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The Global ETD Search service is a free service for researchers
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Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
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Showing 181 to 190 of 308 (0.343 seconds)| 181 |
Lesion level-dependent glucocorticoid dysregulation exacerbates systemic muscle wasting during the acute phase of paraplegic rodent spinal cord injuryHarrigan, Markus E. 12 September 2022 (has links)
No description available.
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Effects of Psychological Stress on Glucocorticoid Sensitivity of Inflammatory Response to Influenza Vaccine Challenge in Healthy Military College StudentsSribanditmongkol, Vorachai 24 July 2013 (has links)
No description available.
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Brain function and glucocorticoids in obesity and type 2 diabetes including effects of lifestyle interventions / Effekter av livsstilsförändring på hjärnfunktion och stresshormoner vid fetma och typ 2 diabetesStomby, Andreas January 2015 (has links)
Background Obesity and associated metabolic dysregulation are linked to impaired cognitive function and alterations in brain structure, which increases the risk of age-related dementia. Increased glucocorticoid (GC) exposure may be a potential mediator of these negative effects on the brain. Methods and results In paper 1, we tested the relationship between cortisol levels, brain morphology and cognitive function in 200 women and men. Salivary cortisol levels were negatively related to cortical surface areas in prefrontal brain regions in both sexes. In participants with type 2 diabetes, high salivary cortisol levels were associated with lower memory performance. In paper 2, we tested in 70 overweight women the effects on tissue-specific GC metabolism of a Paleolithic diet or a diet following the Nordic nutrition recommendations. The 24-month interventions led to decreased expression of the GC-activating enzyme 11βHSD1 in adipose tissue, interpreted as a normalization of an obesity-related disturbance in GC metabolism. Furthermore, GC metabolism by 5α-reductase increased substantially after 2 years, an unexpected and novel result. The outcomes did not differ by diet. In paper 3, 20 women included in paper 2 were examined with functional magnetic resonance imaging (fMRI) while performing a memory task at baseline and after 6 months. Memory performance improved and functional brain responses increased in the hippocampus. Once again, the results were similar in both diet groups. In paper 4, 24 overweight participants with type 2 diabetes were examined with fMRI, using the same memory test as in paper 3, at baseline and after 12 weeks of intervention with a Paleolithic diet with or without exercise training. Functional brain response increased in the hippocampus, but memory was not improved. The addition of physical exercise did not alter the results. Conclusion Cortisol levels are linked to prefrontal brain structure and, at least in type 2 diabetes, lower memory performance. Furthermore, the dysregulated GC metabolism in obesity can be reversed by long-term diet- induced weight loss. Finally, dietary interventions with associated metabolic improvements alter functional brain responses during memory testing, including increased activation of the hippocampus. Whether these changes are linked to alterations in GC exposure and mediate improved cognition requires further study.
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Interleukin-1 Beta Mediated Regulation of Hyaluronan and Hyaluronan Synthase 2Ducale, Ashley Elizabeth 01 January 2005 (has links)
Elevated levels of hyaluronan are associated with numerous inflammatory diseases including ulcerative colitis, Crohn's disease and wound healing. Various proinflammatory cytokines have shown to influence hyaluronan expression in cells originating from connective tissue. The overall purposes of this study included: 1. To determine the effects of IL-1β stimulation on HA and HAS2 steady state transcript levels and the signaling pathways involved in its effects. The signaling pathways utilized by proinflammatory mediators to modulate hyaluronan expression have only begun to be elucidated. In this aim, the effects of IL-1β on hyaluronan and HAS expressions in jejunum-derived mesenchymal cells were determined. Inhibition studies were utilized to determine the signaling pathways involved. The overall hypothesis of this aim was that stimulation of jejunum-derived mesenchymal cells with IL-1β activates the mitogen activated protein kinase pathways resulting in increased HAS2 steady state transcript and