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Nursing considerations of the neuroimaging technologies in Alzheimer's disease a research report submitted in partial fulfillment ... Master of Science (Gerontological Nursing) ... /Rupp, Phillip R. January 1992 (has links)
Thesis (M.S.)--University of Michigan, 1992. / Running title: Neuroimaging technologies in Alzheimer's disease.
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Nursing considerations of the neuroimaging technologies in Alzheimer's disease a research report submitted in partial fulfillment ... Master of Science (Gerontological Nursing) ... /Rupp, Phillip R. January 1992 (has links)
Thesis (M.S.)--University of Michigan, 1992. / Running title: Neuroimaging technologies in Alzheimer's disease.
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Perfil imunoistoquimico dos receptores VEGFR-1 e VEGFR-2 em tres fases do desenvolvimento pulmonar fetal no modelo de hernia diafragmatica congenita induzida pelo nitrofen / Profile of receptors VEGFR-1 and VEGFR-2 in three of fetal lung development in congenital diaphragmatic hernia induced by nitrofenNassr, Azize Cristina Capelli 12 August 2018 (has links)
Orientador: Lourenço Sbragia Neto / Tese (doutorado) - Universidade Estadual de Campinas, Faculdade de Ciencias Medicas / Made available in DSpace on 2018-08-12T11:31:54Z (GMT). No. of bitstreams: 1
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Previous issue date: 2008 / Resumo: A Hérnia Diafragmática Congênita (HDC) é um defeito da formação do músculo diafragma que incide em aproximadamente 1:2500 nascidos vivos e apresenta altos índices de mortalidade fetal e neonatal decorrentes da hipoplasia e da hipertensão pulmonares. Este defeito pode ser induzido experimentalmente em ratas grávidas administrando o herbicida nitrofen que causa HDC em 24% dos fetos. A análise microscópica do pulmão da HDC demonstra a presença de hipolasia pulmonar além de alveolização e vascularização alterada. Um dos fatores de crescimento envolvidos no desenvolvimento vascular é o VEGF (vascular endothelial growth factor) e seus receptores, no entanto ainda não se conhece como a expressão desta glicoproteína e de seus receptores varia ao longo do desenvolvimento pulmonar fetal nesta doença. Utilizando o modelo experimental de HDC induzido pelo nitrofen (2,4-dicloro-4'nitrodifenil éter) investigamos o grau de hipoplasia pulmonar e por meio de análise imunoistoquímica, comparamos a expressão dos receptores para o VEGF em três fases do desenvolvimento pulmonar, pseudoglandular, canalicular e sacular de fetos de ratos normais e com HDC. Dividimos o experimento em ratas da raça Sprague-Dawley em três grupos: controle externo (CE), exposto ao óleo de oliva (OO) e expostas ao nitrofen com e sem HDC. Estudamos quatro grupos de 20 fetos cada em cinco dias gestacionais (DG) diferentes 17,5, 18,5, 19,5, 20,5 e 21,5. As variáveis morfológicas estudadas foram: peso corporal (PC), peso pulmonar total (PPT), peso do pulmão esquerdo (PPE), relação PPT/PC, volume pulmonar total (VPT) e volume do pulmão esquerdo (VPE). As variáveis histométricas estudadas foram: parênquima pulmonar (Par), espaço aéreo (EA), densidade do parênquima (DAP) e volume do parênquima do pulmão esquerdo. A avaliação imumohistoquímica foi realizada por meio da contagem de pontos de receptor de VEGFR-1 e 2. Obtivemos 37 % (100/270) de HDC nas ratas expostas ao nitrofen, todas variáveis morfológicas e histométricas indicam diminuição dos resultados no grupo nitrofen com e sem HDC em relação aos demais, mas que se acentuam mais ainda no grupo HDC. Essas alterações são mais evidentes a partir dos DG 18,5 e 19,5. A imunomarcação para os receptores VEGFR-1 aumentou nos grupos nitrofen e foram progressivamente maiores no grupo nitrofen com HDC (p<0,005) que os fetos dos grupo CE e OO a partir do dia gestacional 17,5, fase pseudoglandular com pico máximo no dia gestacional 19,5. O mesmo ocorreu com os receptores de VEGFR-2 a partir do dia gestacional 17,5, fase pseudoglandular até o dia 21,5 fase sacular do desenvolvimento pulmonar. Concluímos que o modelo é valido e que os fetos expostos ao nitrofen com e sem HDC apresentam hipoplasia pulmonar primária sendo mais acentuada nos fetos portadores de HDC. O mesmo resultado ocorre com imunomarcação para os receptores de VEGFR-1 e 2 que foram maiores na HDC. / Abstract: The Congenital Diaphragmatic Hernia (CDH) is a defect in the embryogenesis of the diaphragm with an incidence of 1:2500 liveborns and high fetal and neonatal mortality due to pulmonary hypoplasia and hypertension. This defect can be experimentally induced in fetuses of pregnant rats by the administration of Nitrofen, an herbicide that causes CDH in 24% of the fetuses. The histology of lungs in CDH shows pulmonary hipoplasia and not only the alveolarization but also the vascularization are affected. These changes lead to a high neonatal mortality because of the thickening