Дисертації з теми "Diabètes – Chirurgie"
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Rouyer, Olivier. "Dysfonctions endothéliales après transplantation et diabète : Approches expérimentales et cliniques." Strasbourg 1, 2008. http://www.theses.fr/2008STR13075.
Among its many functions, vascular endothelium modulates vascular tone by secreting vasodilators and vasoconstrictors factors. Some diseases alter this balance, causing endothelial dysfunction which reduces organ perfusion and may jeopardizing the life. The work presented shows the interest of exploring endothelial dysfunction through endothelium-dependent relaxation studies, both in vitro through the analysis of aortic vascular ring reactivity in chamber organ and in vivo through flow-dependent dilatation of the humeral artery measurement, in response to a post-ischemic hyperaemia. In a model of aged rats with type 1 diabetes induced by streptozotocin, the late introduction of an IEC is deleterious on the exercise capacity. The normalization of blood pressure induced by the IEC could affect muscle perfusion. Endothelial function was not impaired and was not affected when the term of diabetes was lower. In a genetic model of Goto-Kakizaki rat type 2 diabetes, there was endothelial dysfunction related to the production of vasoconstrictors prostanoids. It was not improved by training even if training improved glycemic profile. In stable heart transplant patients with “normal” cardiac function, the persistent rise of plasma BNP values appeared to be related to endothelial dysfunction. While among hepatic transplant patients, normality of the endothelial function could be linked to the low prevalence of cardiovascular risk factors and a possible direct protective effect of Tacrolimus
Maanaoui, Mehdi. "La greffe d'îlots pancréatiques chez le patient diabétique transplanté rénal." Electronic Thesis or Diss., Université de Lille (2022-....), 2023. https://pepite-depot.univ-lille.fr/ToutIDP/EDBSL/2023/2023ULILS071.pdf.
Pancreatic islet transplantation is an innovative cellular therapy for the management of diabetes in patients with type 1 diabetes. Currently, there are few studies that address the prognostic impact of islet transplantation in patients with type 1 diabetes who have received a kidney transplant or the determinants of transplantation success in this population. Furthermore, the definition of diabetes is evolving, with the dichotomy between type 1 and type 2 diabetes fading in favor of diabetes classifications based on the patient's clinical and biological phenotype. Pancreatic islet transplantation could potentially be expanded to other profiles of patients with diabetes and a kidney transplant, especially if there's evidence of insulin secretion deficiency. Thus, the objective of this thesis is to determine the role of pancreatic islet transplantation in patients with diabetes and a kidney transplant.In the first section, we present the results of a nationwide cohort study assessing the effect of pancreatic islet transplantation following kidney transplantation compared to insulin alone in patients with type 1 diabetes. Islet-after-kidney recipients were matched to control patients using a time-dependent propensity score. After matching, pancreatic islet transplantation is associated with a reduction in the combined risk of death and return to dialysis, as well as the isolated risk of death. This study emphasizes the importance of considering islet transplantation as a full-fledged therapeutic alternative, especially in regions where it is not reimbursed or available.The second section explores the determinants of islet loss of functionality, in particular the repercussions of alloimmunity. The results of a single-center study suggest that preformed DSA and early de novo DSA have little impact on islet transplantation outcomes, but late de novo DSA is temporally associated with impaired metabolic results. No cases of cross-sensitization between pancreatic islets and the underlying kidney in recipients were described, neither in the study nor in the literature.The last section focuses on evaluating the insulin profile in patients with type 2 diabetes and a kidney transplant, through the calculation of HOMA-2 scores, to extract the impact of insulin secretion. Analysis of a single-center retrospective cohort shows an association between insulin resistance evaluated by HOMA-2 and the risk of allograft loss, while insulin secretion was only associated with metabolic balance. However, given the relationship between metabolic balance and the likelihood of death and graft loss in kidney transplant patients with diabetes, pancreatic islet transplantation could be part of the therapeutic arsenal in a personalized medicine approach for these patients.In conclusion, this thesis advocates for personalized diabetes medicine in kidney transplant patients, promoting the integration of pancreatic islet transplantation as a key component in the therapeutic strategy for these individuals
Plourde, Charles-Étienne. "Les mécanismes de résolutions du diabète de type 2 induits par la chirurgie bariatrique." Mémoire, Université de Sherbrooke, 2015. http://hdl.handle.net/11143/6038.