hyaluronan levels.Results: The results suggest that IL-1β induction of HAS2 expression involves, in part, the mitogen activated protein kinase signaling pathways that act in concert thus leading to an increase in expression of hyaluronan by jejunum-derived mesenchymal cells.2. To determine the effects of dexamethasone on IL-1β mediated increase in hyaluronan and HAS2 expressions and the mechanisms utilized by this glucocorticoid. Glucocorticoids are a mainstay treatment for the inflammatory component of inflammatory bowel disease. Given the recent evidence demonstrating increased hyaluronan in inflamed tissue from patients affected with inflammatory bowel disease, the objective of this aim was to determine the effect of dexamethasone on IL-1β-mediated induction of hyaluronan. The hypothesis of this aim was that pre-treatment with dexamethasone suppressed the ability of IL-1β to increase HAS2 transcript and hyaluronan levels via inhibition of the p38 MAP kinase pathway. Results: Pre-treatment with dexamethasone inhibited IL-1β-mediated hyaluronan and HAS2 induction by blocking the activation of the p38 MAP kinase pathways. 3. To identify the transcriptional and post-transcriptional mechanisms utilized by IL-1β to upregulate HAS2 steady state transcript levels. Very little is known about transcriptional and post-transcriptional regulation of the hyaluronan synthase 2 gene. In this aim, 5' and 3' mapping, luciferase analyses and actinomycin D studies were used to determine the transcriptional and post-transcriptional mechanisms utilized by IL-1β to regulate HAS2 steady state transcript levels. The hypothesis of this aim was that IL-1β used post-transcriptional mechanisms to regulate the HAS2 gene.Results: Dermal fibroblasts were used to find the 5'- and 3'-termini of the HAS2 message. Promoter constructs extending approximately 1 kb upstream from the transcription start site demonstrated no IL-1β response. Blocking protein synthesis prior to the addition of IL-1β dramatically increased HAS2 steady state transcript levels, while inhibition of transcription suppressed the effect of IL-1β on HAS2. Northern blot analysis revealed that cycloheximide and IL-1β exerted differential effects on the two HAS2 transcripts.
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Proteção conferida pelo enriquecimento ambiental na ansiedade induzida por estresse: a importância da sinalização via GR, ERK e CREB no complexo amigdalóide basolateral de ratos. / Protection conferred by environmental enrichment on stress-induced anxiety: the importance of GR, ERK, and CREB pathways in the rat basolateral amygdala.Novaes, Leonardo Santana 09 April 2013 (has links)
O enriquecimento ambiental (EA) é um modelo experimental capaz de promover a melhora no aprendizado e na formação de memórias hipocampo-dependentes, bem como a redução de manifestações comportamentais relacionadas ao estresse, incluindo a ansiedade. Embora a relação causal entre estresse e ansiedade ainda não está esclarecida, algumas evidências apontem para a importância da sinalização de hormônios glicocorticoides (via receptores GR e MR) no sistema nervoso central, principalmente na amígdala e no hipocampo, além do fator neurotrófico BDNF e de algumas vias de sinalização intracelular, como proteínas quinases MAPK e o fator de transcrição CREB. No presente trabalho verificamos que o EA previne o surgimento de sintomas do tipo ansioso desencadeado por estresse agudo em ratos, efeito verificado imediatamente após o estresse, e que tal efeito pode estar relacionado à modulação, no complexo amigdalóide basolateral, da sinalização nuclear de GR, da atividade de ERK (pertencente à família das MAPK) e de CREB, bem como à alteração na expressão do receptor de BDNF. / Environmental enrichment (EE) is an experimental model that promotes improvements in learning and memory, as well as reduction in stress-induced behaviors, including anxiety. Although the casual relationship between stress and anxiety remains unclear, some studies show the importance of glucocorticoids hormones signaling (via GR and MR receptors) in the central nervous system, primarily in the amygdala and the hippocampus. In addition, the significance of the neurotrophic factor BDNF and some intracellular signaling pathways, such as protein kinases MAPK and the transcription factor CREB, has been described. In this study we found that EE prevents the emergence of anxiety-related behavior triggered by acute stress in rats, an effect observed just after the stress stimulus. This effect may be related to the modulation, in the basolateral amygdala, of nuclear GR signaling, ERK (a MAPK protein) and CREB activity, as well as to changes in the expression of BDNF receptor.