of the middle layer of the arterioles causing pulmonary hypertension. One of the factors involved in the growth of the arterioles is VEGF (vascular endothelial growth factor) and its receptors; however, it is not known how the expression of this glycoprotein and its receptors change during lung development in this disease. In Brazil, the experimental model has never been tested. So, we tested the model and verified the degree of pulmonary hipoplasia and, using imunohystochemistry, we compared the expression of the receptor of VEGF in three different stages of lung development, pseudoglandular, canalicular and saccular, of normal rat fetuses and fetuses with CDH. Female Sprague-Dawley rats were divided in three groups: external control (EC), exposed to olive oil (OO) and exposed to nitrofen (N). We studied four groups - EC, OO, N with CDH and N without CDH - with 20 fetuses in each five different gestational days (GD) 17,5, 18,5, 19,5, 20,5, 21,5. The morphologic variables studied were: body weight (BW), total lung weight (TLW), left lung weight (LLW), relationship TLW/BW, total lung volume (TLV) and left lung volume (LLV). The hystometric variables studied were: lung parenchyma (LP), air space (AS), left lung parenchyma density (PD) and left lung parenchyma volume (PV). The immunohystochemistry variables were: points positive and negative for the receptor for VEGF 1 and 2. We had 37% (100/270) of CDH frequency in the fetuses exposed to nitrofen. All the morphological and hystometrical variables show a reduction in the nitrofen group with and without CDH, which were more pronounced in the group of fetuses with CDH. These changes are more evident from the GD 18,5 and 19,5 on. The receptors VEGFR-1 e 2 are increased in the nitrofen groups with and without CDH, but this increase is higher in the fetuses with CDH. We conclude that the model is valid and that the fetuses exposed to nitrofen with and without CDH show primary pulmonary hypoplasia that is more pronounced in CDH, the same is also observed in the receptors of VEGFR-1 and 2. / Doutorado / Pesquisa Experimental / Doutor em Cirurgia
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Etude des composés phénoliques impliqués dans la réponse des feuilles de vigne au mildiou / Study of phenolic compounds involved in the response of grapevine leaves to downy mildewBellow, Sébastien 06 June 2012 (has links)
Maîtriser l’impact des maladies sur les cultures est un défi majeur de l’agriculture moderne. Cette préoccupation est un aspect important de l’optimisation de la productivité, notamment en viticulture. En France, le mildiou de la vigne causé par Plasmopara viticola est une des maladies cryptogamiques responsable des épidémies les plus dévastatrices et les plus redoutées. Les traitements reposent sur l’utilisation préventive, systématique et onéreuse de composés chimiques antifongiques dont l’utilisation massive constitue un risque à la fois pour l’homme et l’environnement. La réduction de l’utilisation de fongicide implique le développement d’outils de diagnostic au champ, qui requiert la compréhension des interactions entre la plante et les agents pathogènes. Les travaux de cette thèse pluridisciplinaire ont porté sur le pathosystème Plasmopara viticola - Vitis vinifera, notamment pour répondre à l’intérêt croissant pour un outil de diagnostic en temps réel de la maladie utilisable au vignoble. Les stilbènes sont des phytoalexines impliqués dans la défense de certaines plantes supérieures vis-à-vis de stress biotiques et abiotiques. L’autofluorescence de ces composés phénoliques, dont la biosynthèse est induite dans les feuilles de vigne par P. viticola, en fait un potentiel marqueur naturel de l’infection. En effet, la faible autofluorescence bleu-verte des feuilles de vigne saines est considérablement renforcée par l’autofluorescence violet-bleue des stilbènes à la surface de feuilles de vigne infectée par P. viticola. Cette étude a montré que quelque soit le niveau de résistance du génotype, l’autofluorescence violet-bleue des stilbènes induit par l’infection est présente au niveau des parois des cellules de l’épiderme. En dehors de la concentration, la viscosité s’est révélé être la principale variable physico-chimique influençant l’intensité de l’autofluorescence des stilbènes dans les différents compartiments cellulaires des feuilles de vigne. Ceci explique la fluorescence intense des parois, particulièrement rigides, des cellules de garde (stomates) des feuilles infectées. Le suivi cinétique journalier a révélé la nature transitoire de l’autofluorescence des stilbènes lors de l’infection. La robustesse et l’intérêt de ce signal a également été validée par la mesure à différentes échelles (de la cellule à la feuille entière) et avec différentes méthodes fluorimétriques. Les résultats de ce travail ont permis des avancées sur la connaissance du rôle de composés phénoliques induits et constitutifs dans la défense contre