Exercise Volume and Beta-cell Function in T2D The DOSE-EX Randomized Trial
- Conditions
- Type2 DiabetesType2 Diabetes MellitusType 2 Diabetes MellitusDiabetes Mellitus, Type 2
- Interventions
- Behavioral: DietBehavioral: Exercise and diet
- Registration Number
- NCT03769883
- Lead Sponsor
- Mathias Ried-Larsen
- Brief Summary
This project will provide an exercise-based lifestyle intervention with the potential to reduce complications for patients with short standing type 2 diabetes (T2D). While exercise is widely accepted as a component of T2D management, little is known about the additive effect of exercise when combined with a diet on T2D pathophysiology and mechanisms believed to lead to micro- and macrovascular complications. Moreover, the necessary dose of exercise to revert the progression of T2D and the related complications has not been investigated. A large-scale randomized controlled trial (RCT) will be essential to document the effectiveness on reducing the risk of T2D complications. However, prior to conducting a large-scale RCT, we need to specify the exercise dose that efficiently compliments the diet.
In a 4-armed randomized, clinical trial (N=80 T2D patients, T2D duration \< than 7 years) we aim to investigate 1) the potential additive role of exercise on pancreatic β-cell function in patients with T2D when combined with a diet, 2) the causal relationship between lifestyle-induced reductions in glycaemic variability, oxidative stress and low-grade inflammation and, 3) the role of exercise in rescuing dysregulated muscle progenitor cells. The participants will be randomly allocated to either a) control, b) diet, c) diet and exercise 3 times/week or d) diet and exercise 6 times/week for 16 weeks. Prior to, during and following the interventions, all participants will undergo extensive testing.
- Detailed Description
A 4-armed, 16-week, parallel-group, assessor-blinded, randomized, clinical trial. Participants will be randomly allocated (1:1:1:1), stratified by sex
Interventions:
The lifestyle interventions will consist of two main components; 1) increased physical activity and structured exercise and/or 2) a dietary intervention aiming at a weight loss. Whereas there will be no differences in the dietary intervention between the lifestyle groups, the volume of physical activity and structured exercise will vary according to the frequencies of the structured exercise sessions.
The study groups are prescribed:
1. Control group (CON): No intervention
2. Dietary control (DCON): Dietary intervention (see below)
3. Moderate Exercise Dose (MED): Two aerobic training sessions per week of 45-60 min duration and one session per week with combined aerobic (30-35 min) and resistance (30 min) training and a dietary intervention (described below)
4. High Exercise Dose (HED): Four aerobic training sessions per week of 45-60 min duration and two sessions per week with combined aerobic (30-35 min) and resistance (30 min) training and a dietary intervention (described below)
Detailed description of the intervention components. Exercise: The training protocol will be adapted based on a previous study where the T2D participants were prescribed 6 weekly sessions of aerobic training alone or combined aerobic and resistance training (averaging 360-420 min of exercise per week). As previous analyses suggest that there may be an inverse dose-response relationship between reductions in HbA1c and aerobic exercise volume, this parameter will be used to adapt the training protocol. As the effect of exercise on HbA1c is closer related to the number of training sessions rather than intensity15, we will reduce the number of sessions by 50%, to three sessions/week in the moderate exercise dose group and maintain the original session frequency in the high dose exercise group (six sessions/week).Training will be supervised and monitored to ensure intensity and compliance.
Dietary intervention and intended weight loss (DCON, MED and HED: The dietary intervention will be based on the recommendations from the American Diabetes Association (ADA) with increased focus on macronutrient quality. The macronutrient distributions are in line with the current guidelines from the national Diabetes Association and Canadian guidelines, where individualization in macronutrient distribution should lie within the range of 45-60 energy% carbohydrate, 15-20 energy% protein and 20-35 energy% fat. Thus, the dietary intervention emphasis will be on low glycemic index and low glycemic load in shape of non-processed foods and will aim at reducing saturated fat intake \<7 energy%.
