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Quantification of myocardial blood flow with 82Rb dynamic PET imaging
Authors:Mireille Lortie  Rob S. B. Beanlands  Keiichiro Yoshinaga  Ran Klein  Jean N. DaSilva  Robert A. deKemp
Affiliation:(1) Cardiac PET Centre, University of Ottawa Heart Institute, 40 Ruskin St., Ottawa, ON, K1Y 4W7, Canada
Abstract:Purpose The PET tracer 82Rb is commonly used to evaluate regional perfusion defects for the diagnosis of coronary artery disease. There is limited information on the quantification of myocardial blood flow and flow reserve with this tracer. The goal of this study was to investigate the use of a one-compartment model of 82Rb kinetics for the quantification of myocardial blood flow. Methods Fourteen healthy volunteers underwent rest and dipyridamole stress imaging with both 13N-ammonia and 82Rb within a 2-week interval. Myocardial blood flow was estimated from the time-activity curves measured with 13N-ammonia using a standard two-compartment model. The uptake parameter of the one-compartment model was estimated from the time-activity curves measured with 82Rb. To describe the relationship between myocardial blood flow and the uptake parameter, a nonlinear extraction function was fitted to the data. This function was then used to convert estimates of the uptake parameter to flow estimates. The extraction function was validated with an independent data set obtained from 13 subjects with documented evidence of coronary artery disease (CAD). Results The one-compartment model described 82Rb kinetics very well (median R-square = 0.98). The flow estimates obtained with 82Rb were well correlated with those obtained with 13N-ammonia (r = 0.85), and the best-fit line did not differ significantly from the identity line. Data obtained from the subjects with CAD confirmed the validity of the estimated extraction function. Conclusion It is possible to obtain accurate estimates of myocardial blood flow and flow reserve with a one-compartment model of 82Rb kinetics and a nonlinear extraction function.
Keywords:Myocardial blood flow  Perfusion  Rubidium-82  Tracer kinetic modeling  PET
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