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This study is being done with a radioisotope, 123I-mIBG (Adreview), to develop a nuclear diagnostic imaging test for patients with decreased heart function which can be used to predict the progression of the heart disease and provide the appropriate clinical treatment. The types of patients to be studied include patients who have had a heart attack where heart muscle may be damaged and patients diagnosed with heart failure who have enlarged hearts. Both conditions may cause poor muscle contraction and disturbances in electrical signal conduction. There will also be a control group of participants with no evidence of heart disease.
123I-mIBG has been shown to be effective in assessing the areas of the heart being activated involuntarily by the sympathetic nervous system (SNS). 123I-mIBG is an iodine based radioisotope that is chemically similar to norepinephrine (NE) in the heart. NE is responsible for the way the SNS regulates heart functions such as heart rate and the force of heart contractions. NE acts automatically to maintain a homeostasis or balance within the SNS. The amount of 123I-mIBG, mimicking NE, that appears on the nuclear image using the heart-to-mediastinum ratio (H/M ratio), was predictive of the progression of heart failure, arrhythmias (irregular heartbeats) and cardiac death.
Two different types of single photon emission computed tomography (SPECT) imaging will be used: standard SPECT and cadmium-zinc-telluride (CZT) SPECT. The investigators hypothesize that CZT SPECT will have greater H/M ratios than standard SPECT imaging.
Full description
123I-mIBG (MIBG) cardiac scintigraphy can be used to assess cardiac sympathetic activity and predicts prognosis in patients with heart failure. The results of prognostic studies were validated in the AdreView Myocardial Imaging for Risk Evaluation in Heart Failure (ADMIRE-HF) trial, which was a large multi-centre prospective international study of 961 patients with NYHA Class II - III Heart Failure and LV ejection fraction > 35%2. This landmark study used planar imaging for calculation of the heart-to-mediastinal ratio (H/M) as a quantitative analysis of global uptake. The H/M on 4 hour delayed planar imaging was predictive of heart failure progression, arrhythmic events and cardiac death and provided incremental value to B-type natriuretic peptide and left ventricular (LV) ejection fraction.
In a study using quantitative MIBG SPECT, a new method for the calculation of the H/M ratio was developed, compared several reconstruction methods and demonstrated that the H/M ratio from SPECT was equivalent to the planar H/M ratio for differentiating normal participants from heart failure patients.
The ability of SPECT imaging to provide more accurate quantitative measurement of myocardial activity may also provide more accurate measurements of MIBG washout, which has been shown to be predictive of sudden cardiac death using planar imaging. SPECT imaging also can provide information about the regional distribution of MIBG, which has been demonstrated to be predictive of sudden cardiac death. Similarly, mismatch of regional MIBG uptake and perfusion reflecting deinnervation of viable tissue may identify myocardium with potential for development of ventricular arrhythmias. Thus, SPECT MIBG imaging may provide much useful prognostic information in addition to the H/M ratio.
Participants will have a single dose of the isotope and the H/M ratio will be measured using 3 types of imaging techniques with cameras and software currently used at the University of Ottawa Heart Institute:
Images will be taken at predetermined time points over a 5 hour period on the study /injection day. Participants will be monitored for any clinical changes with routine lab work and physical observations during the study.
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Inclusion criteria
For all participants:
Male or female ≥ 18 years at study entry.
Able and willing to comply with the study procedures.
Written informed consent.
Female subjects must be post-menopausal, surgically sterilized or have negative serum beta human chorionic gonadotropin pregnancy test at initial screening and maintain effective contraceptive methods throughout the trial and for 30 days following the end of dosing.
For participants with coronary artery disease and documented myocardial infarction:
Diagnosis of coronary artery disease (CAD) based on one or more of the following: documented myocardial infarction, significant obstructive CAD on invasive or computed tomography (CT) coronary angiography or abnormal stress perfusion study consistent with ischemia or scar
LV ejection fraction >40% on non-invasive imaging or invasive LV angiography.
NYHA Class 0, I or II heart failure symptoms.
For participants with nonischemic cardiomyopathy and LV ejection fraction between 30 and 40%:
Diagnosis of NYHA Class II - III heart failure. 6. No evidence of significant obstructive CAD on invasive coronary angiography or noninvasive stress imaging 7. Resting LV ejection fraction <40% on noninvasive imaging within 30 days of research cardiac MIBG imaging 8. Current stable treatment regimen of medications including a betablocker and either an ACE inhibitor or ARB unless documented to be intolerant to these classes of drugs.
Clinically stable from at least 7 days prior to enrollment to the study to the time of the cardiac MIBG imaging.
For control participants:
Low likelihood of CAD and a normal stress myocardial perfusion study or stress echocardiogram within 6 months of study entry.
No significant CAD: defined as stenosis >30% narrowing on invasive or CT coronary angiography within 6 months of study entry.
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30 participants in 1 patient group
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Data sourced from clinicaltrials.gov
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