Caiazzo, Robert. "Thérapie cellulaire du diabète : facteurs influençant la fonction primaire du greffon." Lille 2, 2009. http://www.theses.fr/2009LIL2S047.
Chopard-Lallier, Sophie. "Suivi fonctionnel de la greffe d'îlots de Langerhans : interêt de l'imagerie IRM et de l'immuno-monitoring cellulaire." Thesis, Besançon, 2013. http://www.theses.fr/2013BESA3001.
Langerhans islet transplantation allows curingtype 1 diabetes by restoring an endogenous insulin secretion. Halfof patients will resume insulin withinyears. This loss of function may be explained by the lack of monitoring tools able to diagnose an ongoing graft failure. The aims of our work were toevaluate the efficiency of MRI to diagnose islet graft rejection, and to assess the feasibility of immune cellular monitoring in transplanted patients.MRI in the rat mortelMethods: Syngeneic, allogeneic and xenogeneic islets were transplanted intra-portally to diabetic rats after labeling with superparamagnetic ironoxide nanoparticles (ferucarbotran). Images were acquired on a clinical 3T MRI scanner.Results: The signal decreasing was different between the 3 types of transplantations. At day 4, the MRI signal in allogeneic group was significantlylower while glycaemia remained normal. With a cut-off value of 84% at day 4, sensitivity of 91% and specificity of 70% were obtained.Cellular immune monitoringMethods: Mixed lymphocyte cultures were performed with peripheral blood mononuclear cells from recipients and splenocytes from donors. Immunereactivity was assessed by the release of IFNy (ELISpot), cell prolifération (flow cytometry of Ki67), and cytokine quantification (Bioplex). Theresults were correlated to the islet graft function assessed by (5-score.Results: Patients with low islet function showed higher cellular reactivity against donor cells assessed by ELISpot IFNy ((p=0,007, r=-0,50) andproliferation index (p=0,006, r=-0,51). Patients with low graft function had higher levels of IFNy, IL-5 and 1L-17
Arapis, Konstantinos. "Mise au point de modèles précliniques de chirurgie bariatrique chez le rat rendu obèse par un régime hyperlipidique." Sorbonne Paris Cité, 2015. http://www.theses.fr/2015USPCC086.
Favennec, Marie. "Etude de la voie des kynurénines dans l'obésité humaine." Thesis, Lille 2, 2015. http://www.theses.fr/2015LIL2S037/document.
Tryptophan, an essential amino acid, is either used in protein synthesis or metabolized via the serotonin or the kynurenine pathway. The kynurenine pathway is the main route of tryptophan degradation and generates several metabolites collectively called “kynurenines”. The expression of kynurenine pathway enzymes is induced by inflammatory mediators. Consequently kynurenine synthesis could be induced in individuals with obesity. In fact, obesity is characterized by a chronic low grade inflammation of the adipose tissue reflected by increased serum levels of inflammatory factors which are known to contribute to the development of obesity-induced insulino-resistance. Some metabolites of the kynurenine pathway have been proposed to be risk factors for the development of insulin resistance. Bariatric surgery is currently the most effective treatment for severe obesity and results in a significant weight loss, a decreased level of inflammatory factors and an amelioration of glucose homeostasis. The first enzyme of the kynurenine pathway, IDO1, is known to be more expressed in the adipose tissue of individuals with obesity compared to lean individuals. The kynurenine over tryptophan ratio reflects the activity of IDO1 and is also increased in individuals with obesity.Our objective was to characterize the expression of the kynurenine pathway enzymes in the adipose tissue of women with severe obesity and to evaluate serum levels of the kynurenine pathway metabolites to determine whether these factors could be associated with the appearance of diabetes. This study was performed in women with severe obesity with or without type 2 diabetes. Then we investigated the consequences of weight loss induced by bariatric surgery on levels of circulating kynurenines in order to evaluate whether these variations could explain the improvement in glucose control and type 2 diabetes remission after one year follow-up.In this study, we have shown that several kynurenine pathway enzymes were more expressed in the adipose tissue of women with obesity compared to lean controls. This increase is due to the presence of pro-inflammatory macrophages in the adipose tissue and also comes from the adipocyte response to inflammatory stimuli. In addition, we observed that the serum level of kynurenine and kynurenine over tryptophan ratio are higher in women with higher BMI and they both decrease one year after bariatric surgery. In addition, we observed that the serum level of kynurenine and kynurenine over tryptophan ratio are higher in women with higher BMI and they both decrease one year after bariatric surgery. As expected, bariatric surgery is associated with the improvement and even the remission of type 2 diabetes. We have shown that higher levels of kynurenic acid and quinolinic acid one year after the surgery are associated respectively with type 2 diabetes remission and better glucose homeostasis and that lower levels of xanthurenic acid are associated with better glucose homeostasis
Goncalves, Daisy. "Biodisponibilité de la bile et effets bénéfiques des chirurgies bariatriques de type by-pass." Thesis, Lyon 1, 2014. http://www.theses.fr/2014LYO10171/document.
