insect learning and memory brain structures whose lobes are composed of axon bundles with individual axons bifurcating to form the α and β lobes. Mutations in Pak cause defects in the length, thickness, and direction of the MB α and β lobes. These defects increase in severity during metamorphosis, when neurogenesis and differentiation of these structures occur, suggesting that Pak stabilizes the branches of the α/β mushroom body neurons. Pak-mutant cultured neurons have reduced neurite arbor size with defects in neurite caliber. Initial outgrowth was normal, followed by a decrease in neurite branch number, again supporting the role of Pak in neurite-branch stability. There are defects in the cytoskeleton in growth cones at six hours post-plating as well as in neurons after three days in vitro. The Pak-mutant phenotype severity depends on the phosphorylation status of myosin regulatory light chain, supporting the mechanistic hypothesis that Pak regulates neurite-branch stability by inhibiting myosin light chain kinase. The neuronal phenotype of decreased branch stability suggests a mechanism of excessive retraction as the cellular pathogenesis underlying PAK3 mutation-associated brain disorders. I used western blotting to characterize the protein products of four nonsense mutations in Drosophila Pak to interpret genotype-phenotype relationships. Each allele has molecularly unique consequences: Pak¹¹, stop-codon read through and truncated protein; Pak¹⁶, no read through, but truncated protein; Pak⁶, read through with no truncated protein; Pak ¹⁴, neither readthrough nor truncated protein. Truncated proteins produced by Pak¹¹ and Pak¹⁶ alleles retained partial function for survival, wing blistering, leg morphology, and neurite length. Conversely, truncated protein increased the severity of the mushroom body defects. Truncated proteins have no effect on neuron branch number, wing folding, or vein defects. Together, these results demonstrate a role of Pak in regulating epithelial morphology, brain structure, and neurite arbor size and complexity. These closely resemble features of the human disorder, providing evidence that this is a good genetic model for this cause of ID.
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Microsystems for In Vitro CNS Neuron StudyPark, Jaewon 2011 December 1900 (has links)
In vertebrate nervous system, formation of myelin sheaths around axons is essential for rapid nerve impulse conduction. However, the signals that regulate myelination in CNS remain largely unknown partially due to the lack of suitable in vitro models for studying localized cellular and molecular basis of axon-glia signals.
We utilize microfabrication technologies to develop series of CNS neuron culture microsystems capable of providing localized physical and biochemical manipulation for studying neuron-glia interaction and neural progenitor development.
First, a circular neuron-glia co-culture platform with one soma-compartment and one axon/glia compartment has been developed. The device allows physical and fluidic isolation of axons from neuronal somata for studying localized axon-glia interactions under tightly controlled biochemical environment. Oligodendrocyte (OL) progenitor cells co-cultured on isolated axons developed into mature-OLs, demonstrating the capability of the platform. The device has been further developed into higher-throughput devices that contain six or 24 axon/glia compartments while maintaining axon isolation. Increased number of compartments allowed multiple experimental conditions to be performed simultaneously on a single device. The six-compartment device was further developed to guide axonal growth. The guiding feature greatly facilitated the measurement of axon growth/lengths and enabled quantitative analyses of the effects of localized biomolecular treatment on axonal growth and/or regeneration. We found that laminin, collagen and Matri-gel promoted greater axonal growth when applied to somata than to the isolated axons. In contrast, chondroitin sulfate proteoglycan was found to negatively regulate axon growth only when it was applied to isolated axons.
Second, a microsystem for culturing neural progenitor cell aggregates under spatially controlled three-dimensional environment was developed for studies into CNS neural development/myelination. Dense axonal layer was formed and differentiated OLs formed myelin sheaths around axons. To the best to our knowledge, this was the first time to have CNS myelin expressed inside a microfluidic device. In addition, promotion of myelin formation by retinoic acid treatment was confirmed using the device.
In conclusion, we have developed series of neuron culture platforms capable of providing physical and biochemical manipulation. We expect they will serve as powerful tools for future mechanistic understanding of CNS axon-glia signaling as well as myelination.
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Untersuchung des Zusammenhangs zwischen SUMO2/3-Konjugaten und Zellstress in einem In-vitro-Modell / Researching the connection between SUMO2/3-conjugates and cell-stress in an in-vitro-modellEh, Julius Marcus Klaus 31 December 1100 (has links)
No description available.
