Biomarkers for Cardiovascular Disease
Status: | Completed |
---|---|
Conditions: | Peripheral Vascular Disease, Cardiology |
Therapuetic Areas: | Cardiology / Vascular Diseases |
Healthy: | No |
Age Range: | 21 - Any |
Updated: | 4/21/2016 |
Start Date: | April 2005 |
End Date: | April 2009 |
Nitrite as a Marker of Cardiovascular Risk; Development of Novel Biomarkers in Patients With Coronary Artery Disease
Biomarkers for Cardiovascular Disease
Summary: This study will examine the function of the lining cells of blood vessels and
measure substances in the blood to see how they relate to various blood tests, including new
tests under development to determine cardiovascular disease risk. Nitric oxide is a molecule
produced by healthy blood vessels that helps keep them relaxed. Nitrate is a substance
formed from nitric oxide in the blood. The release of nitric oxide by blood vessels is
reduced in patients with coronary artery disease, compared with healthy people. Also, blood
nitrite levels rise in some of these patients. Other substances in the blood and urine also
change with risk for heart disease. This study will measure nitrite levels and other
inflammatory substances in the blood and urine.
Healthy volunteers, people with various risk factors for heart disease, and people with
blockage of one or more major heart arteries or a history of heart attack may be eligible
for this study. Candidates must be 21 years of age or older. People who have an irregular
heart rhythm or who cannot take oral nitrates are excluded.
Participants undergo the following tests and procedures:
- Blood tests: Samples are drawn three times for routine tests and to look for certain
proteins that may affect the heart. Samples are collected once before any other tests,
once before starting the exercise stress test (see below) and again after the stress
test.
- Urine test: A sample may be tested for proteins in the urine and for other research
studies.
- Brachial artery reactivity study: This ultrasound study tests how well a person's
arteries widen. The subject rests on a bed. An ultrasound measuring device is placed
over the artery just above the elbow. The size of the artery and blood flow through it
are measured before and after inflating a pressure cuff around the forearm. The
pressure cuff stops the flow of blood to the arm for 5 minutes and then is released
while more ultrasound pictures are taken. After the subject rests, a nitroglycerin
tablet (medicine that causes blood vessels to relax) is placed under the tongue. After
the nitroglycerin is given, the size of the artery and blood flow through it are
measured again. After a rest period, the study will be repeated in the healthy
volunteers and first 20 patients with heart disease.
- Echocardiography (heart ultrasound): This test involves holding a small probe against
the chest to use sound waves for obtaining pictures of the heart. A small catheter
(plastic tube) may be placed in a vein to inject a contrast agent that enhances the
pictures.
- Metabolic stress testing: Subjects will be asked to breathe in and out of a mask while
baseline measurements are taken. Then they exercise on a treadmill while wearing a
breathing mask. This test shows how much oxygen the body uses at rest and with
exercise.
- Genetic testing (optional): A blood sample is collected to examine DNA - genetic
material that determines inherited traits and contains information about body proteins.
Some parts of DNA may be used as markers of the level of damage produced by oxygen
by-products that may reflect the extent of heart disease in patients. Also, gene
variations may make an individual more likely to develop a heart problem. Such markers
may guide doctors in predicting how fast the disease will progress or may help find a
new type of drug to prevent disease.
- Time requirements: This study is expected to take approximately 5-6 hours for
completion within one or two days.
- Follow-up: Patients are contacted by phone every 6 months for information on chest
pain, surgical procedures related to the heart, and hospitalizations.
Summary: This study will examine the function of the lining cells of blood vessels and
measure substances in the blood to see how they relate to various blood tests, including new
tests under development to determine cardiovascular disease risk. Nitric oxide is a molecule
produced by healthy blood vessels that helps keep them relaxed. Nitrate is a substance
formed from nitric oxide in the blood. The release of nitric oxide by blood vessels is
reduced in patients with coronary artery disease, compared with healthy people. Also, blood
nitrite levels rise in some of these patients. Other substances in the blood and urine also
change with risk for heart disease. This study will measure nitrite levels and other
inflammatory substances in the blood and urine.
Healthy volunteers, people with various risk factors for heart disease, and people with
blockage of one or more major heart arteries or a history of heart attack may be eligible
for this study. Candidates must be 21 years of age or older. People who have an irregular
heart rhythm or who cannot take oral nitrates are excluded.
Participants undergo the following tests and procedures:
- Blood tests: Samples are drawn three times for routine tests and to look for certain
proteins that may affect the heart. Samples are collected once before any other tests,
once before starting the exercise stress test (see below) and again after the stress
test.
- Urine test: A sample may be tested for proteins in the urine and for other research
studies.