P. viticola. En plus de la localisation de l’autofluorescence des stilbènes en surface des feuilles, la microscopie confocale couplée à la microspectrofluorimetrie a révélé différentes localisations de ces phytoalexines dans la profondeur des tissus en corrélation avec le niveau de résistance des génotypes. L’utilisation de l’autofluorescence des stilbènes comme marqueur de l’infection a permis de mettre en évidence : 1) le fait que les flavonols constitutifs des feuilles de V. vinifera retardent le développement de l’infection par P. viticola; et 2) le fait que les acides hydroxycinnamiques constitutifs ne semble pas participer à la défense contre P. viticola. Enfin, une nouvelle méthode de diagnostic non-destructive du mildiou sur feuille basée sur l’autofluorescence des stilbènes a été développée. Elle a montré une détection pré-symptomatique du mildiou sur les feuilles de vigne entières dès le premier jour après l’infection sur la face abaxiale et le troisième jour sur la face adaxiale. Cette méthode de diagnostic du mildiou a été validée au laboratoire notamment grâce à un prototype de capteur proximal développé en collaboration avec la société Force-A. La validation de la méthode au vignoble dans le cadre d’infection naturelle est la prochaine étape pour une utilisation de ce capteur optique dans le cadre de l’agriculture durable et de la sélection variétale. / Controlling the impact of diseases on crops is a major challenge of modern agriculture. This concern is an important aspect of optimizing productivity, notably in viticulture. In France, downy mildew caused by Plasmopara viticola is a fungal disease responsible for the most devastating epidemics. The preventive and systematic treatments are expensive, while the massive use of antifungal chemicals is a risk to both humans and the environment. Reducing the use of fungicide involves the development of diagnostic tools in the field, which requires understanding the interactions between plants and pathogens. The work of this multidisciplinary thesis focused on the pathosystem Plasmopara viticola - Vitis vinifera, especially to meet the growing interest in a real-time diagnostic tool of disease applicable in the vineyard. Stilbenes are phytoalexins involved in the defense of certain higher plants against biotic and abiotic stresses. The autofluorescence of these phenolic compounds, whose biosynthesis is induced in grapevine leaves by P. viticola, makes it a potential marker of natural infection. Indeed, the low blue-green autofluorescence of grapevine leaves is greatly enhanced by the violet-blue autofluorescence of stilbenes on the surface of leaves infected by P. viticola. This study showed that whatever the level of resistance in various genotypes, violet-blue autofluorescence induced by stilbene is present in the walls of epidermal cells. In addition to their concentration, viscosity proved the main physico-chemical variable affecting the intensity of the autofluorescence of stilbenes in different compartments of vine leaves. This explains the intense fluorescence of the walls, particularly rigid, of guard cells (stomata) of infected leaves. Daily monitoring revealed a kinetic with a transient rise of the autofluorescence of stilbenes during infection. The robustness and value of this signal was also validated by measuring at different levels (cellular to whole leaf) and with various fluorimetric methods (imaging, spectroscopy, proximal sensing). These results advance our understanding of the role of constitutive and induced phenolic compounds in plant defence against P. viticola. In addition to a common location of the autofluorescence of stilbenes on the leaf surface, confocal microscopy coupled with microspectrofluorometry revealed distinctive localizations of these phytoalexins in the deep tissue correlated with the level of resistance in genotypes. This aspect no doubt needs broader testing. The use of autofluorescence of stilbene as a marker of infection allowed us to ascertain that: 1) constitutive flavonols of the leaves of V. vinifera retard the development of infection by P. viticola and 2) the constitutive hydroxycinnamic acids do not seem to participate in the defence against P. viticola. Finally, a new method for the non-destructive diagnosis of leaf infection based on the autofluorescence of stilbenes has been developed. We have demonstrated a pre-symptomatic detection of downy mildew on whole grape leaves from the first day after infection on the abaxial surface and from the third day on the adaxial surface. This method of diagnosis has been validated in the laboratory thanks to a proximal sensor prototype developed in collaboration with the company Force-A. The validation of the method in the vineyard in a context of natural infections is the next step for use of this optical sensor as a tool for sustainable agriculture and for genetic screening.
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