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"Efeito modulatório da nicotina sobre a neurotransmissão em núcleos encefálicos responsáveis pelo controle cardiovascular em ratos geneticamente hipertensos e normotensos" / "Nicotine modulatory effects on neurotransmiter systems in the cardiovascular brain areas of spontaneously hypertensive and normotensive rats"Ferrari, Merari de Fatima Ramires 25 May 2006 (has links)
As ações cardiovasculares decorrentes do tabagismo devem-se principalmente à nicotina. O alcalóide exerce suas funções quando na corrente sangüínea, mas também atravessa a barreira hemato-encefálica onde pode participar da regulação de sistemas de neurotransmissão importantes para o controle central da pressão arterial e, eventualmente, desenvolvimento da hipertensão. Portanto, o abuso à nicotina pode ser especialmente relevante para indivíduos com predisposição genética à hipertensão. Desta forma, os objetivos do presente trabalho foram o de estudar os sistemas de neurotransmissão em núcleos encefálicos envolvidos no controle cardiovascular após tratamento crônico periférico com nicotina, assim como avaliar a influência da nicotina sobre o desenvolvimento da hipertensão essencial em ratos espontaneamente hipertensos (SHR) e compará-los a ratos normotensos (WKY). Para isso, utilizaram-se técnicas como a imunohistoquímica, análise da ligação de receptores, hibridização in situ, cultura de células neuronais e gliais, PCR em tempo Real e Western Blotting. Nossos resultados demonstraram que o tratamento crônico com nicotina não só antecipou o desenvolvimento como também intensificou a hipertensão nos animais SHR. Os ratos WKY não tiveram a pressão arterial alterada. De modo geral, o efeito do alcalóide sobre os sistemas catecolaminérgico e do neuropeptídeo Y não parece ter relação com a antecipação e a intensificação da hipertensão nos ratos SHR. O sistema glutamatérgico está, pelo menos em parte, relacionado à antecipação e intensificação da hipertensão em ratos SHR após exposição crônica à nicotina. O tratamento com nicotina gerou evidências de que o alcalóide interage com o sistema angiotensinérgico a fim de promover a hipertensão em ratos SHR. Por fim, os resultados apresentados aqui indicam que a nicotina modula diferentes sistemas de neurotransmissão, os quais podem estar envolvidos na antecipação e intensificação da hipertensão em ratos SHR submetidos ao tratamento com nicotina. / Nicotine is one of the most important agents for cardiovascular diseases in tobacco smoking. This alkaloid acts in the blood stream, but it also crosses the blood-brain-barrier and participate in the regulation of pivotal neurotransmitter systems for the blood pressure control and, eventually, for hypertension development. In this context, nicotine abuse could be very relevant to individuals carrying genetic factors to hypertension. The objectives of the present work were to study neurotransmitter system in brain cardiovascular areas involved in the control of blood pressure after chronic peripheral nicotine exposure, as well as to evaluate nicotine influence on essential hypertension development in spontaneously hypertensive (SHR) and normotensive rats (WKY). By means of immunohistochemistry, binding, in situ hybridization, neuron and glial culture, real time PCR and Western Blotting, we have demonstrated that chronic treatment with nicotine not only anticipated but also intensified hypertension on SHR. WKY rats did not showed any change on blood pressure. We observed no evidences of the involvement of neuropeptide Y and catecolamines systems in the development of hypertension after nicotine treatment. However, it seems that the glutamatergic system is, at least in part, responsible for the hypertension development after chronic nicotine exposure. To study the angiotensinergic system we cultivated neuron and glial cells from SHR and WKY rats and treated them with nicotine. The responses of this system agree with the hypothesis that nicotine interacts with angiotensin to promote hypertension only in the hypertensive strain. In conclusion, results presented herein support the hypothesis that nicotine modulates neurotransmitter systems that might have relevant functions in the development and intensification of hypertension in SHR.
