Clinical Trials Logo

Clinical Trial Summary

This prospective, multicenter, cross-sectional, repeated-measures comparative study compared functional and biochemical response profiles to exercise between 2 groups of chronically ill patients (chronic renal failure dialysis patients and patients with metabolic syndrome) and a group of healthy subjects. The hypothesis is that the addition of plasma metabolic intermediates associated with energy disorders linked to insulin resistance, will improve the sensitivity of the assessment of muscle oxidative metabolism abnormalities, as reported in exercise intolerant subjects. In this way, the metabolomics approach during exercise would provide a biological and functional "signature" of insulin resistance of muscular origin, discriminating between insulin-resistant patients, healthy control subjects and dialysis patients, with an exercise metabolic profile approaching that observed in insulin-resistant patients. A better understanding of metabolic abnormalities could guide muscle rehabilitation. Participants will be asked to perform an exercise test, with several blood samples taken at different exercise intensities. Researchers will compare the metabolic profile of three groups: patients with chronic kidney disease, patients with metabolic syndrome and healthy subjects: - V'O2-adjusted lactate at rest and during exercise - The combination of exercise energy metabolism intermediates reflecting insulin resistance among Krebs cycle cofactors/substrates, ß-oxidation cofactors/substrates, amino acids


Clinical Trial Description

Chronic renal failure (or CKD) is a chronic disease requiring end-stage replacement of renal function by extra-renal purification via hemodialysis (HD). CKD patients on dialysis suffer from numerous severe co-morbidities, limiting the possibility of renal transplantation. Metabolic impairments are numerous and complex: dyslipidemia, phospho-calcium disorders, hormonal and nutritional disturbances. In these patients, the onset of insulin resistance is virtually systematic, but its assessment remains a challenge. In fact, the classic screening method known as HOMA-IR, using simultaneous measurement of insulin and plasma glucose levels, is greatly affected by dialysis and the timing of its implementation. The reference method known as the hyperinsulinemic-euglycemic clamp is difficult to perform in HD patients. While insulin resistance is a condition that can be reversed by physical activity in chronic pathologies, the absence of a validated assessment method for CKD in HD represents a missed opportunity for prevention in CKD, at a time when muscle rehabilitation programs are developing in CKD. Moreover, insulin resistance is associated with skeletal striated muscle dysfunction in CKD patients, and constitutes another major comorbidity in these patients, as skeletal striated muscle is the main tissue utilizing glucose in response to insulin. The research team has shown that muscular dysfunctions associating reduced muscle strength and/or muscular atrophy are a morbi-mortality factor in dialysis patients. Finally, molecular abnormalities associate a switch of muscle fibers towards glycolytic fibers and mitochondrial abnormalities strongly suggesting an energy dysfunction. In a preliminary study, the research team were able to demonstrate in dialysis patients an alteration in energy metabolism, comparable to a loss of "metabolic flexibility", mimicking that observed in insulin-resistant patients without renal dysfunction. A better understanding of the components of energy anomalies and insulin resistance could guide muscle rehabilitation protocols and prevent complications associated with insulin resistance. Currently, the only valid, non-invasive method used in clinical practice to demonstrate impairment of muscular oxidative metabolism is the measurement of carbohydrate/lipid utilization rate during an exercise test. This "metabolic stress test" makes it possible to determine the point of maximum lipid utilization (LIPOXMAX), the current reference marker of muscle metabolism during exercise. Nevertheless, LIPOXMAX alone cannot provide an understanding of underlying metabolic abnormalities in energy pathways, and the assay of different muscle metabolites released into plasma during exercise (and their combination) has recently emerged as a specific and early assessment of insulin resistance. In particular, parameters such as lactate or pyruvate measured in plasma at rest have been positively correlated with the HOMA-IR index and associated with an increased risk of developing type 2 diabetes. During exercise (metabolic stress test), lactate levels in insulin-resistant patients differ from those in healthy controls. In view of the abnormalities of oxidative muscle metabolism in CKD and insulin-resistant patients, the measurement of lactate at rest and during exercise, adjusted for V'O2, could reveal a profile enabling discrimination of CKD and insulin-resistant patients from healthy control subjects. With the addition of plasma metabolic intermediates associated with energy disorders linked to insulin resistance, The investigators hypothesize that their measurement during exercise will improve the sensitivity of the assessment of muscle oxidative metabolism abnormalities, as reported in exercise-intolerant subjects. The metabolomics approach during exercise would provide a biological and functional "signature" of muscle-induced insulin resistance in haemodialysis patients. A better understanding of metabolic abnormalities could guide muscle rehabilitation. This prospective, cross-sectional, repeated-measures comparative study comparing functional and biochemical response profiles to exercise between 2 groups of chronically ill patients and a group of healthy subjects. This comparison of the metabolisms of the 3 groups is analyzed using repeated plasma sampling at different effort intensities. - Plasma lactate adjusted to V'O2 (ratio) at rest and during exercise. - V'O2-adjusted metabolic profile at rest and during exercise through a combination of exercise energy metabolism intermediates based on candidate metabolites with a significant correlation coefficient >0.7 compared to LIPOXmax and/or HOMA-IR, among the following: - Krebs cycle cofactors/substrates (lactate, pyruvate, malate, citrate, succinate, fumarate and alpha-cetoglutarate) - ß-oxidation cofactors/substrates (free fatty acids, acyl-carnitine profile, beta-hydroxybutyrate, acetoacetate) - Amino acid profile - Acyl carnitine profile ;


