Coronary Artery Disease Clinical Trial
Official title:
PET/CT for the Quantification of Atherosclerotic Plaque Inflammation in Patients With Coronary Heart Disease: The QAEK Trial
This is a single-centre prospective trial with 140 patients employing
[18F]-fluorodeoxyglucose positron emission computed tomography (FDG PET/CT) and advance
motion correction and image fusion algorithms to create motion frozen displays and quantify
FDG-uptake and thus inflammatory activity in atherosclerotic plaques in the coronary tree.
Four groups of patients, two with stable coronary artery disease and two with acute coronary
syndrome will be compared and the results of FDG PET/CT will be correlated to results of
invasive coronary angiography, intravascular ultrasound / virtual histology, patient risk
profile and serum markers of inflammation.
The investigators hypothesize that increased FDG accumulation in atherosclerotic plaques
shows a positive correlation with inflammatory activity in coronary plaques and markers of
plaque vulnerability as well as the risk profile of the patients and serum markers of
inflammation. The investigators furthermore hypothesize that FDG PET/CT is able to detect
high risk patients and provide an important means for risk stratification and optimization
of patient management.
Currently there are only morphological reference standards to detect vulnerable coronary
plaques. However, inflammatory activity and plaque composition predict future cardiovascular
events. Thus the aims and objectives of the study are the following:
1. Inflammatory activity of the coronary arteries and the great peripheral arteries shall
be detected and quantified by means of FDG PET/CT hybrid imaging.
2. We aim to develop "motion frozen displays" of the heart and coronary arteries by means
of ECG- and respiratory triggering of myocardial motion to reduce motion artifacts.
3. We aim to compare the coronary FDG uptake of patients with known stable CAD to the
coronary FDG uptake of patients with acute coronary syndrome.
4. We aim to correlate coronary PET/CT with intravascular ultrasound (IVUS) / virtual
histology (VH), which will be carried out during coronary angiography and provides the
gold standard to characterize plaque composition.
5. Correlation of the inflammatory activity as measured by PET with the risk profile of
the patients, blood coagulability and inflammatory and plaque-associated serum markers
to establish a valid risk stratification.
6. Follow-up of the patients over at least one year to detect cardiovascular events.
Study Design
This is a prospective single-center study to evaluate coronary FDG PET/CT under controlled
and standardized conditions. The study was approved by the local ethical committee as well
as the German Federal Authority for Radiation Protection (Bundesamt für Strahlenschutz). All
examinations will be performed at the University Hospital of the LMU in Munich. The study is
in accordance with the Declaration of Helsinki, all patients provide informed written
consent.
We plan to image four study populations with a high risk for inflammatory atherosclerosis or
plaque rupture: two groups consist of patients with stable coronary disease and two groups
consist of patients with acute coronary syndrome (Figure 1).
In the following, these groups will be described in more detail.
Patients with acute coronary syndrome Group 1: Patients with acute cardiovascular event and
typical aberrations in the ECG (STEMI) and positive serum markers need to be stabilized
immediately, thus they are not eligible for IVUS. However, by means of ICA the "culprit
lesion" can be identified. 48 to 72 hours after the event the stable patients will receive
FDG PET/CT to detect morphology and inflammation of the culprit lesion as well as further
vulnerable plaques that might need intervention. PET/CT results will be correlated with
results of ICA.
Group 2: Patients with acute coronary syndrome without typical aberrations in the ECG
(NSTEMI) or without positive serum markers need to be stabilized immediately. In a second
step ICA and IVUS / VH will be performed. 48 to 72 hours after the event the stable patients
will receive FDG PET/CT to detect morphology and inflammation of the culprit lesion as well
as further vulnerable plaques that might need intervention. PET/CT results will be
correlated with results of ICA and IVUS / VH.
Patients with stable CAD Group 3: Symptomatic patients with stable CAD, who are eligible for
ICA will receive and additional FDG PET/CT scan as well as IVUS / VH. Results will be
correlated.
Group 4: Patients eligible for ICA 6 months after STEMI and revascularization will receive
IVUS / VH and FDG PET/CT. Results will be correlated with regard to the former culprit
lesion as well as further coronary lesions that might be present.
Summary of working hypotheses
Hypothesis 1 (technique) By means of FDG PET/CT the radiotracer uptake in the coronary
arteries can be allocated to specific lesions and quantified with the aid of appropriate
techniques for motion correction and three-dimensional image fusion.
Hypothesis 2 (association of FDG-uptake and extent of the disease) The coronary FDG-uptake
of patients with stable CAD is significantly lower than the coronary FDG-uptake of patients
with acute coronary syndrome.
Hypothesis 3 (correlation between IVUS/VH and FDG-uptake) Plaques with typical signs of
vulnerability in IVUS/VH show a significantly increased FDG-uptake as a surrogate marker of
inflammatory activity.
Hypothesis 4 (association of FDG-uptake and risk profile / serum markers) Coronary
FDG-uptake shows a positive correlation with increasing risk profile (Framingham Score) and
serum markers for plaque vulnerability and inflammatory reactions.
Hypothesis 5 (association of FDG-uptake and cardiovascular events) Increased coronary
FDG-uptake and increased uptake in the peripheral vessels are associated with cardiovascular
and cerebrovascular events over the course of one year.
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Observational Model: Cohort, Time Perspective: Prospective
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