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Mecanismos moleculares envolvidos na redução da proliferação de células beta pancreáticas induzida por glicocorticóides. / Underlying molecular mechanisms in the glucocorticoid-induced inhibition of pancreatic beta cell proliferation.Carvalho, José Edgar Nicoletti 21 June 2010 (has links)
Durante a gravidez, o pâncreas endócrino materno sofre alterações morfológicas e funcionais que resultam no aumento da massa de células beta e da secreção de insulina. Nos estágios finais da gestação ocorre aumento dos níveis plasmáticos de glicocorticóides que resulta na diminuição da secreção e da proliferação das células beta. Este fenômeno, que ocorre no período compreendido entre o final da gravidez e o inicio da lactação, promove a reversão fisiológica da adaptação funcional que se fez necessária durante a gravidez. Assim, estudamos mecanismos moleculares envolvidos na redução de proliferação destas células. As proteínas cinases reguladas por sinais extracelulares (ERK) estão envolvidas no crescimento e sobrevida celular. Os resultados mostram que o glicocorticóide sintético, dexametasona, diminui a proliferação de células beta e, para isto, induz diminuição da fosforilação das ERK-1/2 por meio do aumento da expressão de uma fosfatase de MAPK (MKP-1). Este mecanismo deve estar envolvido no remodelamento pancreático pós-natal induzido pelos glicocorticóides. / During pregnancy, maternal pancreatic islets undergo morphofunctional changes that increase beta cell mass and insulin secretion. At late stages of pregnancy there is an increase in plasma glucocorticoid levels that inhibit beta cell proliferation and beta cell function. This situation, which occurs in a period between late pregnancy and early stages of lactation, counteracts the functional gain established throughout pregnancy. In this work we studied the molecular mechanisms involved in the impaired beta cell proliferation. The extracellular regulated kinases (ERKs) are involved in cellular growth and survival. Our results show that dexametasone, a synthetic glucocorticoid, inhibits proliferation by a mechanism that includes up regulation of a dual specificity phosphatase (MKP1). This, by extension, impairs ERK1/2 activation. This mechanism could take part in the induced-glucocorticoid reestablishment of endocrine pancreatic mass after parturition.
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Efeito do polimorfismo A3669G do gene do receptor de glicocorticoide sobre o controle metabólico, comportamento alimentar e neuroimagem funcional em uma amostra de adolescentesRodrigues, Danitsa Marcos January 2015 (has links)
Introdução: Os glicocorticoides (GCs) estão envolvidos na regulação e adaptação da resposta ao estresse, exercendo seus efeitos através de seus receptores. Variações polimórficas no gene do receptor de glicocorticoide (GR) têm sido caracterizadas funcionalmente. O polimorfismo A3669G do gene do GR está relacionado a modificações na sensibilidade aos GCs e mudanças no perfil metabólico. Concentrações fisiológicas de GCs estimulam a ingestão calórica e, na presença de insulina, modificam a preferência alimentar. A variante A3669G do gene do GR parece levar a um menor risco para diabetes, em pacientes com Síndrome de Cushing, e para o tabagismo, quando associado a um polimorfismo do gene do receptor de mineralocorticoide, sugerindo uma modulação na via de recompensa. O objetivo deste trabalho é avaliar a associação de variantes do polimorfismo A3669G do gene do GR com o comportamento alimentar e parâmetros metabólicos em uma amostra de estudantes, correlacionando com dados de neuroimagem funcional. Métodos: A amostra provém de alunos de 6 escolas de Porto Alegre, avaliados em 2008 e em 2013. Em 2008, 131 indivíduos apresentavam o protocolo completo de avaliação e, destes, 74 retornaram em 2013. A avaliação incluiu genotipagem, antropometria, exames laboratoriais, comportamento alimentar e um paradigma avaliando a ativação cerebral em resposta a visualização de imagens de alimentos palatáveis, não palatáveis e de objetos neutros. A análise da associação com os fenótipos foi realizada através do teste t de Student e Chi quadrado; os dados do estudo longitudinal foram analisados por meio de Equações de Estimatição Generalizada. Resultados: A variante G do polimorfismo A3669G do gene do GR foi encontrado em 17,6% em 2008 e em 14,9% da amostra em 2013. Não houve diferença entre os grupos de