Respiratory Failure Clinical Trial
Official title:
The Effect of Thiamine vs. Placebo on VO2 in Critical Illness
The objective of this study is to determine the effect of thiamine therapy on oxygen consumption (VO2) in critically-ill patients. We will evaluate this by measuring VO2 before and after thiamine or placebo administration in patients admitted to the ICU and requiring mechanical ventilation. A secondary aim is to evaluate the effect of thiamine vs. placebo on the metabolic profile of the patients.
Extensive research has been done over the past two decades looking at the role of oxygen
delivery (DO2) and oxygen utilization (VO2) in critical illness. VO2 depends on cardiac
output, arterial oxygen content, and the body's ability to extract oxygen effectively from
the blood. Oxygen demand rises in critical illness as the body goes into a catabolic state,
and lower VO2 has been associated with higher lactate levels and with poorer outcomes.
Although increasing DO2 was shown in past studies to raise VO2 in some patients, other
investigators have found that many critically-ill patients failed to demonstrate a rise in
VO2 in spite of achieving supranormal values of cardiac index (CI) and DO2. This group, in
contrast to patients whose VO2 rose with the increase in CI and DO2, had exceedingly poor
outcomes, suggesting that an inability to extract oxygen from the blood confers a poorer
prognosis.
Thiamine deficiency can manifest in several ways, but the syndrome of wet beriberi, caused by
thiamine deficiency, includes lactic acidosis, cardiac decompensation and vasodilatory shock,
similar to sepsis and other forms of critical illness. The mechanism by which thiamine
deficiency causes dysfunction rests upon the vitamin's essential role in the Krebs cycle and
Pentose Phosphate Pathway. Lack of adequate thiamine results in the failure of pyruvate to
enter the Krebs Cycle, thus preventing aerobic metabolism. The resulting decrease in aerobic
metabolism and increase in anaerobic metabolism leads to decreased oxygen consumption by the
tissues and increased lactic acid production.
Our group has found previously that upwards of 20% of critically ill patients with sepsis are
thiamine deficient within 72 hours of presentation. In a dog model of septic shock,
Lindenbaum et al have shown that, regardless of thiamine levels, supplementation with
thiamine improved not only lactate clearance and mean arterial pressure, but increased VO2 as
well. An increase in VO2 max after administration of thiamine to healthy volunteers has also
been described. In our prior open-label study, we found that the administration of a single
dose of 200mg of intravenous thiamine to critically ill patients led to a statistically
significant increase in VO2 in those with normal or elevated cardiac output, suggesting that
thiamine may increase the extraction component of VO2, even in the absence of absolute
thiamine deficiency. This effect was not seen in patients with low cardiac output.
VO2 is known to rise in inflammatory states, reflecting increased energy expenditure. Prior
studies have shown that VO2 will decrease with interventions such as fever control. In spite
of VO2 being higher than normal in critically-ill patients, however, the end-organ damage and
lactic acidosis suggest that it is not high enough to meet the metabolic demands of the
critically-ill body. If we are able to increase VO2 further in critically-ill patients, we
could potentially help maintain aerobic metabolism and decrease tissue hypoxia and the
resulting end-organ damage. Our hypothesis is that administering thiamine intravenously to
critically-ill patients who do not have abnormally low cardiac index will increase VO2.
We will use an anesthesia monitor with a gas exchange module to measure VO2 continuously over
a 9 hour period. After 3 hours of baseline VO2 data are collected, baseline thiamine level,
lactate, and central venous O2 saturation will be obtained. A single dose of 200mg of IV
thiamine will then be given, and 6 hours of post-thiamine data will then be collected. We
will screen all consenting patients for whom we do not know the cardiac index with a
non-invasive cardiac index measurement using the Cheetah non-invasive cardiac output monitor
(NICOM). We will not include patients with a cardiac index less than or equal to 2.4L/min/m2,
due to our preliminary data showing these patients did not increase VO2 in response to
thiamine. All patients enrolled will have cardiac index monitored continuously during the
study by the NICOM, in order to assess whether or not there is any relationship between VO2
and cardiac index. Patients will also have blood drawn for a metabolomic panel before and
after thiamine or placebo to assess whether thiamine has an effect on the metabolome.
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