Gastric bypass procedures have emerged as an effective treatment for morbid obese diabetic patientssince they provoke a rapid remission of diabetes before any weight loss has occurred. Patients also report adisinterest in high calorie food. A suggested mechanism associated a decrease in hepatic glucose production toan enhanced intestinal gluconeogenesis. Bile acids, described as inhibitors of gluconeogenesis, see theirbioavailability changed after these procedures. Indeed, they are absent in the alimentary limb while theirplasmatic concentration is increased. We therefore tested the hypothesis that plasma bile acids may inhibithepatic glucose production while their absence in the gut could induce intestinal gluconeogenesis.For this, we performed bile diversions matching the modified biliary flow occurring after gastric bypassprocedures. We showed that bile diversions lead to an increase in plasma bile acids. Bile diversions promote ablunting in hepatic glucose production whereas intestinal gluconeogenesis is increased in gut segments devoidof bile. Moreover, the modification of bile routing per se improves glucose control and dramatically decreasefood intake due to an acquired disinterest in fatty food. This data shows that bile routing modification is a keymechanistic feature in the beneficial outcomes of gastric bypass procedures
Amouyal, Chloé. "Restaurer la fonction bêta pancréatique de la souris leptine déficiente par la chirurgie bariatrique." Thesis, Sorbonne université, 2019. http://www.theses.fr/2019SORUS010.
EGA (entero-gastro-anastomosis) is a gastric bypass procedure adapted to rodent. EGA in leptin deficient ob/ob mice improves glucose tolerance by increasing pancreatic insulin content and glucose stimulated insulin secretion in vivo without persistent body weight loss dietary restriction, modification of body composition / energy expenditure. We do not observe differences in islets ‘number or size after EGA. Insulin gene expression, beta-cell proliferation (Ki67 index) and insular immune infiltration are also unchanged. Transcriptomic analysis of pancreatic islets showed that bariatric surgery differentially regulated 193 genes and 27 miRs. Interestingly, the surgery normalized molecular defects (down regulation of TRPM5, GLUT2, GCK, connexin 36) and functional alteration (high sensitivity of islets to low glucose levels) observed in diabetic ob pancreatic islets. In addition, the surgery promoted the enrichment of 227 biological process, composed of genes with known or undetermined beta cell function, especially 21 genes are involved in the hormone transport and 20 genes in the hormone secretion biological process. Computational analysis predicted that 7 of 27 miRs (324-3p, 380-3p, 671-5p, 1927, 6904-5p, 6918-5p and 7682-3p) are hubs in the miRs-gene interaction network. Altogether, our data highlighted novel molecular mechanisms in the resolution of diabetes after bariatric surgery. Overall, diabetes resolution in our model appears to be totally independent of body weight
Chavez, Talavera Oscar Manuel. "Rôle des acides biliaires dans la physiopathologie de l'obésité, la résistance à l'insuline, le diabète de type 2, la stéatose hépatique non alcoolique et dans le contexte de la chirurgie bariatrique Bile Acid Control of Metabolism and Inflammation in Obesity, Type 2 Diabetes, Dyslipidemia, and Nonalcoholic Fatty Liver Disease Bile Acid Alterations in Nonalcoholic Fatty Liver Disease, Obesity, Insulin Resistance and Type 2 Diabetes: What Do the Human Studies Tell?” Bile acids associate with glucose metabolism, but do not predict conversion to diabetes Bile acid alterations are associated with insulin resistance, but not with NASH in obese subjects Roux-en-Y gastric bypass increases systemic but not portal bile acid concentrations by decreasing hepatic bile acid uptake in minipigs The functional relevance of bile acids in the improvement of HDL-mediated endothelial protection after bariatric surgery Metabolic effects of bile acid sequestration: impact on cardiovascular risk factors." Thesis, Lille, 2019. http://www.theses.fr/2019LILUS057.