carreadores do alelo G e não carreadores quanto a diferentes confundidores; a comparação entre as médias dos dois grupos sobre o consumo calórico proveniente de proteínas, carboidratos e gorduras em 2008 não revelou diferenças significativas; nesta etapa, as análises evidenciaram maior consumo de açúcares e de calorias totais no grupo não carreador do alelo G. Em 2013, estes indivíduos não carreadores do alelo G do polimorfismo A3669G apresentaram maior insulinemia e além de aumento no índice de resistência à insulina, sem diferenças no consumo alimentar. Os dados de neuroimagem funcional indicaram que a visualização de imagens de alimentos palatáveis pelo grupo não carreador do alelo G ativou o giro occipital médio, uma região implicada no processamento visual, mostrando menor ativação em giro pré central e nas áreas de Brodmann 4 e 6, relacionadas ao planejamento motor e sensibilidade ao sabor. Conclusão: Os resultados mostram que os indivíduos não carreadores da variante G do polimorfismo A3669G do gene do GR apresentaram menor sensibilidade à insulina, precedidos pela modulação na preferência alimentar. Os achados em neuroimagem funcional indicam maior saliência de incentivo aos alimentos palatáveis e predisposição à impulsividade no grupo não carreador do alelo G. Sugere-se que a redução na sensibilidade em nível celular aos GCs relacionada à presença do alelo G, afete a ingestão alimentar, reduzindo o consumo de alimentos palatáveis, diminuindo o risco para doenças metabólicas. / Introduction: Glucocorticoids are involved in regulation and adaptation of the stress response, exerting effects through its receptors. Variations on the glucocorticoid receptors genes have been characterized functionally. The A3669G polymorphism of the glucocorticoid receptor gene is related to a change in the tissue sensitivity to glucocorticoids and altered metabolic profile. Physiological concentrations of glucocorticoids stimulate food intake and in the presence of insulin affect food preferences. The G variant of the A3669G polymorphism appears to lead to a lower risk for diabetes, in patients with Cushing's syndrome, and smoking, when associated with a polymorphism of the mineralocorticoid receptor gene, suggesting a modulation in reward pathways. The objective of this study is to evaluate the association of A3669G polymorphism variants with feeding behavior and metabolic parameters in a sample of students correlating with functional neuroimaging data. Methods: The sample includes students of 6 schools in Porto Alegre, evaluated at two occasions 2008 and in 2013. In 2008, 131 individuals had complete protocol assessment and, from these, 74 returned in for re- evaluation in 2013. The evaluation included genotyping, anthropometry, laboratory tests, feeding behavior and a functional MRI paradigm to verify brain activation in response to the visualization of palatable, non- palatable foods and neutral items. The association with phenotypes was performed using Student's t test and Chi-square; longitudinal study data were evaluated using Generalized Estimating Equations. Results: The variant of the A3669G polymorphism was found in 17.6% of the students in 2008 and 14.9% of the sample in 2013. There was no difference between groups in the sample composition; the comparison between groups of the mean caloric intake originating from proteins, carbohydrates and fats in 2008 revealed no significant differences; at this time, analysis showed lower consumption of sugars and total calories in the G carrier group. In 2013, these individuals showed a reduction in insulin level and resistance, with no differences in food intake. The fMRI data indicated that viewing a food palatable image by the wild-type allele carrier group activated a region involved in visual processing (middle occipital gyrus) and deactivated an area related to motor planning and sensitivity to taste (pre central gyrus). Conclusion: The results showed that G carriers of the A3669G polymorphism of glucocorticoid receptor gene had lower insulin resistance levels, preceded by modulation of their food preference. The findings in functional neuroimaging showed increased incentive salience on viewing palatable food images and a predisposition for impulsivity in noncarriers. Data suggest that reduction in glucocorticoids sensitivity at a cellular level affects food intake, by reducing consumption of palatable foods, possibly decreasing the risk for metabolic diseases.
