Exercise-Induced Metabolic Compensation; a Physiological Adaptive Response to Exercise Training
- Conditions
- Exercise Training
- Interventions
- Behavioral: Exercise training
- Registration Number
- NCT04460040
- Lead Sponsor
- Tel Aviv University
- Brief Summary
The primary aim of this proposal is to identify changes in the volume of highly metabolic organs (liver, kidneys, and brain) that occur as a physiological adaptation to exercise training and lower the resting energy expenditure. Secondary aims are to identify changes in the metabolic efficiency of muscle in low levels of physical activity and evaluate the effects on components of total daily energy expenditure including the sleeping metabolic rate (SMR) and diet induced thermogenesis (DIT).
- Detailed Description
Using a clinical trial type protocol, 16 overweight (body mass index: 25-30 kg/m2) men (n=8) and women (n=8) aged 21 to 45 years will exercise for 3 months in a moderate intensity regimen of 20 kcal/week/kg body weight that reflects current recommendations for weight management. The volume of various organs will be measured pre- and post-exercise intervention using magnetic resonance imaging (MRI). A cycling ergometer with a varied workload will be used to assess muscle metabolic efficiency. Changes in overnight SMR and 4 hours post breakfast DIT will be evaluated by whole human room indirect calorimetry ("metabolic chamber"). In addition, free-living Total Energy Expenditure (TEE) will be measured for ten days pre- and post-intervention by doubly labeled water.
Recruitment & Eligibility
- Status
- ACTIVE_NOT_RECRUITING
- Sex
- All
- Target Recruitment
- 16
Overweight [body mass index (BMI) 25-30
- Participation in another exercise or weight loss program in the last 6 months
- Non-stable weight (>±5%) over the past 6 months
- Current regular exercise > 1 hour per week
- Smoking within the past 6 months
- Being post-menopausal, breastfeeding, pregnancy, or having been pregnant within the past 6 months
- Previous bariatric surgery
- Cardiopulmonary disease (e.g., recent myocardial infarction or unstable angina)
- Musculoskeletal or neuromuscular impairments that preclude exercise training
- Having other health issues include cancer, diabetes, thyroid disease, hypertension, chronic renal failure, cognitive impairments
- Use of drugs that potentially impact body metabolism.
Study & Design
- Study Type
- INTERVENTIONAL
- Study Design
- SINGLE_GROUP
- Arm && Interventions
Group Intervention Description Intervention Exercise training Exercise in moderate intensity tailored individually to 20 kcal/kg/week (range 1500-2000 kcal/week) with a free choice to exercise at home/gym on a treadmill or outdoors.
- Primary Outcome Measures
Name Time Method To examine long-term changes in the volume of highly metabolic organs (brain, liver, and kidneys) as an adaptive metabolic response to exercise training Pre- and post 12 weeks of exercise intervention The volume of various organs will be measured using magnetic resonance imaging (MRI).
- Secondary Outcome Measures
Name Time Method To evaluate the changes in skeletal muscle metabolic efficiency during non- exercise physical activity as an adaptive response to long-term exercise training Pre- and post 12 weeks of exercise intervention A cycling ergometer with a varied workload will be used to assess muscle metabolic efficiency
To determine the effect of long-term exercise training on changes in sleeping metabolic rate as an adaptive response . Pre- and post 12 weeks of exercise intervention Changes in overnight sleeping metabolic rate will be evaluated by whole human room indirect calorimetry ("metabolic chamber")
To assess the effect of long-term exercise training on changes in diet induced thermogenesis as an adaptive response. Pre- and post 12 weeks of exercise intervention Changes in diet induced thermogenesis will be evaluated 4 hours post breakfast by whole human room indirect calorimetry ("metabolic chamber")
Trial Locations
- Locations (1)
Tel Aviv University
🇮🇱Tel Aviv, Other, Israel