Athletes consume an extra of nutritional supplements every day with the purpose of improving their athletic performance, sometimes without being aware of their health. Cocoa could be a good nutritional supplement for athletes without causing them adverse effects. One of the most common health concerns in athletes are gastrointestinal problems. The cause of these problems seem to be a compendium of physiological and mechanical causes that are altered due to nutritional factors. Currently, there is no assay in which a nutritional intervention study has been proposed over time of training, in order to improve the gastrointestinal problems associated with the performance of physical exercise.
The objective of this project is to investigate the benefits of daily consumption of cocoa in endurance athletes in: A) Gastrointestinal problems associated with exercise. B) Reinforcement of the gastrointestinal barrier. C) Parameters of inflammation and oxidative stress. D) Sports performance. E) Body composition The starting hypothesis of this project is based on the fact that daily cocoa consumption could improve the gastrointestinal symptoms associated with resistance exercise. Cocoa decreases the symptoms associated with splenic hypovolemia and strengthens the gastrointestinal epithelial barrier increasing the presence of Lactobacillus spp. and Bifidobacterium spp. in the intestinal microbiota. A randomized, blinded, parallel placebo controlled intervention study will be carried out in endurance athletes who train in the sports facilities of the European University of Madrid. The number of male athletes for the study will be 56 (28 in each experimental group), all of them aimed at competition with an age between 18 and 40 years and an aerobic power consumption of oxygen greater than or equal to 55 mL / kg / min). The calculation of the sample size has been made selecting with a significance level alpha = 0.05 and a power (beta) of 0.90 for a 2-tailed analysis, taking into account we want to detect a difference of at least 15% in the improvement of the gastrointestinal symptoms, that the standard detected deviation in the questionnaire to be used, in previous studies, is 1.5 points out of 9 and that the expected proportion of losses is 15%. Before and after the intervention, the athletes will do a test in which we will measure their maximum aerobic capacity. This will be done in the facilities of Europea University of Madrid where there is available a rolling belt. Also, they will do a second test in which we will measure the time they spend running a kilometer at the maximum speed. Body composition will be evaluated by dual-energy X-ray absorptiometry (DEXA). Blood, urine and feces samples will be required before and after the physical tests. Blood and urine samples will be collected in the morning while the feces samples will be collected the day before. The biological samples will be frozen at -80ºC until analyses. The intervention will be carried out for 10 weeks. Cocoa or placebo will be provide in a single daily intake of 5 g of cocoa containing 500 mg of flavanols (dose at which a prebiotic effect has been demonstrated) or 5 g of maltodextrin.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
PREVENTION
Masking
DOUBLE
Enrollment
56
Athletes perform the same training program and they take 5 g of cocoa (83 mg of flavonoids per gram of cocoa) mixed with low-fat milk for 10 weeks.
The athletes perform the same training program and they take for 10 weeks 5 g maltodextrin mixed with low-fat milk for 10 weeks
Jose Ángel García Merino
Villaviciosa de Odón, Madrid, Spain
Measurement of fat mass
Energy X-ray absorptiometry (DEXA ).
Time frame: Fat mass will be analyzed at the beginning (baseline dose) and after 10 weeks of intervention
Measurement of lean mass
Energy X-ray absorptiometry (DEXA ).
Time frame: Lean mass will be analyzed at the beginning (baseline dose) and after 10 weeks of intervention
Sport performance test.
Assessment of maximal aerobic capacity.
Time frame: Sport performance will be analyzed at the beginning (baseline dose) and after 10 weeks of intervention
Sport performance test 2.
Measurement of the time that the sportsmen spend running one kilometer at the maximum speed.
Time frame: Sport performance will be analyzed at the beginning (baseline dose) and after 10 weeks of intervention
Change in eating habits.
Food Frequency Questionnaire.
Time frame: Lifestyle will be analyzed at the beginning (baseline dose) and after 10 weeks of intervention.
Change in Gut Microbiota
Determination of Microbial diversity by 16S rRNA Sequencing.
Time frame: Gut microbiota will be analyzed at the beginning (basiline dose) and after 10 weeks of intervention.
Measurement of the parameters of inflammation.
Cytokines will be measured in plasma (IL-6, IL-10, IL-1β).
Time frame: Plasma cytokines will be analyzed at the beginning and at the end of the 10-week intervention.
Indicators of gastrointestinal barrier.
Determination of plasmatic lipopolysaccharide (LPS) levels as an indicator of bacterial translocation.
Time frame: Plasmatic LPS will be analyzed at the beginning and at the end of the 10-week intervention.
Modification from baseline of gastrointestinal symptoms at 10 weeks
The evaluation of gastrointestinal symptoms will be carried out through following the questionnaire described by Pfeiffer et al. (2009).
Time frame: The questionnaire for the evaluation of gastrointestinal symptoms will be given to the athletes at the beginning and at the end of the 10-week intervention.
Change from baseline of oxidative stress parameters .
Nitric oxide levels will be measured in plasma and urine.
Time frame: Nitric oxide will be analyzed at the beginning and at the end of the 10-week intervention.
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