Sarcopenia Clinical Trial
Official title:
Impact of Carbohydrate Co-ingestion on the Post-prandial Anabolic Response of Protein in Young and Elderly Men
Rationale: Age related muscle loss (sarcopenia) is assumed to be related to the impaired
postprandial muscle protein synthetic response to protein and/or amino acid administration
in the elderly vs the young. Co-ingestion of carbohydrate increases post-prandial insulin
secretion. Insulin affects skeletal muscle blood flow and may therefore affect substrate
availability and postprandial muscle protein synthesis. However, it is unclear whether the
response to the combined intake of protein and carbohydrates is different in elderly
compared to young subjects.
Hypothesis: Adding carbohydrate to a bolus of protein represents an effective strategy to
overcome the impaired postprandial muscle protein synthesis in the elderly.
Objective: The primary objective of the study is to investigate whether carbohydrate
co-ingestion augments the in vivo postprandial muscle protein synthetic response after
protein ingestion and whether this response is different between young and elderly subjects.
The secondary objective of the study is to assess the effect of carbohydrate co-ingestion on
insulin levels and microvascular perfusion in young and elderly subjects.
Intervention: The intervention consists of a single test day during which the subjects will
receive a drink containing 20 gram intrinsically labelled casein with or without 60 gram
carbohydrates. In addition, continuous intravenous tracer infusions of labeled amino acids
will be administered. During the test day 18 plasma samples and 4 muscle biopsies will be
collected over a period of 8½ h. Furthermore, muscle skeletal blood flow will be estimated
using sidestream darkfield imaging (SDF) in sublingual position.
With human aging, there is a gradual but progressive decline in skeletal muscle tissue, also
known as sarcopenia . Sarcopenia is accompanied by a reduced physical performance, the loss
of functional capacity, increased risk of falling and increased likelihood of developing
chronic metabolic diseases, such as type 2 diabetes and obesity. Eventually this also
results in increased hospitalisation and institutionalization of elderly in nursing homes,
and high health care costs. Therefore, it is important to investigate approaches to diminish
the loss of skeletal muscle mass during aging. To preserve muscle mass, protein intake is
important, because it provides the building blocks for muscle tissue: amino acids. Since
basal muscle protein synthesis rates do not seem to differ between young and elderly,
currently many research groups focus on postprandial muscle protein synthesis. Skeletal
muscle protein synthesis has been shown to be highly dependent on protein intake. However,
recent data indicate that the muscle protein synthetic response to protein intake is
attenuated in the elderly. A blunted postprandial muscle protein synthetic response over a
prolonged period might result in diminished muscle protein accretion and could eventually
contribute to sarcopenia.
The anabolic response to protein intake appears to be mainly mediated by an elevation of
plasma essential amino acids. In addition, ingestion of carbohydrate leads to an attenuation
of muscle protein breakdown by virtue of an elevation in plasma insulin, further promoting
positive net protein balance. This is mediated by insulin's known action of increasing
muscle blood flow and thereby augmenting muscle substrate delivery, which may lead to
further stimulation of muscle protein synthesis. It has been shown that there is an insulin
resistance with respect to muscle protein anabolism in elderly compared to young subjects
during conditions of high plasma amino acid and insulin availability. This suggests that the
reduced ability of insulin to augment muscle microvascular perfusion decreases the amino
acid stimulus.
In the present study the investigators will assess the effect of a single meal-like amount
of intact protein with or without carbohydrates on post-prandial muscle protein synthesis in
the elderly (70-85 y) compared to the young (18 - 30 y). Furthermore, the investigators are
going to investigate whether the muscle protein synthetic response is associated with an
increase in the microvascular perfusion after ingestion of the meal using Sidestream Dark
Field (SDF) imaging. SDF measurements will be taken in de oral cavity underneath the tongue,
since this area is easily accessible and is representative for microvascular perfusion. To
be able to measure the effect of protein ingestion on muscle protein synthesis the
investigators will use intrinsically labelled casein. This allows us to determine the true
incorporation of amino acids from the ingested, intact casein into the muscle, taken into
account the influence of digestion and absorption processes of a whole protein.
Intrinsically labelled milk proteins were derived from milk that has been collected from
cows that were infused with L-[1-13C] phenylalanine.
The following hypotheses will be investigated:
1. The combined intake of protein and carbohydrates augments post-prandial muscle protein
synthesis in the elderly, but not in the young subjects.
2. The increased insulin production following the combined intake of protein and
carbohydrates results in an increased microvascular perfusion that is related to the
post-prandial muscle protein synthetic response.
;
Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Parallel Assignment, Masking: Double Blind (Subject, Investigator), Primary Purpose: Prevention
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