In addition to their role in the solubilization of dietary lipids, bile acids are signaling molecules regulating their own metabolism, glucose and lipid homeostasis, energy expenditure, cardiovascular function and inflammation via the activation of the Farnesoid X Receptor (FXR) and the Takeda G protein coupled Receptor 5 (TGR5). Indeed, changes in bile acid concentrations are associated with metabolic diseases and therefore they are candidates to participate in the pathophysiology of these diseases or predict their progression.In the first part of this thesis, we studied bile acid changes in the context of obesity, insulin resistance, type 2 diabetes and non-alcoholic steatohepatitis. We demonstrated that bile acids are correlated with glucose homeostasis in humans, but that they are not predictors for the progression from prediabetes to type 2 diabetes in a longitudinal cohort study.In the second part of this thesis, we studied the bile acids in the context of bariatric surgery. Our results showed that bariatric surgery reduces the hepatic recapture of certain bile acids, causing them to increase in the systemic circulation. Additionally, we showed that it is not the bile limb but the common limb the one responsible for metabolic changes after bariatric surgery in the minipig. Finally, we showed in humans that bile acids linked to high-density lipoproteins (HDL) increase after bariatric surgery, and that this increase is correlated with the restoration of their vasoprotective functions
Spinelli, Valeria. "Les acides biliaires et la régulation de l’homéostasie métabolique : rôle du récepteur Farnesoid X Receptor (FXR) dans la cellule bêta-pancréatique : variation du pool des acides biliaires et chirurgie bariatrique Roux-en-Y Gastric Bypass." Thesis, Lille 2, 2015. http://www.theses.fr/2015LIL2S054.
Bile acids (BAs) are molecules produced in the liver, stored in the gallbladder, secreted into the intestine and returning to the liver via the enterohepatic circulation. A fraction of BAs escapes the reuptake by the liver and enters the systemic circulation, by which they reach the peripheral organs including the pancreas. Besides their function in facilitating the intestinal absorption of lipids, BAs are signaling molecules that act through receptors for BAs, which are expressed in the key tissues for metabolic regulation, and whose modulation by BAs contribute to regulate energy homeostasis. Thus, variations in the composition of the BAs pool determine the modulation of metabolism via their receptors. The BA-receptor Farnesoid-X receptor (FXR) is involved in the regulation of glucose, lipid and BA metabolism by its action in the liver, intestine, adipose tissue and pancreas. Whole body FXR deficient mice are glucose intolerant and insulin resistant in liver and peripheral tissues, whereas in a context of obesity, FXR deficiency rather improves these parameters. Furthermore, FXR is expressed in the pancreatic beta cell (bcell), where it regulates the synthesis and the secretion of insulin, but the molecular mechanisms have not been fully elucidated yet. To understand 1) the contribution of FXR bcell in the metabolic phenotype of the total FXRKO-mouse, and 2) the molecular mechanisms of the regulation of insulin production by FXR in the bcell, I developed a mouse model invalidated for FXR specifically in the bcell by the Cre-loxP strategy. The development of the model showed nonspecific recombination phenomena, and I developed a genotyping strategy to overcome this problem. To highlight the phenotype of the FXRKObcell mouse I tested various metabolic contexts (standard and high fat diet, fasting and refeeding conditions, circadian variations). Compared to control, FXRKO-bcell mice developed glucose intolerance and has lower insulinémia, defects increased by a high fat diet. The global transcriptomic analysis in the islets identified a set of microRNA strongly deregulated by invalidating FXR in the bcell, which could explain the dysfunctions in insulin secretion. Besides the modulation of the activity of the receptors, metabolic effects can be obtained by varying the composition of the pool of their ligands BAs. Thus, metabolic perturbations (such as insulin resistance and type 2 diabetes, obesity) are associated with qualitative and/or quantitative variations in the BA pool. In addition, variations of the BAs pool are associated to the metabolic improvement that precedes the weight loss after the surgical practice of Roux-en-Y Gastric Bypass (RYGB), which suggests that the