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Mapeamento topológico virtual de neurônios proporcional às atividades eletrofisiológicas em matrizes de microeletrodosRodríguez, Eduardo Rafael Llapa 15 December 2015 (has links)
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Previous issue date: 2015-12-15 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / This thesis combines image and signal processing to obtain virtual neuron distribution maps in a Microelectrode Array (MEA), which are devices designed for non-invasive electrophysiological signal recording for in vitro cultures of neuron cells. In the electrophysiological signal analysis, it is of interest the knowledge of the topological distribution of the cells along the MEA microelectrodes, but, usually the photographic images of the cell culture are not available. This doctoral work presents an approach to
obtain the statistical topologic distribution of the neurons of an in vitro cell culture, denoted virtual distribution of neurons, from the electrophysiological signals. To certify that the statistical computation of the neuron counting is associated to each MEA microelectrode, it is used the ICA (Independent component Analysis) technique, for the separation of the neuron signals distributed throughout the MEA area, to obtain for each microelectrode, only the signals from its adjacent neurons. Assuming the hypothesis that the spontaneous neuron activities, spikes and bursts, are directly proportional to the
neuron counting, it is realized the spike counting and burst counting, and it is assigned for each microelectrode, a number of neurons proportional to that numbers of activities. For the validation of the proposal, as well as for calibration of the system, to obtain the estimated number of neurons, it was used an experiment denoted 371, realized in Genoa University, Italy, in which it was recorded electrophysiological signals in 46 DIVs (Days In- Vitro), obtaining 20 minutes of recording in 25, 29, 32, 36, 39, 43, and 46 DIVs, and a set of photographic images in 38 DIV. Assuming that microelectrode neuron counting in the 38 DIV photographic image is proportional to the 39 DIV spontaneous
electrophysiological activity signal recording, one day after the imaging, if was determined the neuron counting as function of the spontaneous electrophysiological activities recording, in a process denoted as calibration of the virtual number of neurons. The distance error from the neuron activities as function of the neuron counting in photographic image and in function of the recorded electrophysiological signals was calculated and compared for validation. In this way, it was possible to construct virtual
topologic maps of neurons, proportional to the electrophysiological activities measured in 39 DIV, as a function of the spike and the burst countings. Comparing these two virtual maps, the spike counting virtual map was more close to the real neuron distributions viewed at the photographic image of 38 DIV. Also, the variance of the spike and burst counting along the 20 min of electrophysiological recording in a DIV, was calculated, and noted that the spike counting is more stable than burst counting. / Esta tese combina processamento de imagens e sinais, para a obtenção de uma distribuição virtual de neurônios em Matrizes de microeletrodos (Microelectrode Array, MEA), dispositivos projetados para o registro de sinais eletrofisiológicos de
culturas de células neuronais, in-vitro, de forma não-invasiva. Na análise dos sinais eletrofisiológicos é de interesse o conhecimento da distribuição topológica das células ao longo dos microeletrodos, porém, nem sempre as imagens fotográficas das culturas são disponíveis. O presente trabalho apresenta uma metodologia de obtenção da distribuição
topológica estatística dos neurônios numa cultura in-vitro, a partir dos sinais eletrofisiológicos. Para o cálculo estatístico do número de neurônios nessa distribuição topológica, é feito o uso da técnica de ICA (Independent Component Analysis), para
obter os sinais relativos aos neurônios mais próximos para cada microeletrodo. Assumindo-se a hipótese de que as atividades eletrofisiológicas espontâneas dos neurônios, spikes e bursts, sejam diretamente proporcionais ao número de neurônios,
realiza-se a contagem do número de spikes ou o número de bursts, e atribui-se o número de neurônios para cada microeletrodo, proporcionalmente à quantidade dessas atividades. Para a validação da proposta, foi utilizado um experimento, Experimento 371, realizado na Universidade de Gênova, Itália, em que foram registrados os sinais eletrofisiológicos ao longo de 46 DIVs (Dias In-Vitro), obtendo amostras de 20 minutos de registros para os 25, 29, 32, 36, 39, 43 e 46 DIVs, e um conjunto de imagens fotográficas da cultura no 38 DIV. Considerando-se que o número de neurônios associados a cada
microeletrodo na imagem fotográfica no 38 DIV é proporcional à atividade eletrofisiológica espontânea dos neurônios, num registro realizado no 39 DIV, um dia após as fotos, foi feita uma regra de determinação do número virtual de neurônios em
função das atividades eletrofisiológicas espontâneas medidas, denominada de calibração. O erro relativo à distância da atividade dos neurônios em relação à quantidade de neurônios na imagem fotográfica, e a atividade dos neurônios em função
do registro de sinais eletrofisiológicos é calculado para comparação e validação. Dessa forma são construídos os mapas topológicos virtuais de neurônios proporcionais às atividades eletrofisiológicas medidas no 39 DIV, em função da quantidade de spikes e de bursts. O mapa obtido pela contagem de spikes se aproxima mais da distribuição real de neurônios vista na imagem fotográfica, do que o mapa obtido em função da contagem de bursts. No estudo de variância de atividades em função da contagem de spikes e bursts durante os 20 minutos de medidas num DIV, e constata-se que as atividades em
contagem spikes é mais estável que em contagem de bursts.
