Merethe Hansen1, Marie K Palsøe2, Jørn W Helge2, Flemming Dela2. 1. Xlab, Center for Healthy Aging, Department of Biomedical Sciences, University of Copenhagen, Copenhagen, Denmark hansen.merethe@gmail.com. 2. Xlab, Center for Healthy Aging, Department of Biomedical Sciences, University of Copenhagen, Copenhagen, Denmark.
Abstract
OBJECTIVE: We investigated the role of metformin on glucose kinetics during moderate exercise. RESEARCH DESIGN AND METHODS: Before, during, and after a 45-min bout of exercise at 60% VO2max, glucose kinetics were determined by isotope tracer technique in patients with type 2 diabetes mellitus withmetformin treatment (DM2+Met) or without metformin treatment (DM2) and in healthy control subjects (CON) matched for BMI and age. Glucoregulatory hormones and metabolites were measured throughout the study. RESULTS:Plasma glucose concentration was unchanged during exercise in CON but decreased in DM2. No significant change was found in DM2+Met. Hormones and metabolites showed no differences among the groups except for elevated exercise-induced concentrations of lactate in DM2 (area under the curve [AUC] 31 ± 1% vs. CON) and glucagon in DM2 (AUC 5 ± 1% vs. DM2+Met). Free fatty acid levels were lower in DM2+Met than in DM2 (AUC -14 ± 1%). Absolute values of the baseline glucose rate of appearance (Ra) were elevated in DM2 and DM2+Met, but the increase in glucose Ra relative to baseline was blunted in DM2 (19 ± 1%) and DM2+Met (18 ± 4%) compared with CON (46 ± 4%). Glucose rate of disappearance relative to baseline increased more in CON (31 ± 3%) than in DM2 (6 ± 1%) and DM2+Met (21 ± 2%), showing a small increase caused by metformin. Glucose metabolic clearance rate relative to baseline was similar during exercise in DM2 (33 ± 1%) and CON (35 ± 3%) but was improved in DM2+Met (37 ± 3%) compared with DM2. CONCLUSIONS:Metformin has a positive effect on glucose homeostasis during exercise.
RCT Entities:
OBJECTIVE: We investigated the role of metformin on glucose kinetics during moderate exercise. RESEARCH DESIGN AND METHODS: Before, during, and after a 45-min bout of exercise at 60% VO2max, glucose kinetics were determined by isotope tracer technique in patients with type 2 diabetes mellitus with metformin treatment (DM2+Met) or without metformin treatment (DM2) and in healthy control subjects (CON) matched for BMI and age. Glucoregulatory hormones and metabolites were measured throughout the study. RESULTS: Plasma glucose concentration was unchanged during exercise in CON but decreased in DM2. No significant change was found in DM2+Met. Hormones and metabolites showed no differences among the groups except for elevated exercise-induced concentrations of lactate in DM2 (area under the curve [AUC] 31 ± 1% vs. CON) and glucagon in DM2 (AUC 5 ± 1% vs. DM2+Met). Free fatty acid levels were lower in DM2+Met than in DM2 (AUC -14 ± 1%). Absolute values of the baseline glucose rate of appearance (Ra) were elevated in DM2 and DM2+Met, but the increase in glucose Ra relative to baseline was blunted in DM2 (19 ± 1%) and DM2+Met (18 ± 4%) compared with CON (46 ± 4%). Glucose rate of disappearance relative to baseline increased more in CON (31 ± 3%) than in DM2 (6 ± 1%) and DM2+Met (21 ± 2%), showing a small increase caused by metformin. Glucose metabolic clearance rate relative to baseline was similar during exercise in DM2 (33 ± 1%) and CON (35 ± 3%) but was improved in DM2+Met (37 ± 3%) compared with DM2. CONCLUSIONS:Metformin has a positive effect on glucose homeostasis during exercise.
Authors: Brian J Martin; Chris McGlory; Martin J MacInnis; Mary K Allison; Stuart M Phillips; Martin J Gibala Journal: J Appl Physiol (1985) Date: 2016-10-07
Authors: V Soldat-Stanković; S Popović-Pejičić; S Stanković; A Prtina; G Malešević; J Bjekić-Macut; S Livadas; S Ognjanović; G Mastorakos; D Micić; D Macut Journal: J Endocrinol Invest Date: 2021-10-19 Impact factor: 4.256
Authors: Eva Krauzová; Petr Tůma; Isabelle de Glisezinski; Vladimír Štich; Michaela Šiklová Journal: Front Physiol Date: 2018-05-23 Impact factor: 4.566