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Hormone-induced expression of the epithelial sodium channel in human airway cellsIsmail, Noor January 2013 (has links)
Respiratory distress syndrome and pulmonary oedema often result in poor health and in the worst case scenario, death. Several studies have proposed that the eventual resolution of these dangerous conditions is due to active sodium reabsorption through the epithelial sodium channel (ENaC), which is crucial for lung fluid clearance. Although clinical prognosis can be improved by using glucocorticoid hormones to augment the ENaC-dependent removal of liquid from the lungs, we still require a better understanding of the underlying mechanism in order to improve treatments in the future. This thesis, therefore explores the role of serum / glucocorticoid-inducible protein kinase 1 (SGK1) and protein kinase A (PKA) in the responses of hormone-stimulated H441 human airway cells. Dexamethasone, a synthetic glucocorticoid hormone, is thought to evoke expression of the gene encoding SGK1 and, to become catalytically active, this gene product must then be phosphorylated via TORC2 and PDK1, protein kinases activated via the P13-kinase pathway. Once activated, SGK1 appears to exert control over the surface abundance of ENaC subunits by phosphorylation, and thus inactivating, a ubiquitin ligase (Nedd4-2), that normally mediate the withdrawal of ENaC subunits from the plasma membrane. Protein kinase A (PKA) may contribute to this control mechanism by also phosphorylating Nedd4-2. In order to clarify the way in which these pathways contribute to glucocorticoid-induced lung liquid clearance, the present thesis has explored the effects of dexamethasone and / or PKA activation upon the overall / surface expression of ENaC subunits, the activities of SGK1 and PKA and the phosphorylation status of physiologically-important residues within Nedd4-2 itself.
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Expressão gênica dos receptores de cortisol no músculo de bovinos Nelore e associação com características endócrinas, metabólicas e qualidade da carne / Gene expression of cortisol receptors in muscle of Nellore cattle and association with endocrine and metabolic characteristics and meat qualitySilva, Barbara 18 February 2013 (has links)
O estresse provoca alterações significativas no metabolismo dos animais, provocando a liberação de hormônios glicocorticoides. Estas alterações do metabolismo têm efeito anabólico sobre o metabolismo proteico muscular, podendo afetar os processos bioquímicos de transformação do músculo em carne. O presente trabalho teve como objetivo geral (i) verificar as relações entre variáveis endócrinas e metabólicas associadas ao estresse e características indicadoras de qualidade da carne, em animais castrados e não-castrados; (ii) avaliar a expressão gênica dos receptores mineralocorticoide (MR) e glicocorticoide (GR) em variáveis endócrinas, metabólicas e relacionadas à qualidade da carne de bovinos Nelore castrados e não-castrados. Para tal, 130 animais foram abatidos entre os anos de 2009 e 2011. Amostras de sangue foram coletadas antes e depois do abate para mensuração das concentrações de ACTH e cortisol. Amostras do músculo Longissimus dorsi foram coletadas durante os abates para mensuração do glicogênio e lactato, bem como, para análises de expressão gênica (RT-qPCR). Para as análises de maciez, foram coletadas amostras maturadas por um, sete e 14 dias. Para expressão gênica foram determinados os genótipos dos animais para três marcadores relacionados ao MR (MR1_1, MR1_2 e MR1_3) e dois ao GR (GR2_1 e GR2_2), por meio de PCR em tempo real. Foi verificado que animais castrados apresentam pH 24 horas menores e carnes mais macias ao sétimo e 14º dias de maturação, bem como, concentrações de cortisol (in vivo e post mortem) e lactato significativamente superiores aos animais não-castrados. O marcador MR1_3 apresenta expressão gênica significativamente diferenciada. Os animais com genótipo GA apresentaram 57,27% mais transcritos quando comparados aos animais GG. A expressão gênica do MR e GR foi significativamente relacionada às concentrações de cortisol in vivo e post mortem, porém não influenciou as concentrações de ACTH (in vivo e post mortem), glicogênio e lactato. A expressão gênica do MR e GR não foi relacionada às características indicadoras da qualidade da carne. / The stress causes significant changes in the metabolism of the animals causing the release of glucocorticoid hormones. These