Global ETD Search

221	Effects of NPY-Y1 receptor activation or inhibition on free radical generation during in vitro or in vivo cerebral ischemia Chan, Pui-shan, 陳佩珊 January 2006 (has links) published_or_final_version / abstract / Medicine / Master / Master of Philosophy Neuropeptide Y. Neuropeptide Y - Agonists. Nitric oxide. Cerebral ischemia.
222	DISTINCT ROLES FOR Cx37 AND Cx40 IN REGULATING VASCULAR RESPONSES FOLLOWING ISCHEMIA Fang, Jennifer Shea-Ying January 2010 (has links) Gap junctions are intercellular channels that permit passage of electrical and chemical signals between neighbouring cells. Vascular endothelium typically co-expresses Cx37 and Cx40, but may downregulate its expression of Cx37 (and upregulate Cx43) in response to changes in flow. The specific regulatory roles mediated by vascular endothelial connexins, and the consequences of altered connexin expression, remain unclear. In this study, we hypothesized that Cx37 and Cx40 regulate distinct vascular responses. We further hypothesize that Cx37 is predominantly involved in vascular growth control, whereas vascular growth is not affected by ablation of Cx40 expression. We show herein that Cx37, but not Cx40 or Cx43, suppresses growth of a highly-proliferative cancer cell line by inducing G1 cell cycle accumulation. We further show that Cx37-deficient mice, lacking Cx37's putative growth inhibitory effect on the vasculature, exhibit a more extensive native and post-ischemic collateral circulation, and greater ischemia-induced microvascular density. In addition, Cx37-/- mice demonstrate a functional improvement in recovery over wild-type animals in two models of hindlimb ischemia. By contrast, Cx40-/- mice fail to recover distal limb flow following unilateral hindlimb ischemia, resulting in necrosis. Long-term angiotensin II antagonism normalized post-ischemic hindlimb bloodflow, reduced macrophage infiltration, and delayed (but did not reverse) the necrotic phenotype of these animals. In summary, we show a distinct role for each of the endothelial connexins, Cx37 and Cx40, in regulating post-ischemic vascular responses. Angiogenesis Collateral Connexin Gap Junction Ischemia Vascular Remodeling
223	Studies of experimental cerebral ischaemia using magnetic resonance imaging and autoradiography Lythgoe, Mark Francis January 1999 (has links) No description available. 610
224	MITOCHONDRIAL THERAPEUTICS DURING ISCHEMIA-REPERFUSION; MODULATION OF COMPLEX I: EFFECT OF METFORMIN. Sunu, Shawn Y 01 January 2015 (has links) The modulation of the electron transport during ischemia-reperfusion has been shown to be protective. We hypothesized that metformin, a Complex I inhibitor, may exhibit characteristics of a pharmacological agent that could achieve long-term therapeutic intervention against ischemia-reperfusion injury. Mitochondria were harvested from adult male mice and incubated with or without metformin at 30oC for 15 minutes, while being shaken at 300 rpm. Metformin decreased Complex I oxidative phosphorylation and Complex I activity. However, metformin also increased injury and decreased the maximum membrane potential. Even though there was a decrease in maximum membrane potential, the proton motive force (PMF) was still intact as the ADP/O ratio was not affected. In conclusion, metformin does exhibit some characteristics of a drug that could achieve long-term therapeutic benefit against ischemia-reperfusion. Ischemia-Reperfusion Mitochondria Metformin Complex I Cellular and Molecular Physiology
225	IN VIVO MEASUREMENT OF RAT SKELETAL MUSCLE OXYGEN CONSUMPTION FOLLOWING BRIEF PERIODS OF ISCHEMIA WITH REPERFUSION AS ASSESSED BY PHOSPHORESCENCE QUENCHING MICROSCOPY Nugent, William 09 August 2010 (has links) Brief periods of skeletal muscle ischemia (ischemic pre-conditioning) alter cellular metabolism in a way that confers protection over subsequent ischemic episodes. The mechanisms behind this effect have been studied indirectly through assays for the byproducts of ATP synthesis and in vitro studies of cellular signaling cascades and ROS generation. There have been no direct, in vivo assessments of the changes in respiration during reperfusion. We employed phosphorescence quenching microscopy in conjunction with a flow-arrest technique to assess the influences of external, pressure-induced 1- to 10-min focal ischemia on interstitial oxygenation (PISFO2) and the consumption of oxygen (VO2) in spinotrapezius muscles of Sprague-Dawley rats. During reperfusion following an ischemic period VO2 was measured by the rate of PISFO2 decline during brief, serial flow-arrest compressions. Our tests of this intermittent compression technique indicate that 5 s of flow-arrest followed by 15 s of flow restoration allow measurement of VO2 without compromising baseline or reperfusion recovery of PISFO2. There was a steady rise in VO2 during early reperfusion which was correlated with increasing ischemic