Effect of an EAA/Whey Composition on Protein Metabolism

Not Applicable

Completed

Conditions: Sarcopenia

Interventions: Dietary Supplement: 6.3 g of EAAs mixture and whey protein isolate
Dietary Supplement: 12.6 g of whey protein isolate
Dietary Supplement: 12.6 g of EAAs mixture and whey protein isolate

Registration Number: NCT03502941

Lead Sponsor: University of Arkansas

Brief Summary: Sarcopenia, a progressive loss of muscle mass, strength and function, is an inevitable natural process of aging. While it may be impossible to completely reverse the progress of sarcopenia, it is well established that intake of dietary protein through essential amino acids (EAAs) and whey protein increases anabolic response. The current study will test if a specially formulated mixture of EAAs and whey protein can maximally stimulate anabolic responses at the levels of whole body and muscle compared to whey protein alone.

Detailed Description: The product composition is protected by intellectual property. It contains a combination of ingredients designed to stimulate anabolic responses at whole body and muscle and to ultimately induce long-term improvements in muscle function and size. EAAs are the only dietary macronutrients that are required for survival. They are "essential" because the body cannot produce them. There are 9 dietary EAAs while there are 11 dietary non-essential amino acids that are not required in the diet because they can be produced in the body. The composition is based on a blend of 8 of the 9 EAAs. In addition to being the "active" components of dietary protein, EAAs also have the advantage over intact protein including whey protein because free EAAs are absorbed from the intestine more quickly and more completely than amino acids contained in protein, which requires digestion before absorption indicating that intact protein is relatively slowly absorbed. Therefore, the combination of free EAAs and intact protein give not only an immediate response (from the free EAAs) but also a prolonged response (from the intact protein) over time by the slower digestion. The idea of combining a specific formulation of EAAs with an intact protein to obtain both an immediate as well as a more sustained response in protein anabolism is novel. Investigators propose that consumption of the EAA/protein composition will stimulate the net protein balance at the whole body level in a dose-dependent manner. The investigators further propose that the magnitude of increase in the net protein balance will be greater than induced by the consumption of the same amount of whey protein isolate.

Recruitment & Eligibility

Status: COMPLETED

Sex: All

Target Recruitment: 16

Inclusion Criteria

BMI between 20 and 30 kg/m^2

Exclusion Criteria

Current diagnosis of diabetes
History of malignancy in the 6 months prior to enrollment
Weight reduction surgery
Chronic inflammatory (Lupus, HIV/AIDS)
Currently pregnant females
Unable to eat dairy protein
Unable to stop eating protein or Amino Acid (AA) supplements during the participation
Regular resistance training (> once per week)
Concomitant use of corticosteroids (ingestion, injection or transdermal)
Subjects who cannot safely stop using aspirin for 7 days prior to muscle biopsies
Hemoglobin less than 9.5 g/dL, and platelets less than 150,000 at the screening visit
Any other disease or condition placing the subject at increased risk of harm if they were to participate, at the discretion of the study physician

Study & Design

Study Type: INTERVENTIONAL

Study Design: CROSSOVER

Arm && Interventions

Group	Intervention	Description
A single dose of EAAs/whey	6.3 g of EAAs mixture and whey protein isolate	Subjects will consume 6.3 g of EAAs/whey in \~12 oz water.
Whey protein alone	12.6 g of whey protein isolate	Subjects will consume 12.6 g of whey protein isolate which is an equal amount to the double dose of EAAs/whey.
A double dose of EAAs/whey	12.6 g of EAAs mixture and whey protein isolate	Subjects will consume 12.6 g of EAAs/whey in \~12 oz water

Primary Outcome Measures

Name	Time	Method
Protein Anabolism	Change from 4.5 to 8.5 hours.	Changes in net protein balance at whole body (grams)
Protein Synthesis	From 4.5 to 8.5 hours.	Changes in protein synthesis in muscle (percent)

Secondary Outcome Measures