metabolic changes have anabolic effect on muscle protein metabolism, affecting the biochemical processes of transformation of muscle on meat. This study aimed to (i) examine relationships between endocrine and metabolic variables associated with stress and meat quality characteristics in castrated and non-castrated animals, (ii) evaluate mineralocorticoid receptor (MR) and glucocorticoid receptor (GR) gene expression in endocrine and metabolic characteristics and related this to meat quality of Nellore castrated and non-castrated animals. To this end, 130 animals were slaughtered between the years 2009 and 2011. Blood samples were collected before and after slaughter to measure concentrations of ACTH and cortisol. Longissimus dorsi muscle samples were collected during slaughter for measurement of glycogen and lactate, as well for gene expression analyzes (RT-qPCR). For the shear force analyzes, samples were aged for one, seven and 14 days. For gene expression analysis, genotypes of three markers related to MR (MR1_1, MR1_2 and MR1_3), and the two related to GR (GR2_1 and GR2_2) were determined via real-time PCR. It was observed that castrated have lower pH value at 24 hours than non-castrated animals, and tender meat on the seventh and 14th day of aging, such as cortisol (in vivo and post mortem) and lactate concentrations significantly superior to non-castrated animals. Gene expression of MR1_3 was significantly different. Animals with GA genotype had 57.27% more transcripts than GG genotype. The gene expression of MR and GR was significantly related to cortisol concentrations in vivo and post mortem, but did not influence the concentrations of ACTH (in vivo and post mortem), glycogen and lactate. The MR and GR gene expression was not related to the meat quality characteristics.
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The Role of Luteal Phase Fallopian Tube Epithelium in High-grade Ovarian Serous CarcinomaTone, Alicia 05 September 2012 (has links)
Studies of prophylactic salpingectomy specimens from BRCA1/2 mutation carriers, at risk for tubal and ovarian high-grade serous carcinoma (SerCa), have consistently revealed occult carcinomas and putative histological cancer precursors in the distal fallopian tube epithelium (FTE), supporting the FTE as the source of SerCa. In this thesis I molecularly characterized and compared non-malignant FTE from mutation carriers (FTEb) and control patients (FTEn) to identify alterations that may predispose to malignant transformation. Gene expression profiling of laser capture microdissected FTEn, FTEb and SerCa indicated that SerCa have similar molecular profiles whether of presumed ovarian or tubal origin, supporting the notion they share a common cell of origin within the FTE. Furthermore, FTEb samples obtained during the post-ovulatory luteal phase showed gene expression profiles closely resembling SerCa samples, suggesting that the luteal phase milieu may contribute to serous carcinogenesis. An initial hypothesis was that FTEb may respond differently to luteal progesterone compared to FTEn, via differential expression of progesterone receptor (PR) isoforms. However, similar relative isoform expression in FTEn and FTEb samples suggested that a luteal phase-associated factor other than progesterone directs gene expression changes in FTEb. The possibility that FTEb respond differently to ovulation-associated inflammatory cytokines that are locally elevated during the luteal phase was next investigated. Importantly, FTEb specimens previously found to cluster with SerCa based on their global gene expression profiles showed evidence of increased nuclear factor-κB (NFκB)-dependent (pro-inflammatory) signalling and diminished glucocorticoid receptor (GR)-dependent (anti-inflammatory) signalling. Furthermore, I demonstrate that disabled homolog 2 (DAB2), an adaptor molecule decreased in SerCa and FTE luteal samples, enhances both GR-mediated transactivation and suppression of NFκB signalling, implicating DAB2 as a crucial determinant of inflammatory signalling and ovarian cancer risk. Altogether, this thesis identifies gene expression changes in FTE from BRCA mutation carriers during the post-ovulatory luteal phase that parallel those detected in SerCa. The data support a proposed novel testable model for predisposing events contributing to SerCa that centres on an altered ability to quickly resolve the pro-inflammatory environment created by the ovulatory event.
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