Study Design


Related Conditions & MeSH terms


NCT number NCT06360302
Study type Interventional
Source University Hospital, Montpellier
Contact GRILLET Pierre-Edouard, Pharma D. PhD
Phone 04 67 33 63 81
Email pe-grillet@chu-montpellier.fr
Status Not yet recruiting
Phase N/A
Start date May 1, 2024
Completion date May 1, 2026

See also
  Status Clinical Trial Phase
Recruiting NCT04635202 - Effect of Elliptical Training on Metabolic Homeostasis in Metabolic Syndrome N/A
Completed NCT04053686 - An Intervention to Reduce Prolonged Sitting in Police Staff N/A
Completed NCT05343858 - Pilot Study to Evaluate the Effect of Two Microalgae Consumption on Metabolic Syndrome N/A
Active, not recruiting NCT05891834 - Study of INV-202 in Patients With Obesity and Metabolic Syndrome Phase 2
Recruiting NCT05040958 - Carotid Atherosclerotic Plaque Load and Neck Circumference
Completed NCT03644524 - Heat Therapy and Cardiometabolic Health in Obese Women N/A
Active, not recruiting NCT02500147 - Metformin for Ectopic Fat Deposition and Metabolic Markers in Polycystic Ovary Syndrome (PCOS) Phase 4
Recruiting NCT03227575 - Effects of Brisk Walking and Regular Intensity Exercise Interventions on Glycemic Control N/A
Recruiting NCT05972564 - The Effect of SGLT2 Inhibition on Adipose Inflammation and Endothelial Function Phase 1/Phase 2
Completed NCT03289897 - Non-invasive Rapid Assessment of NAFLD Using Magnetic Resonance Imaging With LiverMultiScan N/A
Recruiting NCT05956886 - Sleep Chatbot Intervention for Emerging Black/African American Adults N/A
Completed NCT06057896 - Effects of Combined Natural Molecules on Metabolic Syndrome in Menopausal Women
Active, not recruiting NCT03613740 - Effect of Fucoxanthin on the Metabolic Syndrome, Insulin Sensitivity and Insulin Secretion Phase 2
Completed NCT04498455 - Study of a Prebiotic Supplement to Mitigate Excessive Weight Gain Among Physicians in Residency Phase 4
Completed NCT05688917 - Green Coffee Effect on Metabolic Syndrome N/A
Completed NCT04117802 - Effects of Maple Syrup on Gut Microbiota Diversity and Metabolic Syndrome N/A
Completed NCT03697382 - Effect of Daily Steps on Fat Metabolism N/A
Completed NCT03241121 - Study of Eating Patterns With a Smartphone App and the Effects of Time Restricted Feeding in the Metabolic Syndrome N/A
Completed NCT04509206 - Virtual Teaching Kitchen N/A
Completed NCT05124847 - TREating Pediatric Obesity N/A