durations. Treatment with cyanide confirmed that at least some of this increase was due to an upregulation of cytochrome c oxidase activity. Nitric oxide (NO) suppressed VO2 during rest and reperfusion, while L-NAME did not influence respiration under normoxic conditions. L-NAME produced a significant rise in VO2 under hypoxic conditions following 10 minutes of ischemia, indicating a greater role of NO in the regulation of respiration during low PISFO2 conditions. We conclude that physiological levels of NO regulate mitochondrial respiration during hypoxia and confirm that pharmacological elevation of [NO] reduces VO2 in a manner consistent with the ischemic pre-conditioning effect. Ischemia reperfusion oxygen consumption microvasculature Life Sciences Physiology
226	Effets cardioprotecteurs du glutamate contre les lésions d'ischémie-reperfusion myocardique chez la souris. Evaluation échocardiographique. / Cardioprotective effects of glutamate against ischemia-reperfusion injury in the mouse heart. Echocardiographic evaluation Sportouch-Dukhan, Catherine 30 November 2012 (has links) L'infarctus du myocarde est la première cause de mortalité cardiovasculaire dans les pays occidentaux. La reperfusion la plus précoce possible est actuellement le seul traitement validé pour réduire la taille d'infarctus, facteur pronostique fondamental de morbi-mortalité. Cependant, la reperfusion engendre des lésions d'ischémie-reperfusion (IR) irréversibles qui précipitent la mort par apoptose des cardiomyocytes. Une approche transcriptomique nous a permis d'identifier les gènes spécifiques du postconditionnement ischémique (PostC) dans le cœur de souris. Parmi ceux-ci, l'expression du gène codant pour le récepteur métabotrope de type 1 du glutamate (mGluR1) est augmentée par le PostC. L'objectif de mon travail de thèse a été d'étudier le rôle de mGluR1 au cours de l'IR myocardique. Notre stratégie, basée sur l'utilisation de souris knock-out, a permis de confirmer l'implication de mGluR1 dans la cardioprotection. L'injection de glutamate au moment de la reperfusion myocardique permet de diminuer significativement la taille de l'infarctus par inhibition de l'apoptose. Cet effet cardioprotecteur est diminué en présence de l'antagoniste spécifique YM 298198 ou en présence de wortmannin, inhibiteur de la PI3-kinase, activée dans la cascade de signalisation du récepteur. La réduction de la taille d'infarctus par le glutamate semble associée à une amélioration de la fonction contractile du ventricule gauche en échocardiographie (par speckle tracking, méthode de quantification de la déformation myocardique) dans un modèle murin d'IR myocardique. Ces résultats, bien que préliminaires, semblent prometteurs et nous permettent d'envisager une application clinique chez le patient coronarien. / Myocardial infarction is the major cause of cardiovascular mortality in western countries. Reperfusion as early as possible is the only treatment recognized to reduce infarct size, crucial prognostic factor of morbidity and mortality. However, reperfusion leads to ischemia-reperfusion (IR) injury leading to irreversible apoptotic death of cardiomyocytes. A transcriptomic approach has allowed us to identify genes specifically regulated upon ischemic postconditioning (PostC) in the mouse heart. Among them, the expression of the metabotropic glutamate receptor type 1 (mGluR1) gene is up-regulated by PostC. The aim of my thesis work was to study the role of mGluR1 during myocardial IR. Our strategy, based on the use of knockout mice, confirmed the involvement of mGluR1 in cardioprotection. Injection of glutamate at the time of reperfusion significantly reduced infarct size via apoptosis inhibition. This cardioprotective effect was reduced in presence of the specific antagonist YM 298198 or in presence of wortmannin, an inhibitor of PI3-kinase, which is activated downstream mGluR1. In our mouse model of myocardial IR injury, decrease in infarct size after glutamate treatment seems to be associated to an improved left ventricular contractile function assessed by echocardiography (speckle tracking method quantifying myocardial strain). These preliminary results are promising and allow us to consider a clinical trial for coronary patients. Cardioprotection Infarctus Ischémie-reperfusion Échocardiographie Cardioprotection Infarction Ischemia-reperfusion Echocardiography