Recruitment & Eligibility
- Status
- COMPLETED
- Sex
- All
- Target Recruitment
- 82
Diagnosed with diabetes type 2 and/or HbA1c ≥ 48 mmol/mol if no treatment with anti-diabetic medication and/or use of antidiabetic medication
Caucasian
No diagnose of Type 1 diabetes, mature onset diabetes of the young, Latent autoimmune diabetes of adults
T2D 0-6 years of duration
No treatment with insulin
Body Mass Index (BMI) >27 kg/m2 and <40 kg/m2
No known or signs of intermediate or severe microvascular complications to diabetes (retino-, neuro- or nephropathy)
No known cancer
No Known lung disease
No known cardiovascular disease
No known thyroid disease
No known liver disease
No known autoimmune disease
No other endocrine disorder causing obesity
No current treatment with anti-obesity medication
No current treatment with anti-inflammatory medication
No weight loss of > 5kg within the last 6 months
No diagnose of depression or treatment with anti-depressive medication, ongoing or within the last three months before enrolment
No diagnose of psychiatric disorder or treatment with anti-psychotic medication
No history of suicidal behavior or ideations within the last three months before enrolment
No previous surgical treatment for obesity (excluding liposuction > 1 year prior to enrolment)
Not pregnant/considering pregnancy
No functional impairments that prevents the performance of intensive exercise
Accept of medical regulation by the U-TURN endocrinologist
Inactivity, defined as < 1,5 hours of structured physical activity pr. week at moderate intensity and cycling < 30 minutes/5 km pr. day at moderate intensity (moderate intensity = out of breath but able to speak)
No participation in other research intervention studies
HbA1c: >=75 mmol/mol with no glucose lowering medications
HbA1c: >=64 mmol/mol with mono glucose lowering therapy (if compliant with the prescription)
HbA1c: >=57 mmol/mol with >=dual glucose lowering therapy (if compliant with the prescription)
estimated glomerular filtration rate<60 mL/min
Protein or glucose in the urine at pre-screening
No biochemical sign of other major diseases
Presence of circulating glutamate-decarboxylase anti body (GAD) 65
Objective findings that contraindicates participation in intensive exercise
Anamnestic findings that contraindicates participation in the study
Unable to allocate the needed time to fulfill the intervention
Language barrier, mental incapacity, unwillingness or inability to understand and be able to complete the interventions
Study & Design
- Study Type
- INTERVENTIONAL
- Study Design
- PARALLEL
- Arm && Interventions
Group Intervention Description Dietary control (DCON) Diet The macro-nutrient distributions are in line with the current guidelines from the national Diabetes Association and Canadian guidelines, where individualization in macronutrient distribution should lie within the range of 45-60E% carbohydrate, 15-20E% protein and 20-35E% fat. The dietary plan will aim at reducing saturated fat intake \<7E% aiming at a caloric deficit of 500 kilo calories/day High Exercise Dose (HED) Exercise and diet Four aerobic training sessions per week of 45-60 min duration and two sessions per week with combined aerobic (30-35 min) and resistance (30 min) training and a dietary intervention (as above) Moderate Exercise Dose (MED) Exercise and diet Two aerobic training sessions per week of 45-60 min duration and one session per week with combined aerobic (30-35 min) and resistance (30 min) training and a dietary intervention (as above)
- Primary Outcome Measures
Name Time Method Pancreatic beta-cell function (Per protocol) From baseline (0 weeks) to follow-up (16 weeks) The change in the late-phase disposition index (DI) during the final 30 minutes of hyperglycemic phase of the hyperglycemic clamp.
- Secondary Outcome Measures
Name Time Method Systolic blood pressure From baseline (0 weeks) to follow-up (16 weeks) Change systolic blood pressures
Glucose appearance From baseline (0 weeks) to follow-up (16 weeks) Change in Rate of glucose appearance (stable isotope infusion) during steady state hyperglycemia
Pancreatic fat From baseline (0 weeks) to follow-up (16 weeks) Change in Pancreatic fat
Total fat mass From baseline (0 weeks) to follow-up (16 weeks) Change in Total fat mass
Body mass index From baseline (0 weeks) to follow-up (16 weeks) Change in body mass index
Early phase disposition index (c-peptide) From baseline (0 weeks) to follow-up (16 weeks) Change in 1st phase C-peptide secretion defined as the peak concentration during the initial 10 minutes of the hyperglycaemic clamp
Glucose clearance From baseline (0 weeks) to follow-up (16 weeks) Change in Rate of glucose clearance (stable isotope infusion) during steady state hyperglycemia
Time in hyperglycemia From baseline (0 weeks) to follow-up (16 weeks) Change in time in hyperglycaemia (calculated based on min 3 days sensor glucose profiles)
Systemic oxidative stress (RNA) From baseline (0 weeks) to follow-up (4, 12 and 16 weeks) Change in 8-oxo-guanosine
Glycated haemoglobin type 1AC (HbA1c) From baseline (0 weeks) to follow-up (4, 12 and 16 weeks) Change in HbA1c
Glucagon like peptide 1 sensitivity (c-peptide) From baseline (0 weeks) to follow-up (16 weeks) Change in Glucagon like peptide 1 stimulated C-peptide secretion
