The Effects of Exercise Training Combined With NR Supplementation on Metabolic Health in Older Individuals
Overview
- Phase
- Not Applicable
- Intervention
- Not specified
- Conditions
- Overweight and Obesity
- Sponsor
- Maastricht University Medical Center
- Enrollment
- 30
- Locations
- 1
- Primary Endpoint
- Ex vivo muscle mitochondrial function
- Status
- Completed
- Last Updated
- 3 years ago
Overview
Brief Summary
The number of age-related chronic diseases (like obesity, type 2 diabetes and cardiovascular diseases) is increasing rapidly worldwide, reaching pandemic proportions. These age-related chronic diseases are associated with metabolic disturbances and mitochondrial dysfunction in humans. Nicotinamide adenosine dinucleotide (NAD) levels play an important role in energy metabolism and mitochondrial functioning and indeed it has been shown that high concentrations of NAD+ as well as a high NAD+/NADH ratio are strongly associated with metabolic and mitochondrial health. In contrast, decreased NAD+ bioavailability is reported in both ageing and obese humans as well as in diabetic mice. These findings fueled the idea of influencing NAD+ bioavailability in order to improve metabolic disturbances and mitochondrial dysfunction in humans. Supplementation with nicotinamide riboside (NR), a naturally occurring form of vitamin B3, may provide a way to boost cellular NAD+ levels. However, in contrast to animal studies, NR supplementation in humans has so far been unsuccessful in improving skeletal muscle mitochondrial function, exercise capacity or insulin sensitivity. Recently, it has been suggested that a situation where NAD+ levels become limited, is needed for NR supplementation to exert beneficial health effects. This situation could be achieved by combining exercise and NR supplementation. However, studies combining NR and exercise are lacking, which is why we would like to perform such a study here.
Detailed Description
Rationale: The number of age-related chronic diseases (like obesity, type 2 diabetes and cardiovascular diseases) is increasing rapidly worldwide, reaching pandemic proportions. These age-related chronic diseases are associated with metabolic disturbances and mitochondrial dysfunction in humans. Nicotinamide adenosine dinucleotide (NAD) levels play an important role in energy metabolism and mitochondrial functioning and indeed it has been shown that high concentrations of NAD+ as well as a high NAD+/NADH ratio are strongly associated with metabolic and mitochondrial health. In contrast, decreased NAD+ bioavailability is reported in both ageing and obese humans as well as in diabetic mice. These findings fueled the idea of influencing NAD+ bioavailability in order to improve metabolic disturbances and mitochondrial dysfunction in humans. Supplementation with nicotinamide riboside (NR), a naturally occurring form of vitamin B3, may provide a way to boost cellular NAD+ levels. However, in contrast to animal studies, NR supplementation in humans has so far been unsuccessful in improving skeletal muscle mitochondrial function, exercise capacity or insulin sensitivity. Recently, it has been suggested that a situation where NAD+ levels become limited, is needed for NR supplementation to exert beneficial health effects. This situation could be achieved by combining exercise and NR supplementation. However, studies combining NR and exercise are lacking, which is why we would like to perform such a study here. Objective: The primary objective of this study is to determine whether combined treatment of exercise and NR imposes greater improvements in skeletal muscle mitochondrial metabolism in older humans compared to exercise treatment alone. The secondary objective is to determine whether combined treatment of exercise and NR supplementation imposes greater improvements in sleeping metabolic rate (SMR). As explorative objectives, we will examine whether combined treatment with exercise and NR imposes greater improvements in muscle (NAD) metabolites, energy metabolism and physical performance. Study design: The present study is a randomized, double-blinded, placebo-controlled double arm longitudinal intervention study in a pre and post design. Study population: 30 older male and (postmenopausal) female participants, aged 65 - 80 years with a BMI between 25-35 kg/m2 will perform this study (15 participants in the exercise+placebo group, 15 participants in the exercise+NR group). From experience with similar studies, we estimate a drop-out rate of 20% and a screening failure of 50% (due to the strict inclusion criteria), resulting in maximally 36 subjects that have to be included and 72 subjects that have to be screened (maximally). Intervention (if applicable): Participants will be asked to take two pills of NR (250mg/pill), or placebo, twice daily (two with breakfast and two with diner, a total of 4 pills/day; 1000mg/day), for 40 days. During days 17-38 of the NR intervention, participants will perform a 3-weeks supervised exercise training program with four \~30 min exercise sessions per week (two endurance session on a bike at 70%Wmax and two high intensity interval (HIIT) sessions. Participants will be randomly assigned to the placebo + exercise or NR + exercise arm. To assess the outcomes, participants will undergo three test days before the start of the NR supplementation and repeat these three test days at the end (day 38-40) of NR supplementation. Main study parameters/endpoints: The primary study endpoints is ex vivo skeletal muscle mitochondrial function measured via high-resolution respirometry. Explorative objectives are muscle (NAD) metabolites, energy metabolism and physical performance.
Investigators
Eligibility Criteria
Inclusion Criteria
- •Participants are able to provide signed and dated written informed consent prior to any study specific procedures
- •Aged ≥ 65 and ≤ 80 years
- •Body mass index (BMI) 25 - 35 kg/m2
- •Stable dietary habits (no weight loss or gain \> 5 kg in the past 3 months)
- •No signs of active cardiovascular disease, liver or kidney malfunction
Exclusion Criteria
- •Type 2 diabetes
- •Patients with congestive heart failure and and/or severe renal and or liver insufficiency
- •Uncontrolled hypertension
- •Any contra-indication for MRI scanning
- •Alcohol consumption of \>3 servings per day for man and \>2 servings per day for woman
- •Unstable body weight (weight gain or loss \> 5kg in the last 3 months)
- •Engagement in structured exercise activities \> 2 hours a week
- •Previous enrolment in a clinical study with an investigational product during the last 3 months or as judged by the Investigator which would possibly hamper our study results
- •Medication use known to hamper subject's safety during the study procedures
- •Subjects who do not want to be informed about unexpected medical findings
Outcomes
Primary Outcomes
Ex vivo muscle mitochondrial function
Time Frame: Pre-intervention test day 3 + day 40 of the intervention NR/Placebo + exercise
Ex vivo mitochondrial function in skeletal muscle measured by oxygen consumption in muscle fibres (muscle biopsy vastus lateralis) on lipid-derived and carbohydrate-derived substrates.
Secondary Outcomes
- Maximal aerobic capacity(Pre-intervention test day 1 + Day 38)
- Physical performance(Pre-intervention test day 1 + Day 38)
- Skeletal muscle NAD concentrations (ex-vivo)(Pre-intervention test day 3 + Day 40)
- Skeletal muscle NAD concentration (in-vivo)(Pre-intervention test day 3 + Day 40)
- Intrahepatic lipid content(Pre-intervention test day 1 + Day 38)
- Upper leg muscle mass(Pre-intervention test day 1 + Day 38)
- Body composition(Pre-intervention test day 1 + Day 38)
- Quality of life(Pre-intervention test day 1 + Day 38)
- Blood metabolites(Pre-intervention test day 3 + Day 40)
- Submaximal exercise energy expenditure(Pre-intervention test day 3 + Day 40)
- Sleeping metabolic rate(Pre-intervention test day 2 + Day 39)
- Exercise efficiency(Pre-intervention test day 3 + Day 40)