Healthy Clinical Trial
Official title:
The Efficacy of L-arginine in Preventing Early Morning Endothelial Dysfunction
Acute cardiac and vascular events, like heart attack and sudden cardiac death manifest a
clear surge in the early morning hours around the time of waking, so that their peak onset
is between 6AM and 11AM. The mechanisms are not fully understood, but we had shown that
healthy subjects have impaired vascular reactivity in the early morning (endothelial
dysfunction). This is associated with a decrease in nitric oxide levels (a substance that
promotes vasodilatation). We also have described that vessel reactivity and the levels of
this substance can recover by noon only when people breakfast.
L-arginine is a semi-essential amino acid found in large quantities in chicken, in fish, and
beans and is the substrate for the production of nitric oxide Therefore we want to test if
there is a beneficial effect of administration of L-arginine on the circadian pattern of
vessel reactivity. Our goal is to understand why cardiovascular events are more likely to
happen in the early morning and how to prevent.
The research will help us to understand the efficacy, acute effects and tolerability of high
doses of L-arginine. This can lead to future research to assess long term effects of
L-arginine supplements to prevent cardiovascular events in the early morning hours.
Acute cardiac and vascular events, including sudden cardiac death, myocardial infarction,
and stroke manifest a clear surge in the early morning hours around the time of waking, so
that their peak onset is between 6 AM and 11AM. The mechanisms for this morning increase in
acute cardiovascular events are not fully understood. Factors such as arousal from sleep,
increased sympathetic drive, increased vasoconstrictor sensitivity and impaired endothelial
function have been implicated.
We recently described the occurrence of early morning endothelial dysfunction, with blunted
flow-mediated arterial dilatation in the early hours after waking. Our preliminary data
suggest that this early morning endothelial dysfunction is likely due to an increased plasma
levels of L-arginine endogenous inhibitor, ADMA and reducted plasma L-arginine levels, with
consequent reduced availability of NO in the morning. The early morning fall in NOx levels
can be potentiated by fasting and attenuated by a low-nitrate, protein rich breakfast.
Because the production of NO depends in part on the availability of L-arginine, methods to
maintain an adequate level of plasma L-arginine in the early morning are needed. We propose
to assess the efficacy of high doses of L-arginine in preventing early morning endothelial
dysfunction.
The primary aim is to examine the effects of high doses of L-arginine on morning changes in
nitric oxide and endothelial function. Our hypotheses are:
1. That L-arginine administered orally prior to sleep will prevent the early morning decline
in plasma levels of L-arginine and nitric oxide; 2. That L-arginine administered prior to
sleep will attenuate or prevent the early morning decline in endothelial function; and 3.
That the effects of L-arginine, taken prior to sleep, on plasma levels of L-arginine and
nitric oxide and on endothelial function will be more marked with 15 grams of L-arginine
versus 5 grams of L-arginine or placebo, indicative of a dose response effect.
Our secondary aim is to identify the short-term tolerability and safety of two different
doses of L-arginine. Our hypothesis is that subjects taking high doses of L-arginine (15
grams) will not have significant symptoms or adverse changes in vital signs.
;
Observational Model: Case-Crossover, Time Perspective: Cross-Sectional
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