This is a 16 week, phase 4, randomized and placebo controlled trial, investigating the separate and combined effects of Sodium Glucose coTransporter 2 (SGLT2) inhibition with dapagliflozin and Glucagon Like peptide-1 (GLP-1) receptor agonism with exenatide on food intake, body weight and the neural activity in the central satiety and reward circuits in response to food-related stimuli by blood oxygen level-dependent (BOLD) fMRI in obese type 2 diabetes patients. The investigators hypothesize that treatment with SGLT2 inhibitors is associated with alterations in central reward and satiety circuits in response to food related stimuli, leading to increased appetite and food intake. In addition, the investigators hypothesize that adding a GLP-1 receptor agonist to the treatment with an SGLT2 inhibitor may increase weight loss and prevent the increased food intake during treatment with SGLT2 inhibitors due to effects on neuronal activity of central satiety and reward circuits in response to food-related stimuli in obese patients with T2DM.
The aim of this study is to investigate 1) the seperate and 2) combined actions of SGLT2 inhibition and GLP-1 receptor agonism on food intake, body weight and the activity within the central satiety and reward circuits in response to food-related stimuli and 3) wheter the combination with a GLP-1 receptor agonist can prevent the increased intake observed with SGLT2- inhibition treatment. Methods: In four groups of obese patients with T2DM (n=16 per group), food intake and neuronal activity in relevant CNS circuits in response to food-related stimuli (using fMRI) will be investigated during 16 week treatment in a double blind placebo-controlled randomized trial with:1) SGLT2 inhibitor dapagliflozin 10 mg/day in combination with placebo GLP-1 receptor agonist exenatide twice daily, 2) GLP-1 receptor agonist exenatide twice daily in combination with placebo dapagliflozin, 3) combination of dapagliflozin 10 mg/day and exenatide twice daily, or 4) placebo dapagliflozin and placebo exenatide twice daily. To correlate changes in brain activity with subsequent feeding behavior, the investigators will measure food intake, self-reported hunger, satiety and mood, during a choice-buffet after the scanning. Expected results: This project will gain insight into the CNS mechanisms underlying the the effects of seperate and combined treatment with SGLT2 inhibition and GLP-1 receptor agonism. Furthermore, this project will provide insight if combined treatment with a GLP-1 receptor agonist will prevent the increased intake, observed by treatment with an SGLT2 inhibitor, and if so, in the underlying (CNS) mechanisms. These findings may increase the understanding of the development of obesity and weight loss problems in obese and T2DM patients and may support the development of a balanced SGLT2 inhibitor/GLP-1 receptor agonist combination as a treatment strategy for obesity and T2DM.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
DOUBLE
Enrollment
65
Dapagliflozin 10mg oral tablet once daily
Exenatide 5 microgram b.i.d. week 1-4 Exenatide 10 microgram b.i.d. week 5-16
placebo b.i.d. exenatide
placebo tablets dapagliflozin
Amsterdam UMC, location VU Medical Center
Amsterdam, North Holland, Netherlands
Differences in neuronal activity in the central reward and satiety circuits in response to food-related stimuli by BOLD fMRI signal
Differences in neuronal activity in the central reward and satiety circuits in response to food related stimuli by BOLD fMRI signal compared to baseline and 16 weeks of treatment between the exenatide + dapagliflozine, exenatide +placebo, dapagliflozin+placebo and double placebo arms.
Time frame: at baseline, after 10 days and after 16 weeks
Differences in neuronal activity in the central reward and satiety circuits in response to food-related stimuli by BOLD fMRI signal
Differences in neuronal activity in the central reward and satiety circuits in response to food related stimuli by BOLD fMRI signal compared to baseline and 1.5 weeks of treatment and 1.5 and 16 weeks of treatment between the exenatide + dapagliflozine, exenatide +placebo, dapagliflozin+placebo and double placebo arms.
Time frame: at baseline, after 10 days and after 16 weeks
Feeding behaviour; ad libitum lunch buffet
Feeding behaviour, measured as quantitative (kcal) changes in food choice, during an ad libitum lunch buffet will be compared between the groups (at baseline and 1,5 week, baseline and 16 weeks and 1.5 and 16 weeks of treatment)
Time frame: at baseline, after 10 days and after 16 weeks
Feeding behaviour; ad libitum lunch buffet
Feeding behaviour, measured as qualitative (energy density as well as nutrient composition;carbohydrate/fat/protein) changes in food choice, during an ad libitum lunch buffet will be compared between the groups (at baseline and 1,5 week, baseline and 16 weeks and 1.5 and 16 weeks of treatment)
Time frame: at baseline, after 10 days and after 16 weeks
Self-reported hunger
Self-reported hunger, satiety and fullness and prospective food consumption will be rated on 100 mm visual analogue scales before and after the meal
Time frame: at baseline, after 10 days and after 16 weeks
Difference in resting energy expenditure measured by indirect calorimetry measurements
Difference in resting energy expenditure measured by indirect calorimetry measurements between the groups (baseline and 16 weeks, baseline and 1.5 weeks and 1.5 and 16 weeks of treatment)
Time frame: at baseline, after 10 days and after 16 weeks
Change in bodyweight (kg) and body mass index (kg/m2)
Change in bodyweight (kg) and body mass index (kg/m2) between the groups ( at baseline and 1,5 week, baseline and 16 weeks, 1.5 week and 16 weeks)
Time frame: at baseline, after 10 days and after 16 weeks
Difference in bodycomposition measured by bio electrical impedance analysis and waist and hip circumference measurements (cm)
Difference in bodycomposition measured by bio electrical impedance analysis and waist and hip circumference measurements (cm) between the groups (0-1.5, 0-16, 1.5-16)
Time frame: at baseline, after 10 days and after 16 weeks
Difference in resting brain activity by fMRI resting state measurements
Difference in resting brain activity by fMRI resting state measurements between groups (0-1.5, 0-16, 1.5-16)
Time frame: at baseline, after 10 days and after 16 weeks
Effect on cardiovascular autonomic balance by cardiovascular reflex test with finger plethysmography (Nexfin)
Effect on cardiovascular autonomic balance by cardiovascular reflex test with finger plethysmography (Nexfin) measuring bloodpressure, hartfrequency, ECG between the groups (0-16, 0-1.5, 1.5-16)
Time frame: at baseline, after 10 days and after 16 weeks
Arterial stiffness: Pulse Wave analysis
Arterial stiffness: Pulse Wave analysis will be assessed using the Sphygmocor system, a non-invasive system using applanation tonometry between the groups (0-16, 0-1.5, 1.5-16)
Time frame: at baseline, after 10 days and after 16 weeks
Renal measurements collecting 24 hour urine
Renal measurements collecting 24 hour urine; glucose excretion (0-1.5, 0-16, 1.5-16), creatinine clearance (0-1.5, 0-16, 1.5-16), tubular function; sodium excretion and urinary pH (0-1.5, 0-16, 1.5-16), renal damage markers albumin/creatinine ratio (0-1.5, 0-16, 1.5-16)
Time frame: at baseline, after 10 days and after 16 weeks
Laboratory parameters
Change in the plasma/serum biomarkers of metabolism, liver function, estimated renal function (eGFR), electrolytes, and haematocrit
Time frame: at baseline, after 10 days and after 16 weeks
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