Hypertension, Pulmonary Clinical Trial
Official title:
Carbon Monoxide Therapy for Severe Pulmonary Arterial Hypertension
The purpose of this study is to examine the potential of carbon monoxide (CO) to decrease
elevated blood pressure in the pulmonary artery. This symptom is seen in patients with
pulmonary arterial hypertension, a rare disease that causes fatigue, dizziness, and
shortness of breath because the blood vessels that supply the lungs narrow, forcing the
heart to work harder to push blood through. Previous studies in the laboratory have shown
that carbon monoxide has promise in treating these symptoms.
Subjects in this study are being asked to undergo a new type of treatment to improve
pulmonary arterial hypertension by breathing CO gas. CO is a colorless, tasteless, odorless
gas usually found in car exhaust or cigarette smoke. It is administered with a continuous
flow of air. Subjects will undergo a screening process during which it will be determined if
they are eligible for the study. After the screening process, if subjects meet eligibility
criteria for the study, they will begin carbon monoxide treatment through a cushioned mask
that is placed over the nose and mouth. This treatment will last for sixteen weeks.
Pulmonary arterial hypertension (PAH) remains an uncommon debilitating and fatal disease,
and is clinically marked by a progressive increase in pulmonary vascular resistance leading
to right heart failure and ultimately death. Currently the treatment options available for
those suffering from PAH target cellular dysfunction that leads to constriction of the
vasculature. Although there is some evidence that available therapies have secondary effects
on vascular remodeling there are currently no therapies that target abnormal cell
proliferation in PAH.
Carbon monoxide (CO) is a gaseous molecule with known toxicity and lethality to living
organisms when exposed to high concentrations for sustained periods. However, CO has shown
promise in preclinical models of pulmonary hypertension. Recent studies have shown that
mammalian cells have the ability to generate endogenous CO primarily through the catalysis
of heme by the heme oxygenase enzymatic system and there is ample evidence demonstrating
that CO behaves as a signaling molecule in cellular and biological processes. Furthermore,
CO has been demonstrated to exert key physiological and protective functions in various
models of tissue inflammation and injury.
This study will evaluate the safety and potential efficacy of inhaled CO in subjects with
severe PAH. Over forty subjects with severe PAH despite best available therapy will be
screened from the UIC pulmonary vascular disease clinic, of which twenty subjects will be
recruited for participation in the trial. The trial will consist of an initial screening
period to determine subjects' eligibility for the study. This will be based on a previous
echocardiogram, a six minute walk test and right heart catheterization done as part of
standard care for subjects with pulmonary arterial hypertension. Following the initial
screening, the trial will last sixteen weeks, during which subjects will receive inhaled
carbon monoxide up to three times weekly at the University of Illinois at Chicago.
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