227	Effet cardioprotecteur des ligands de la protéine translocatrice mitochondriale (TSPO) au cours de l'ischémie-reperfusion myocardique expérimentale : rôle du cholestérol. / Cardioprotective effect of mitochondrial translocator protein (TSPO) ligands during experimental myocardial ischemia-reperfusion : role of cholesterol. Paradis, Stephanie 11 December 2012 (has links) Dans ce travail, nous avons montré qu'un nouveau ligand du TSPO, le TRO40303, possède des propriétés cardioprotectrices, confirmant que le TSPO joue un rôle important dans les effets délétères engendrés par l'ischémie-reperfusion myocardique. Des effets similaires ont déjà été observés avec d'autres ligands du TSPO, notamment le 4'-chlorodiazépam, mais le mécanisme d'action par lequel ces molécules exercent leur effet cardioprotecteur reste pour une large part encore mal connu. Nous avons montré chez le rat que la reperfusion d'un myocarde ischémié s'accompagne d'une augmentation du cholestérol mitochondrial, de la formation d'oxystérols et d'un stress oxydant majeur. Le 4'-chlorodiazépam inhibe ces effets et améliore les fonctions mitochondriales post-ischémiques, révélant que le TSPO est responsable du transport du cholestérol dans la mitochondrie cardiaque et que ce dernier, sous des formes oxydées ou non, pourrait participer aux effets délétères de la reperfusion. La limitation de l'entrée du cholestérol dans la mitochondrie lors de la reperfusion d'un myocarde ischémié est un mécanisme original qui pourrait donc contribuer à l'effet cardioprotecteur des ligands du TSPO. Enfin, nous avons montré que chez des rats génétiquement modifiés et associant hypercholestérolémie, obésité et diabète de type II, le cholestérol mitochondrial est d'une part très élevé, avec ou sans ischémie-reperfusion myocardique et d'autre part que le 4'-chlorodiazépam n'a pas d'effet sur le cholestérol mitochondrial après ischémie-reperfusion. Ces résultats suggèrent que les mécanismes d'action des ligands du TSPO sont probablement différents et que les traitements doivent être adaptés en présence de facteurs de co-morbidité. / In the present work we showed that a new TSPO ligand, TRO40303, has cardioprotective properties confirming that TSPO plays a key role in the deleterious effects of myocardial ischemia-reperfusion. Similar effects have been observed with other TSPO ligands, such as 4'-chlorodiazepam, but the mechanism of action of these molecules is not known. We showed that ischemia-reperfusion in rats increased mitochondrial concentration of cholesterol, oxysterol formation and oxidative stress. 4'-Chlorodiazepam inhibited these effects and improved post-ischemic mitochondrial functions, revealing that TSPO is responsible for cholesterol transport in cardiac mitochondria and that cholesterol, in oxidized or non-oxidized forms, could participate in the deleterious effects of reperfusion. The limitation of the increase in cholesterol in mitochondria during ischemia-reperfusion is an original mechanism which could contribute to the cardioprotective effect of TSPO ligands. We then showed, in genetically modified rats with hypercholesterolemia, obesity and type II diabetes, that the concentration of mitochondrial cholesterol is very high with or without ischemia-reperfusion. We further demonstrated that 4'-chlorodiazepam has no effect on mitochondrial cholesterol after ischemia-reperfusion. These results suggest that the mechanisms of action of TSPO ligands probably differ in these conditions and that treatment must be adapted in accordance with the presence of factors of co-morbidity. Cholestérol Ischémie reperfusion Mitochondrie Cardioprotection Cholesterol Ischemia reperfusion Mitochondria Cardioprotection
228	Regulation of oxidative stress and inflammation in ischemia/reperfusion-induced acute kidney injury Wang, Pengqi 06 April 2016 (has links) Renal ischemia/reperfusion (I/R) is a main cause of acute kidney injury (AKI) and delayed graft function after renal transplantation. Previous studies in human and experimental models have identified that inflammation and oxidative stress are two key players in renal I/R injury. However, the underlying mechanisms remain speculative. The overall objective of the study was to investigate the biochemical and molecular mechanisms of I/R-induced renal injury and the effect of tyrosol supplementation on I/R-induced kidney oxidative stress damage. In the present study, renal I/R was induced in Sprague-Dawley rats and in a human kidney proximal tubular cell line. A significantly elevated expression of pro-inflammatory cytokine expression (MCP-1, IL-6) was observed. There was a significant decrease in mRNA and protein levels of two hydrogen sulphide (H2S)-producing enzymes, CBS and CSE, with a concomitant reduction of glutathione and H2S production. In the cell culture model, hypoxia–reoxygenation of proximal tubular cells led to a decrease in CBS and CSE expression and an increase in pro-inflammatory cytokine expression. Supplementation of glutathione or H2S donor (NaHS) effectively abolished cytokine expression in tubular cells. Experiments were conducted to detect oxidative stress markers. It was demonstrated that there was a significant increase in peroxynitrite formation and lipid peroxidation in the kidney after I/R insult, which might be caused by the elevation in nitric oxide (NO) metabolites and inducible nitric oxide synthase (iNOS). Administration of tyrosol, a natural phenolic