Obesity Clinical Trial
Official title:
Physical Activity Following Surgery Induced Weight Loss
The primary objective of this study will be to determine the effects of physical activity in
patients during substantial surgery-induced weight loss.
A randomized controlled physical activity intervention trial in a group of patients
undergoing bariatric surgery for weight loss. The study will involve two sites with an
active bariatric surgery program, which have a strong track record of bariatric surgery
research. The study will include 160-200 subjects. Changes in the primary outcome variables
will be determined in previous gastric bypass patients as a result of 6 months of moderate
physical activity compared to an educational control group not engaged structured exercise.
The primary objective of this study will be to determine the effects of physical activity in
patients during substantial surgery-induced weight loss. We propose to employ a randomized
controlled physical activity intervention trial in a group of patients undergoing bariatric
surgery for weight loss. The study will involve two sites with an active bariatric surgery
program, which have a strong track record of bariatric surgery research.
Recruitment goals are 160-200 gastric bypass patients who will undergo 6 months of moderate
physical activity compared to an educational control group not engaged structured exercise.
Subjects will be included if their BMI is less than 55 kg/m2 prior to surgery and they are
located relatively close to centers for intervention sessions. At baseline (3 months
following surgery) and 6 months later (9 months following surgery), subjects will have a CT
scan, IV glucose tolerance test (IVGTT) and muscle biopsy (~8 hour visit). They will be
scheduled for separate visits for a test of physical fitness (VO2max) and general body
composition (DXA scan)(~2 hour visit), and a 15-min sub-maximal exercise session.
1. Physical activity group: Subjects will be progressed to 4-5 days per week, 30-45 min
per session (120-180 min per week) of moderate intensity exercise.
2. Control (educational) group: Subjects will receive their usual care following surgery
that includes information on physical activity. They will also be asked to participate
in monthly health education sessions.
We will promote this study as one that will help determine whether physical activity may be
beneficial in addition to their weight loss.
Aim 1: Insulin resistance and metabolic risk factors. Approach: To address Aim 1, we will
determine 6-month changes in insulin sensitivity in subjects after 3-month initial weight
loss from bariatric surgery. As outlined above, we will employ a randomized controlled
physical activity intervention trial in which half of the subjects will be entered into a
physical activity group, while the other half will participate in monthly health education
sessions (control). By randomizing these groups three months after initial weight loss, both
groups should begin the intervention with similar baseline characteristics (e.g. insulin
sensitivity, body weight, physical fitness, etc.). We are not attempting to determine the
effect of the weight loss per se on insulin sensitivity. However, we realize that the amount
of weight loss could potentially have a major confounding influence on detecting changes in
insulin sensitivity between the two groups. Thus, we will examine the degree of weight loss
as a covariate in our analyses.
Aim 2: Intramyocellular lipids and body composition. Approach: We will examine pre to post
intervention, changes in intramyocellular lipid determined with percutaneous biopsies, as
well as abdominal and intermuscular adipose tissue determined by CT imaging.
Aim 3: Mitochondria content, function and fat oxidation. Approach: We will use three
complimentary measures to quantify changes in oxidative metabolism before and after the
randomized controlled trial described above. All three of these measures will make specific
contributions to this specific aim. Rates of resting post-absorptive fat oxidation will be
measured with indirect calorimetry. Since skeletal muscle accounts for the vast majority of
energy production during physical activity, sub-maximal exercise is a good model to assess
skeletal muscle fatty acid metabolism. We will employ whole body gas exchange indirect
calorimetry during moderate exercise designed to elicit high rates of fatty acid oxidation.
The non-invasive measures of systemic fat oxidation during both resting and exercise
conditions procedures take very little time and present relatively little burden on the
volunteers or technical staff, thus providing an efficient means to obtain significant
information concerning the capacity for fat oxidation in vivo. Muscle biopsy samples will be
obtained before and after the trial to measure changes in the oxidative capacity (electron
transport chain activity, in vitro fatty acid oxidation, muscle fiber type and oxidative
enzyme (succinate dehydrogenase) staining activity of muscle.
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Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Parallel Assignment, Masking: Open Label, Primary Purpose: Treatment
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