BAs can be among the actors of the ‘weight loss-indipendent’ beneficial metabolic effects of RYGB. To investigate this hypothesis, some preclinical models of RYGB have been developed. During my thesis I compared the pool of BAs pre and post RYGB among three species (rat, pig and human; Coll. Prof. F. Pattou and Dr. E.Osto) with the aim of assessing which preclinical model is most suitable for these studies in terms of characteristics of the BAs pool. In a second study, I focused on the causes and mechanisms underlying the increased concentrations of circulating BAs induced by RYGB. In the model of minipig (coll. Pr. F. Pattou), the analysis of the plasma BA pool composition and the hepatic gene expression before and after RYGB, allowed to show that changes in the hepatic function are - at least in part - responsible for the increase of the BA pool following RYGB
Sterkers, Adrien. "Evaluation pré-clinique et clinique de l'autogreffe intramusculaire d'îlots de Langerhans." Phd thesis, Université du Droit et de la Santé - Lille II, 2013. http://tel.archives-ouvertes.fr/tel-00951952.
Baud, Grégory. "Modulation de l’absorption intestinale postprandiale du glucose apès Roux-en-Y Gastric Bypass chez le miniporc." Thesis, Lille 2, 2016. http://www.theses.fr/2016LIL2S042/document.
Type 2 diabetes (T2D) is characterized primarily as a combined defect of insulin secretion and insulin action. For nearly a decade, the somewhat mysterious but spectacular benefit of metabolic surgery, and more specifically of Roux-en-Y gastric bypass (RYGB), on glucose control has been caused a questioning the current paradigm of T2D management. Gastro-intestinal exclusion by RYGB improves glucose metabolism, independent of weight loss. Although changes in intestinal bile trafficking have been shown to play a role, the underlying mechanisms are unclear. We performed RYGB in minipigs and showed that the intestinal uptake of ingested glucose is blunted in the bile deprived alimentary limb (AL). Glucose uptake in the AL was restored by the addition of bile, and this effect was abolished when active glucose intestinal transport was blocked with phlorizin. Sodium-glucose cotransporter 1 remained expressed in the AL, while intraluminal sodium content was markedly decreased. Adding sodium to the AL had the same effect as bile on glucose uptake. It also increased postprandial blood glucose response in conscious minipigs following RYGB. The decrease in intestinal uptake of glucose after RYGB was confirmed in humans. Our results demonstrate that bile diversion affects postprandial glucose metabolism by modulating sodium-glucose intestinal cotransport
Barataud, Aude. "Rôle de la néoglucogenèse intestinale et des récepteurs mu-opioïdes dans les effets bénéfiques du by-pass gastrique chez la souris." Thesis, Lyon 1, 2014. http://www.theses.fr/2014LYO10276/document.
Roux-en-Y gastric bypass procedure (GBP) is an obesity surgery that induces dramatic glucose homeostasis improvements independently of weight loss. A proposed mechanism to explain these glucose homeostasis improvements is an increase in intestinal glucose production (IGP) that induces beneficial effects on metabolism (satiety, improved liver insulin sensitivity). This increase in IGP is found in mice that have undergone a simplified GBP and is also responsible for the beneficial effects of protein-enriched diets through the inhibition of mu-opioid receptors (MOR) by alimentary peptides. We therefore hypothesized that the beneficial effects of GBP could depend on MOR inhibition by dietary proteins and we also tested the causal role of IGP in these metabolic improvements. For this purpose, we performed a duodenal-jejunal bypass surgery (DJB), ie GBP without gastric restriction, in wild-type mice (WT), in mice lacking MOR gene (MOR-/-) and in mice lacking IGP (IG6pc-/-). In obese mice, DJB induced a rapid and substantial weight loss (-30%), partly explained by fat malabsorption, and weight loss-dependent improvements of glucose homeostasis. In contrast, in the non-obese mice, DJB did not induce weight loss nor malabsorption but improved glucose tolerance. Effects were similar in WT, MOR-/- and I-G6pc-/- mice showing that mu-opioid receptors and IGP did not appear to have a causal role in glucose and energy metabolism improvements after DJB
Payen, Cyrielle. "Implication des troubles métaboliques maternels sur la programmation fœtale des fonctions métabolique hépatique et vasculaire de la descendance." Thesis, Angers, 2019. http://www.theses.fr/2019ANGE0047.