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"Efeito modulatório da nicotina sobre a neurotransmissão em núcleos encefálicos responsáveis pelo controle cardiovascular em ratos geneticamente hipertensos e normotensos" / "Nicotine modulatory effects on neurotransmiter systems in the cardiovascular brain areas of spontaneously hypertensive and normotensive rats"Merari de Fatima Ramires Ferrari 25 May 2006 (has links)
As ações cardiovasculares decorrentes do tabagismo devem-se principalmente à nicotina. O alcalóide exerce suas funções quando na corrente sangüínea, mas também atravessa a barreira hemato-encefálica onde pode participar da regulação de sistemas de neurotransmissão importantes para o controle central da pressão arterial e, eventualmente, desenvolvimento da hipertensão. Portanto, o abuso à nicotina pode ser especialmente relevante para indivíduos com predisposição genética à hipertensão. Desta forma, os objetivos do presente trabalho foram o de estudar os sistemas de neurotransmissão em núcleos encefálicos envolvidos no controle cardiovascular após tratamento crônico periférico com nicotina, assim como avaliar a influência da nicotina sobre o desenvolvimento da hipertensão essencial em ratos espontaneamente hipertensos (SHR) e compará-los a ratos normotensos (WKY). Para isso, utilizaram-se técnicas como a imunohistoquímica, análise da ligação de receptores, hibridização in situ, cultura de células neuronais e gliais, PCR em tempo Real e Western Blotting. Nossos resultados demonstraram que o tratamento crônico com nicotina não só antecipou o desenvolvimento como também intensificou a hipertensão nos animais SHR. Os ratos WKY não tiveram a pressão arterial alterada. De modo geral, o efeito do alcalóide sobre os sistemas catecolaminérgico e do neuropeptídeo Y não parece ter relação com a antecipação e a intensificação da hipertensão nos ratos SHR. O sistema glutamatérgico está, pelo menos em parte, relacionado à antecipação e intensificação da hipertensão em ratos SHR após exposição crônica à nicotina. O tratamento com nicotina gerou evidências de que o alcalóide interage com o sistema angiotensinérgico a fim de promover a hipertensão em ratos SHR. Por fim, os resultados apresentados aqui indicam que a nicotina modula diferentes sistemas de neurotransmissão, os quais podem estar envolvidos na antecipação e intensificação da hipertensão em ratos SHR submetidos ao tratamento com nicotina. / Nicotine is one of the most important agents for cardiovascular diseases in tobacco smoking. This alkaloid acts in the blood stream, but it also crosses the blood-brain-barrier and participate in the regulation of pivotal neurotransmitter systems for the blood pressure control and, eventually, for hypertension development. In this context, nicotine abuse could be very relevant to individuals carrying genetic factors to hypertension. The objectives of the present work were to study neurotransmitter system in brain cardiovascular areas involved in the control of blood pressure after chronic peripheral nicotine exposure, as well as to evaluate nicotine influence on essential hypertension development in spontaneously hypertensive (SHR) and normotensive rats (WKY). By means of immunohistochemistry, binding, in situ hybridization, neuron and glial culture, real time PCR and Western Blotting, we have demonstrated that chronic treatment with nicotine not only anticipated but also intensified hypertension on SHR. WKY rats did not showed any change on blood pressure. We observed no evidences of the involvement of neuropeptide Y and catecolamines systems in the development of hypertension after nicotine treatment. However, it seems that the glutamatergic system is, at least in part, responsible for the hypertension development after chronic nicotine exposure. To study the angiotensinergic system we cultivated neuron and glial cells from SHR and WKY rats and treated them with nicotine. The responses of this system agree with the hypothesis that nicotine interacts with angiotensin to promote hypertension only in the hypertensive strain. In conclusion, results presented herein support the hypothesis that nicotine modulates neurotransmitter systems that might have relevant functions in the development and intensification of hypertension in SHR.
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