compound, reduced peroxynitrite formation, lipid peroxidation and the level of NO metabolites via inhibiting NF-B activation and iNOS expression. Tyrosol treatment improved kidney function and had a protective effect against I/R-induced AKI. The present study has clearly demonstrated that (1) there is a reduction of H2S production via inhibition of CBS and CSE expression, which contributes to increased pro-inflammatory cytokine expression in the kidney and in tubular cells upon I/R insult; (2) restoration of endogenous H2S production would be of therapeutic value in regulating inflammatory response in I/R-induced kidney injury; (3) tyrosol treatment has a beneficial effect against renal I/R-induced oxidative stress, in part, through its inhibition on NF-B activation and iNOS-mediated NO production. / May 2016 Acute kidney injury Ischemia/reperfusion Oxidative stress Inflammation
229	The effect of ischaemia and reperfusion on discharge patterns of nociceptive afferent nerve fibres in the rat tail Dal Mas, Ilario January 2017 (has links) In rats anaesthetised with enflurane, Iexamined.the response of coccygeal primary afferents fibres to noxious thermal and mechanical stimulation and to innocuous brushing, during transient ischaemia and reperfusion of their receptive fields on the tail. Ischaemia was induced by occluding the blood supply to the tail for 30 min using a tourniquet. I discovered four different groups of afferent fibres, distinguished by conduction velocity and modality, A{3fibres responding to both brush and pinch of their receptive fields showed decreased sensitivity to brush during both ischaemia and reperfusion; Ao fibres responding to pinch were unaffected by either ischaemia or reperfusion, C fibres responding to noxious heat (49· C) and pinch showed hypersensitivity during reperfusion, especially immediately after release of the tourniquet. Another group of C fibres, presumably chemosensitive, became more actiVA during ischaemia and exhibited a 7-fold increase in firing rate during receptive field reperfuslon in the absence of obvious stimuli. These results indicate that during reperfuslon of the rat tail following transient ischaemia, myelinated fibres do not increase their input to the CNS, while C fibres became more active and showed sensitization to noxious stimulation of their receptive fields. The enhanced CNS nociceptive activity which occurs during reperfusion consequently results from both peripheral and. central sensitization. / GR2017 Neurofibrils Ischemia Reperfusion injury Rats as laboratory animals
230	Ischémie-reperfusion musculaire squelettique expérimentale : place de la lactatémie capillaire dans le monitorage de la reperfusion et transposition au modèle intestinal / Experimental skeletal muscle ischemia-reperfusion : capillary lactate for reperfusion monitoring Noll, Éric 24 February 2016 (has links) Les objectifs de ce travail expérimental étaient : 1. Évaluer la place de la lactatémie capillaire comme dispositif de monitorage de l’ischémie et de la reperfusion tissulaire. 2. Comparer le suivi local du taux de lactate, au niveau du compartiment ischémié, par rapport au taux systémique du lactate lors des l’ischémie de membre, l’ischémie intestinale ainsi que durant le choc hémorragique. La mesure capillaire du taux de lactate pourrait permettre: 1. d’affirmer l’existence d’une ischémie tissulaire régionale. Le taux systémique du lactate ne permet ce diagnostic, 2. de confirmer l’efficacité d’une reperfusion au niveau d’un membre préalablement ischémique tandis que la mesure systémique des lactates ne le permet pas. L’affirmation de l’efficacité de la reperfusion et de sa constance, par une mesure aussi simple que la lactatémie capillaire compartimentale représente une avancée majeure en comparaison avec les autres méthodes existantes. La mesure capillaire du taux de lactate systémique dans une situation d’hypoperfusion par choc hémorragique n’est pas associée à augmentation du taux de lactate intra-musculaire. / Our objectives for this experimental work were: 1. Assessment of capillary lactate for tissue ischemia and reperfusion monitoring. 2. Compare the local and systemic capillary lactate time course during compartmental ischemia insults like limb ischemia, intestinal ischemia or during hemorrhagic shock. The capillary measurement of the lactate in IR could be interesting for: 1. Assessing a limb or intestinal tissue ischemia. On the opposite, the systemic measurement could not assess this diagnosis. 2. Assessing the efficiency of a limb reperfusion. On the opposite, the systemic measurement could not assess this diagnosis. The systemic capillary lactate measurement during haemorrhagic shock related hypo perfusion could not be associated with an increase in intra muscular lactate. Ischémie-Reperfusion Lactate Ischemia-Reperfusion Lactate 571.5 616.13

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