In utero exposure to maternal metabolic pathologies leads to fetal programming, which increases the occurrence of metabolic, vascular and hepatic diseases in offspring. In this thesis, we focused on fetal programming induced by two types of maternal metabolic dysfunctions : obesity and diabetes. We highlighted that maternal obesity induced direct fetal programming of the vascular function in offspring regardless of metabolic disorders. In addition, we showed that disruption of perinatal nutrition leads to the early occurrence of metabolic disorders in offspring of obese mothers, without modifying the fetal programming of vascular function. Bariatric surgery doesn’t seem tobe able to reverse fetal programming of metabolic and vascular functions as described in obese mothers offspring. We also showed that fetal programming of vascular dysfunction of diabetic mother’s offspring can be transmitted from the F1 to the F2 generation. Finally, we highlighted the importance of sexual dimorphism in the fetal programming of vascular function. These results demonstrate that vascular (arterial hypertension) and metabolic (obesity, diabetes) diseases are not exclusively behavioral diseases but can also have a fetal life origin. They can be transmitted over several generations, thus contributing to explain the worldwide spread of obesity and associated metabolic disorders
Abdesselam, Inès. "Dépôts de graisse ectopique : étude de leur développement et de leur modulation." Thesis, Aix-Marseille, 2016. http://www.theses.fr/2016AIXM5005.
The project of this thesis mainly focuses on ectopic lipid deposition development and their flexibility following therapeutic intervention. In our first study, we set out chronological order of ectopic fat onset and cardiac abnormalities in a high fat high sucrose mice model. Short duration exendin-4 treatment reverses every altered parameter. In the second study, we assessed treatment of obesity effect on cardiac ectopic fat deposition (EAT and steatosis), as well as hepatic and pancreatic fat at two different time points (6 months and 32 months) after bariatric surgery. We show significant reduction of every ectopic fat deposition, however in different kinetic. Finally, in a third study, we investigate birth weight effect on epicardial adipose tissue development. This study demonstrate important EAT accumulation in adulthood when birth weight is increased. Furthermore, birth weight and catch up growth in childhood between 2 and 12 years parameters impact significantly the development of epicardial fat.In summary, these results provide better understanding of ectopic fat deposition development and modulation
Cavin, Jean-Baptiste. "Gastrointestinal plasticity in health and diseases : what we have learned from bariatric surgeries." Thesis, Sorbonne Paris Cité, 2016. http://www.theses.fr/2016USPCC143/document.
In today’s global epidemic of obesity, more and more people are undergoing bariatric surgery, which is the best known treatment available to lose weight and treat obesity-associated diseases. Yet, little is known about gastrointestinal (GI) adaptation and its metabolic consequences after surgery. We developed original models of Roux-en-Y gastric bypass (RYGB), mini-bypass (MGB) and vertical sleeve gastrectomy (VSG) in rats, and we characterized the morphological and functional adaptations of the GI epithelium after these surgeries in order to understand the origin of the observed metabolic improvements. We reported profound changes in the remaining gastric mucosa of rats having undergone RYGB and VSG, suggesting an increase in acid production by parietal cells and an impaired production of gastrin and ghrelin. In RYGB rats and patients, the alimentary limb was hyperplasic and intestinal glucose consumption was increased. After VSG, the absorption of glucose during meals appeared diminished. These adaptations could participate in the lowering of blood glucose after surgery. In addition, the increased number of enteroendocrine cells observed in RYGB rats and patients, and their increased density in VSG rats, could contribute to the higher secretion of incretin hormone and improved glycemic control in operated individuals. Finally, we demonstrated in rats that the MGB was more malabsorptive than the RYGB. Indeed, we observed an increased fecal loss of nitrogen and energy despite intestinal overgrowth and higher expression of peptide transporters. This thesis brings new insight to the role of the GI tract in the metabolic outcomes of bariatric surgeries
Taleb, Nadine. "L’efficacité du pancréas artificiel externe durant l’exercice chez les adultes atteints de diabète de type 1." Thèse, 2016. http://hdl.handle.net/1866/18885.