Insulin sensitivity From baseline (0 weeks) to follow-up (16 weeks) Change in mean Glucose infusion rate over last 30 min of clamp phase/(mean insulin×glucose
Mean glucose levels From baseline (0 weeks) to follow-up (16 weeks) Change in the mean glucose levels (calculated based on min 3 days sensor glucose profiles)
Android fat mass From baseline (0 weeks) to follow-up (16 weeks) Change in Android fat mass
Gynoid fat mass From baseline (0 weeks) to follow-up (16 weeks) Change in gynoid fat mass
Advanced glycation end-products (AGE) From baseline (0 weeks) to follow-up (4, 12 and 16 weeks) Change in AGE
Markers of low-grade inflammation From baseline (0 weeks) to follow-up (4, 12 and 16 weeks) Change in inflammatory markers (e.g. high sensitive C-reactive protein, interferon-ϒ, interleukin-10, interleukin-8, interleukin-6, interleukin-1, TNFα)
Glucagon like peptide 1 sensitivity (insulin) From baseline (0 weeks) to follow-up (16 weeks) Change in Glucagon like peptide 1 stimulated insulin secretion
Arginine sensitivity (insulin) From baseline (0 weeks) to follow-up (16 weeks) Change in Arginine stimulated insulin secretion
Coefficient of glucose variation From baseline (0 weeks) to follow-up (16 weeks) Change in Coefficient of variation defined as (mean glucose/the standard deviation (SD)) of min 3 days sensor glucose profiles
Pancreatic beta-cell function (Intention to treat) From baseline (0 weeks) to follow-up (16 weeks) As for per protocol
Glucagon like peptide 1 sensitivity (glucagon) From baseline (0 weeks) to follow-up (16 weeks) Change in Glucagon like peptide 1 stimulated glucagon secretion
Arginine sensitivity (c-peptide) From baseline (0 weeks) to follow-up (16 weeks) Change in Arginine stimulated C-peptide secretion
Arginine sensitivity (glucagon) From baseline (0 weeks) to follow-up (16 weeks) Change in Arginine stimulated glucagon secretion
Early phase disposition index (insulin) From baseline (0 weeks) to follow-up (16 weeks) Change in 1st phase insulin secretion defined as the peak concentration during the initial 10 minutes of the hyperglycaemic clamp
Mean amplitude of glycemic excursions From baseline (0 weeks) to follow-up (16 weeks) Change in Mean amplitude of glycemic excursions (MAGE - calculated based on min 3 days sensor glucose profiles)
Time in hypoglycemia From baseline (0 weeks) to follow-up (16 weeks) Change in time in hypoglycaemia from min 3 days sensor glucose profiles
Visceral fat From baseline (0 weeks) to follow-up (16 weeks) Change in visceral fat
Total fat free mass From baseline (0 weeks) to follow-up (16 weeks) Change in Total fat free mass
Body weight From baseline (0 weeks) to follow-up (16 weeks) Change in body weight
Systemic oxidative stress (DNA) From baseline (0 weeks) to follow-up (4, 12 and 16 weeks) Change in 8-oxo-deoxoguonase
The circulating receptor for advanced glycation end-products (sRAGE) From baseline (0 weeks) to follow-up (4, 12 and 16 weeks) Change in sRAGE
Total cholesterol From baseline (0 weeks) to follow-up (4, 12 and 16 weeks) Change in total cholesterol
Low density lipoprotein (LDL) From baseline (0 weeks) to follow-up (4, 12 and 16 weeks) Change in LDL
Gastric emptying (AUC) From baseline (0 weeks) to follow-up (16 weeks) Change in the AUC (paracetamol) during a mixed meal tolerance test
Total physical activity From baseline (0 weeks) to follow-up (16 weeks) Change in objectively measured physical activity (counts per minute)
Sedentary time (SED) From baseline (0 weeks) to follow-up (16 weeks) Change in time spend on SED
Hepatic fat From baseline (0 weeks) to follow-up (16 weeks) Change in Hepatic fat
Total lean body mass From baseline (0 weeks) to follow-up (16 weeks) Change in Total lean body mass
Total triglyceride From baseline (0 weeks) to follow-up (4, 12 and 16 weeks) Change in total triglyceride
High density lipoprotein (HDL) From baseline (0 weeks) to follow-up (4, 12 and 16 weeks) Change in HDL
Diastolic blood pressure From baseline (0 weeks) to follow-up (16 weeks) Change diastolic blood pressure
Moderate and vigorous physical activity (MVPA) From baseline (0 weeks) to follow-up (16 weeks) Change in time spend on MVPA
Glucose tolerance From baseline (0 weeks) to follow-up (16 weeks) Change incremental and total area under the curve (glucose, c-peptide, insulin) during a mixed meal tolerance test
Physical fitness (VO2max) From baseline (0 weeks) to follow-up (16 weeks) Change in physical fitness (VO2) during a progressive maximal bicycle ergometer test
Physical well being From baseline (0 weeks) to follow-up (16 weeks) Change in physical well being (Based on the physical dimension score from short-form 36, range 0-100)
Satiety From baseline (0 weeks) to follow-up (16 weeks) Change in self-reported satiety (VAS) during a mixed meal tolerance test (range 0-10)
Gastric emptying (Rate of appearance) From baseline (0 weeks) to follow-up (16 weeks) Change in rate of appearance of paracetamol during a mixed meal tolerance test
Muscular 1 repetition max (strength) From baseline (0 weeks) to follow-up (16 weeks) Change in 1 repetition max
Mental well being From baseline (0 weeks) to follow-up (16 weeks) Change in mental well being (Based on the mental dimension score from Short-form 36) (range 0-100)
Trial Locations
- Locations (1)
Center for Physical Activity Research, Copenhagen University Hospital
🇩🇰Copenhagen, Denmark