- Brachial artery reactivity study: This ultrasound study tests how well a person's
arteries widen. The subject rests on a bed. An ultrasound measuring device is placed
over the artery just above the elbow. The size of the artery and blood flow through it
are measured before and after inflating a pressure cuff around the forearm. The
pressure cuff stops the flow of blood to the arm for 5 minutes and then is released
while more ultrasound pictures are taken. After the subject rests, a nitroglycerin
tablet (medicine that causes blood vessels to relax) is placed under the tongue. After
the nitroglycerin is given, the size of the artery and blood flow through it are
measured again. After a rest period, the study will be repeated in the healthy
volunteers and first 20 patients with heart disease.
- Echocardiography (heart ultrasound): This test involves holding a small probe against
the chest to use sound waves for obtaining pictures of the heart. A small catheter
(plastic tube) may be placed in a vein to inject a contrast agent that enhances the
pictures.
- Metabolic stress testing: Subjects will be asked to breathe in and out of a mask while
baseline measurements are taken. Then they exercise on a treadmill while wearing a
breathing mask. This test shows how much oxygen the body uses at rest and with
exercise.
- Genetic testing (optional): A blood sample is collected to examine DNA - genetic
material that determines inherited traits and contains information about body proteins.
Some parts of DNA may be used as markers of the level of damage produced by oxygen
by-products that may reflect the extent of heart disease in patients. Also, gene
variations may make an individual more likely to develop a heart problem. Such markers
may guide doctors in predicting how fast the disease will progress or may help find a
new type of drug to prevent disease.
- Time requirements: This study is expected to take approximately 5-6 hours for
completion within one or two days.
- Follow-up: Patients are contacted by phone every 6 months for information on chest
pain, surgical procedures related to the heart, and hospitalizations.
Cardiovascular events are a major cause of morbidity and mortality world-wide and
traditional risk factor assessment is limited in its ability to predict which patients will
have an event. The endothelium is known to play a central role in vascular homeostasis and
nitric oxide (NO) is believed to be the main component responsible for normal endothelial
function. Increasing evidence suggests that oxidative stress leading to reduced NO
bioavailability and subsequent endothelial dysfunction is an important factor in the
progression of vascular diseases. Further investigation of NO metabolites in blood may
provide insight into the mechanisms of endothelial dysfunction and disease progression.
Preliminary data suggest that although plasma nitrite levels are decreased in CAD patients
and correlate with endothelial dysfunction, the nitrite within red blood cells and whole
blood is compensatorily increased. Since this new measure is more reproducible and
convenient to measure, it may serve as a biomarker of endothelial dysfunction. A prospective
study of nitrite and other novel NO-based assays, proteomics, and current biomarkers linked
to endothelial function phenotype will allow further investigation into the pathophysiology
of endothelial dysfunction and permit development of future markers of atherothrombosis.
traditional risk factor assessment is limited in its ability to predict which patients will
have an event. The endothelium is known to play a central role in vascular homeostasis and
nitric oxide (NO) is believed to be the main component responsible for normal endothelial
function. Increasing evidence suggests that oxidative stress leading to reduced NO
bioavailability and subsequent endothelial dysfunction is an important factor in the
progression of vascular diseases. Further investigation of NO metabolites in blood may
provide insight into the mechanisms of endothelial dysfunction and disease progression.
Preliminary data suggest that although plasma nitrite levels are decreased in CAD patients
and correlate with endothelial dysfunction, the nitrite within red blood cells and whole
blood is compensatorily increased. Since this new measure is more reproducible and
convenient to measure, it may serve as a biomarker of endothelial dysfunction. A prospective
study of nitrite and other novel NO-based assays, proteomics, and current biomarkers linked
to endothelial function phenotype will allow further investigation into the pathophysiology
of endothelial dysfunction and permit development of future markers of atherothrombosis.
- INCLUSION CRITERIA
Adults older than 21, of both sexes:
The initial study group will consist of 120 subjects, which will consist of 100 subjects
with documented CAD (by cardiac catheterization showing greater than or equal to 70%
stenosis in an epicardial vessel), previously documented MI (based on ECG or cardiac
enzymes) or CAD risk equivalents (diabetes, peripheral vascular disease, abdominal aortic
aneurysm, symptomatic carotid disease, or multiple risk factors that confer a 10 year risk
of greater than 20% as defined by the Framingham Risk Score) and 20 healthy age- and
sex-matched controls.
Written informed consent.
EXCLUSION CRITERIA
Atrial fibrillation
Any contraindications to oral nitrates
Hypotension, bradycardia.
Myocardial infarction within the prior 30 days
Symptoms of acute CHF
Pregnant women
Receiving active treatment for cancer
Any other condition that may interfere with the interpretation of the study results or not
be in the best interest of the subject in the opinion of the investigator.
Since oral nitrate therapy is known to affect serum and possibly whole blood nitrite
levels, we will exclude patients on long-acting nitrates for the initial group of 100
cardiac patients. Those patients on chronic nitrate therapy will subsequently be included
in the later portion of the study but will be analyzed separately.
We found this trial at
1
site
9000 Rockville Pike
Bethesda, Maryland 20892
Bethesda, Maryland 20892
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