The purpose of this study is to determine wether regular physical activity in combination with protein supplementation after bariatric surgery can reduce the loss of muscle mass and wether a computer-assisted exercise program is more effective than a usual exercise program regarding frequency of physical activity, fitness and muscular strength.
Bariatric surgery has become a major treatment option for severe obesity in adults. Despite the advantages of bariatric surgery, attention needs to be paid to the possible risks following the surgical treatment. Postoperative risks include protein deficiency and pronounced muscle mass loss. Indeed, numerous studies indicate a significant reduction in lean body mass resulting from protein deficiency after bariatric surgery. Dietary proteins have shown to play an important role in body weight regulation. A protein-rich diet attains satiety and thereby facilitates reduction in overall energy intake. It has also shown to enhance food-induced thermogenesis. Furthermore, a protein-rich diet - ideally in combination with exercise - preserves lean body mass and thus resting energy expenditure leading to an improvement of long-term energy balance. Therefore, protein-rich diets or protein supplements, respectively, might facilitate weight loss, especially body fat loss and protect against loss in muscle mass in patients who underwent bariatric surgery. The aim of the present randomized, placebo-controlled, double blind pilot study was to test the possible benefit of proteins in combination with exercise in patients undergoing bariatric surgery, and to examine, whether computer-assisted exercise is advantageous when comparing it to a usual exercise program using written exercise instructions. Therefore, we study the influence of postoperative protein supplementation in combination with computer-assisted exercise on body composition changes, and body weight reduction, as well as physical fitness, protein status and muscle function in obese patients after bariatric surgery.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
PREVENTION
Masking
DOUBLE
Enrollment
50
Postoperative intake of 25 g per day starting on the first day after hospital discharge until 6 months postoperatively.
Postoperative intake of 25 g per day starting on the first day after hospital discharge until 6 months postoperatively.
Postoperative regular computer-assisted exercise using Nintendo Wii Mini, Nintendo Wii Balance Board and Wii Fit Plus Software. Exercise is advised to be done 4 times per week.
Department of General, Visceral, and Transplant Surgery, University Hospital of Tübingen
Tübingen, Germany
Lean body mass loss expressed as percentage of weight loss [%]
Lean body mass is measured by using body impedance analysis. The content of lean body mass in lost weight is calculated using the lost weight in kg and the lost lean body mass in kg.
Time frame: At month 6
Relative weight loss [%]
Time frame: At month 6
Grip strength [lb]
Grip strength \[lb\] is measured by using a hydraulic force measuring device.
Time frame: At month 6
Grip strength endurance [sec]
Grip strength endurance \[sec\] is measured by using a hydraulic force measuring device.
Time frame: At month 6
Physical fitness [repetitions per 30 sec] / [distance in meters]
Physical fitness is assessed by the "30 Second Sit to Stand Test" and the "6 Minute Walk Test (6MWT)". The results of these tests are stated as repetitions per 30 seconds, and distance in meters, respectively.
Time frame: At month 6
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Postoperative regular exercise using written exercise instructions. Exercise is advised to be done 4 times per week.