Jean-Louis Edmé scite author profile

O besity and type 2 diabetes mellitus (DM) have reached epidemic levels worldwide. These 2 metabolic disorders are independent risk factors for the development of heart failure. [1][2][3] Epidemiological and clinical studies strongly support the existence of obesity and diabetic cardiomyopathies unrelated to coronary artery disease, hypertension, and other comorbidities. 4,5 Clinical Perspective on p 564Studies in rodent models of obesity and DM have identified intrinsic cardiomyocyte dysfunctions secondary to alterations in energy substrate utilization, mitochondrial dysfunction, increased oxidative stress, and intracellular accumulation of lipotoxic byproducts. Similarly, human studies have shown that dysregulation of the energy conversion process is one of the major characteristics of the failing heart of subjects with cardiomyopathy related to DM or obesity. 6,7Background-Obesity and diabetes mellitus are independently associated with the development of heart failure. In this study, we determined the respective effects of obesity, insulin resistance, and diabetes mellitus on the intrinsic contraction and mitochondrial function of the human myocardium before the onset of cardiomyopathy. Methods and Results-Right atrial myocardium was obtained from 141 consecutive patients presenting no sign of cardiomyopathy. We investigated ex vivo isometric contraction, mitochondrial respiration and calcium retention capacity, and respiratory chain complex activities and oxidative stress status. Diabetes mellitus was associated with a pronounced impairment of intrinsic contraction, mitochondrial dysfunction, and increased myocardial oxidative stress, regardless of weight status. In contrast, obesity was associated with less pronounced contractile dysfunction without any significant perturbation of mitochondrial function or oxidative stress status. Tested as continuous variables, glycated hemoglobin A 1C , but neither body mass index nor the insulin resistance index (homeostasis model assessment-insulin resistance), was independently associated with cardiac mitochondrial function. Furthermore, diabetes mellitus was associated with cardiac mitochondrial network fragmentation and significantly decreased expression of the mitochondrial fusion related protein MFN1. Myocardial MFN1 content was inversely proportional to hemoglobin A 1C . Conclusion-Worsening

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Circadian variation of diet-induced thermogenesis

Romon¹,

Edmé²,

Boulenguez³

et al. 1993

The American Journal of Clinical Nutrition

171

122

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The objective of this study was to assess a circadian variation of diet-induced thermogenesis (DIT) that could favor weight gain among night workers used to eating a night time snack. Nine young men were given the same mean at 0900, 1700, or 0100. Energy expenditure was measured by indirect calorimetry 1 h before and during the 6 h after the snack. DIT was calculated as the 3 h of energy expenditure above basal metabolic rate. Morning DIT was significantly higher than afternoon DIT (P = 0.04) and night DIT (P = 0.002). Afternoon DIT was higher than night DIT (P = 0.06). We conclude that the time when a meal is consumed affects the thermogenic response and must be considered in the energy balance.

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Jean-Louis Edmé

Daytime variation of perioperative myocardial injury in cardiac surgery and its prevention by Rev-Erbα antagonism: a single-centre propensity-matched cohort study and a randomised study

Myocardial Contractile Dysfunction Is Associated With Impaired Mitochondrial Function and Dynamics in Type 2 Diabetic but Not in Obese Patients

Circadian variation of diet-induced thermogenesis

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