View clinical trials related to Dietary Proteins.
Filter by:The growth and development of lean body mass (i.e., muscle and bone) is instrumental to health and performance across the lifespan, especially in youth, as they actively experience growth. Thus, it is important to capitalize on physical activity and nutrition (especially dietary protein), to support the accretion of lean tissues. Eating a protein-rich meal or performing physical activity can stimulate protein synthesis, and when repeated over time, lean body mass accretion. There is currently an increasing market demand for non-dairy alternatives, due to multiple reasons including environmental, ethical, or taste preferences. However, it is important to understand how different beverages may support 'growth' (anabolism) of lean tissues after exercise. Research in adults has shown that dairy milk is superior to non-dairy milk beverages for supporting post-exercise recovery and muscle protein synthesis. However, the impact of dairy and non-dairy milk alternatives on recovery from exercise is not well understood in children. By understanding the milk beverage that best supports post-exercise recovery, the investigators can determine the optimal nutritional environment to facilitate the growth of lean tissues in the body.
Leucine-enriched proteins (e.g., dairy) are more effective than plant-based sources for supporting post-exercise rates of muscle protein synthesis in adults. However, the impact of protein quality on protein synthesis and acute markers of growth in active children are unknown. Using a randomized crossover design, the investigators will compare the effects of ingesting 0.35g/kg fat free mass (FFM) of either milk protein concentrate (MPC), rice protein isolate (RPI), or soy protein isolate (SPI) following a bout of variable intensity exercise with whole-body protein kinetics (i.e., oxidation, synthesis, breakdown, and net balance) determined by oral [13C]phenylalanine tracer methodology.
A strength training session promotes increased muscle sensitivity to protein synthesis, which lasts for 24 hours after its closure. Recent studies have shown that the subsequent intake to the training session of approximately 20g or 0.24g / kg of high-quality protein in the same meal induces a plateau in this synthesis. Thus, this study aims to compare the muscular strength between vegetarian and omnivorous athletes with adequate protein intake to reach this plateau. It will recruit 64 university sportsmen who have maintained vegetarian or omnivorous diet for at least 6 months, totalizing 32 individuals per group. After signing the Term of Consent, participants will be submitted to anthropometric and body composition assessment (via DEXA), neuromuscular tests [(ie, muscle strength - 1RM, peak torque of knee extensors (JE), muscle thickness of JE and cohort analysis (ANCOVA) will be used in order to compare the results of the study, and to compare the results of the covariance analysis (ANCOVA). the levels of the neuromuscular parameters between the groups, considering the initial values of the force and the initial muscular thickness as covariables, the other parameters will be presented in the form of mean and standard deviation or median, the differences will be considered significant for values of p <0, 05. Expected to find no differences in strength and muscle thickness between vegetarians and omnivores after adequate protein intake.
The primary objective is to determine whether meat interacts positively with calcium to improve calcium retention. The secondary objective is to determine whether any interaction between dietary protein and calcium affects biomarkers of bone metabolism.