Trials / Completed

CompletedNCT03313830

Effect of Whey Protein Hydrolysate on Human Muscle Protein Synthesis

Summary

Muscle protein synthesis can be stimulated by ingestion of protein sources, such as whey, casein or soy. Protein supplementation can be useful to restore protein turnover after exercise but also to preserve skeletal muscle mass and function in aging adults. Ingestion of large doses of essential amino acids (EAA) or certain protein supplements may be an effective strategy to induce muscle protein synthesis. However, in many cases, it may not be practical or feasible to consume a large volume of amino acids or protein required for an effective response by muscle. Several evidences show how reduced strength and muscle mass, even in early life, are predictors of early mortality which explicit the importance of developing more effective methods to improve muscle quality. Therefore, identifying the better sources of protein that have higher anabolic potency is of high significance. The goal of this study is to determine the anabolic potency and efficacy of a new and novel Whey Protein Hydrolysate mixture (WPH) on skeletal muscle protein synthesis in healthy young subjects (age 20-35 yr). Previous studies on rats indicate WPH induces significant increases in muscle protein synthesis compared with carbohydrates or whey-amino acid mixture. WPH contains mostly peptides, which have physiological effects and could be absorbed more rapidly. Preliminary data from preclinical study has also demonstrated that WPH can stimulate muscle protein synthesis at lower doses compared with intact whey proteins. Thus, WPH could be absorbed more rapidly and may maximally stimulate muscle protein synthesis. Although there is substantial data on the individual effects of BCCA and intact protein such as whey, there have been no clinical investigations that have explored the efficacy of WPH for stimulating muscle protein synthesis in humans. Therefore, the investigators propose that WPH will increase muscle protein synthesis. They will compare the response of WHP to the response of WHEY when equal protein is provided in both treatments. 10 healthy subjects will be recruited and will receive both WPH and WHEY supplementation in a single blind crossover design. Muscle protein synthesis will be measured on both occasions. This acute study will allow to determine whether low dose WPH supplementation will be an effective nutritional treatment to stimulate muscle protein synthesis in young adults.

Detailed description

The central hypothesis will be tested in 10 healthy young adults (20-35 yr). The subjects will be studied in the post-absorptive state on two different days, during which they will randomly assigned to drink a WPH or WHEY mixture. Measures of muscle protein synthesis will be taken at baseline, one and three hours following nutrient ingestion. The expected outcome of the proposed work is the identification of a new nutritional strategy for activating skeletal muscle protein synthesis. The findings of the proposed studies will have a positive impact, because they will allow us to translate this information into evidence-based clinical interventions to improve muscle size, strength and function and improve recovery after conditions associated with muscle wasting.

Conditions

• Healthy

Interventions

Timeline

Start date

2017-10-07

Primary completion

2020-11-06

Completion

2020-11-06

First posted

2017-10-18

Last updated

2020-11-10

Locations

1 site across 1 country: United States

Source: ClinicalTrials.gov record NCT03313830. Inclusion in this directory is not an endorsement.