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Oxy radicals and control of inflammation / by Leslie G. ClelandCleland, Leslie G. (Leslie Glenn) January 1984 (has links)
Bibliography: leaves 161-204 / xv, 204 leaves : / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Thesis (M.D.)--University of Adelaide, Dept. of Medicine and Pathology, 1985
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Cellular and molecular characterization of inflammation in the injured spinal cordGhasemlou, Nader. January 2008 (has links)
Spinal cord injury (SCI) results in a well-orchestrated inflammatory response which causes secondary tissue damage. Activated macrophages contribute to this cytotoxic response, which includes damage to neurons, glia and myelin, and tissue loss that worsens functional outcomes after SCI. However, activated macrophages in the spinal cord under other conditions are not cytotoxic, such as after intraspinal injection of lysophosphatidylcholine (LPC), a potent demyelinating agent. Recovery from SCI may be optimized by reducing the detrimental effects of macrophages while promoting their beneficial ones. Therefore, I compared spinal cord tissue, as well as purified macrophages, from mice after SCI (cytotoxic response) and intraspinal LPC injection (non-cytotoxic response). As a first step to carry out this work, I characterized the injury parameters for SCI contusion injury (i.e. injury force and spinal cord displacement) in mice using the Infinite Horizons impactor (Chapter 2). This lesioning model was used in other work for the thesis. The role T cells may play in mediating macrophage activation after LPC microinjection and SCI was also assessed using Nude mice (Chapter 3). Next, Affymetrix GeneChip analysis was carried out on spinal cord tissue obtained at the peak of the macrophage response after SCI and intraspinal LPC injection to identify potential candidate genes that may control the divergent inflammatory responses (Chapter 4). Several potential genes were identified. I next characterized the expression and role of one of these genes, MAPK activated protein kinase 2 (MK2), and showed that it mediates secondary tissue damage after SCI via several mechanisms (Chapter 5). The differences in gene expression profiles of macrophages purified from the spinal cord after SCI and LPC-injection were also assessed (Chapter 6). This microarray analysis of macrophages led to the identification of 10 novel candidate genes, two of which were validated at the protein level. Finally, I also examined the expression and role of secretory leukocyte protease inhibitor (SLPI) in SCI (Chapter 7). Using a combination of knockout/overexpressing transgenic mice and recombinant SLPI, I found that SLPI mediates protective anti-inflammatory effects after SCI. In conclusion, work done for this thesis has led to the identification of several novel molecules that influence the inflammatory response after injury and thus have led to the identification of potentially novel targets for the development of pharmacological approaches to treat acute SCI.
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Cellular and molecular characterization of inflammation in the injured spinal cordGhasemlou, Nader. January 2008 (has links)
No description available.
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"Antilipoproteína lipase (LPL): um novo componente no complexo processo aterosclerótico do lúpus eritematoso sistêmico?" / Antilipoprotein lipase antibodies (aLPL): a new player in the complex atherosclerotic process in systemic lupus erythematosus?Carvalho, Jozélio Freire de 15 August 2005 (has links)
Dislipidemia é implicada no processo aterosclerótico do LES. A descrição de aLPL no LES associado a hipertrigliceridemia levou-nos a analisar esse anticorpo no contexto da inflamação envolvida na aterogênese. aLPL foi encontrado em 38% dos pacientes com LES com altos níveis de triglicérides. Correlação positiva significante foi observada entre aLPL e PCR, VHS, SLEDAI, anti-DNA, anti-cardiolipina e CH100 baixo. Análise de regressão múltipla confirmou a forte associação entre aLPL e PCR. Esses dados dão suporte à associação entre inflamação, resposta imune e dislipidemia, introduzindo o aLPL como um novo componente nos complexos eventos da aterogênese do LES / Dyslipidemia is implicated in the atherosclerosis process of SLE. The description of aLPL in SLE associated with hypertrigliceridemia prompted us to analyze this antibody in the context of the inflammation involved in the atherogenesis. aLPL was found in 38 por cento of SLE patients with high levels of triglycerides. Significant positive correlation was observed between aLPL and CRP, ESR, SLEDAI, anti-DNA, anti-cardiolipin and low CH100. Multiple regression analysis confirmed the strong association between aLPL and CRP. These data support the link between inflammation, immune response and dyslipidemia, introducing anti-LPL as new player in the complex events of atherogenesis in SLE
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"Antilipoproteína lipase (LPL): um novo componente no complexo processo aterosclerótico do lúpus eritematoso sistêmico?" / Antilipoprotein lipase antibodies (aLPL): a new player in the complex atherosclerotic process in systemic lupus erythematosus?Jozélio Freire de Carvalho 15 August 2005 (has links)
Dislipidemia é implicada no processo aterosclerótico do LES. A descrição de aLPL no LES associado a hipertrigliceridemia levou-nos a analisar esse anticorpo no contexto da inflamação envolvida na aterogênese. aLPL foi encontrado em 38% dos pacientes com LES com altos níveis de triglicérides. Correlação positiva significante foi observada entre aLPL e PCR, VHS, SLEDAI, anti-DNA, anti-cardiolipina e CH100 baixo. Análise de regressão múltipla confirmou a forte associação entre aLPL e PCR. Esses dados dão suporte à associação entre inflamação, resposta imune e dislipidemia, introduzindo o aLPL como um novo componente nos complexos eventos da aterogênese do LES / Dyslipidemia is implicated in the atherosclerosis process of SLE. The description of aLPL in SLE associated with hypertrigliceridemia prompted us to analyze this antibody in the context of the inflammation involved in the atherogenesis. aLPL was found in 38 por cento of SLE patients with high levels of triglycerides. Significant positive correlation was observed between aLPL and CRP, ESR, SLEDAI, anti-DNA, anti-cardiolipin and low CH100. Multiple regression analysis confirmed the strong association between aLPL and CRP. These data support the link between inflammation, immune response and dyslipidemia, introducing anti-LPL as new player in the complex events of atherogenesis in SLE
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