Background: Physical activity is often avoided by patients with Type 1 diabetes (T1D) despite its health benefits due to fear of its elevated hypoglycemic risk. The external artificial pancreas is a new technology that controls glucose via a closed-loop strategy of three components; a continuous glucose monitoring system (CGMS), an algorithm and an insulin pump. Studies of the artificial pancreas included physical activity sessions but were rarely designed to specifically assess its efficacy during exercise. Moreover, the precision of the CGMS can be affected by the rapidly changing blood glucose levels during exercise. Objectives: 1) To test and compare the efficacy of the two versions of the artificial pancreas, single-hormone (insulin only) and dual-hormone (insulin plus glucagon) during two types of exercise, continuous and interval, in patients with T1D. 2) To compare the performance of two CGMS, Dexcom and Enlite, at rest and during exercise. Results: 1) During single-hormone artificial pancreas in comparison to dual-hormone, 31.2% of the participants had at least one hypoglycemic episode necessitating treatment vs. 9% (p=0,02) and 24.4 ± 27.6 % of the time spent in hypoglycemia (plasma glucose < 4 mmol/l) vs. 4.4 ± 14.3% (p=0.0001), respectively. 2) The mean relative absolute differences (MARD) in reference to plasma glucose for Dexcom vs. Enlite were at rest 13.8 vs. 12.4% (p=0.53) and during exercise 22.5% vs. 20.4% (p=0.58). The comparison of mean ARD`s at rest vs. exercise were significant for Dexcom (p=0.005) and Enlite (p=0.007). Conclusions: The dual-hormone artificial pancreas was shown to be better than single-hormone at achieving hypoglycaemia-free control during exercise in adults with T1D. Dexcom and Enlite demonstrated comparable overall performances during rest and physical activity with a lower accuracy for both sensors during exercise.
Leroux-Stewart, Josée. "Effets cardiométaboliques de la restriction calorique seule ou en combinaison avec l’activité physique dans le diabète de type 2." Thèse, 2016. http://hdl.handle.net/1866/18871.
Type 2 diabetes (T2D) is a chronic disease characterized by high blood sugar that can lead to many complications with potential morbid outcomes. Alarmingly, the worldwide prevalence is increasing at a high rate mainly du to aging and harmful lifestyle habits. In fact, inactivity and poor food choices are at the heart of an obesity epidemic that plays a crucial role in the pathogenesis of T2D. Lifestyle modifications thus play an important role in patient care. However, it remains uncertain which therapy between a caloric restriction (CR) alone or a combination of CR plus physical activity (PA) should be encouraged to achieve better reduction in fat mass and in epicardial fat thickness. The latter represents the visceral fat depot of the heart and is emerging as an important marker for predicting and stratifying cardiovascular risk. The objective of this Master’s thesis is to better characterize the independent effects of CR and PA on total fat mass, epicardial fat, and overall cardiometabolic profile of patients with T2D. To achieve this, a randomized controlled 16-week trial was performed, with 73 patients randomized to 1 of 3 groups (Control, CR, or CR+PA), while aiming for a similar caloric deficit in both intervention groups. Results showed that the combination of CR+PA allows a larger reduction of fat mass and epicardial fat thickness. However, these findings did not translate into significant differences in cardiometabolic improvements between groups. These results now need to be validated in larger cohorts with longer follow-ups.
Benjamim, de Oliveira Adriana. "Évolution échocardiographique et prédicteurs de progression de la sténose valvulaire aortique." Thèse, 2014. http://hdl.handle.net/1866/11795.
Manolescu, Daniel-Constantin. "Impacts métaboliques et thérapeutiques de la vitamine A, sous forme d’acide rétinoïque, dans l’obésité, la résistance à l’insuline et le diabète de type 2 chez la souris ob/ob = Metabolic and Therapeutic Impacts of Vitamin A as Retinoic Acid on Obesity, Insulin Resistance, and Type 2 Diabetes in ob/ob Mice." Thèse, 2018. http://hdl.handle.net/1866/21808.