Quantification of Resting Myocardial Blood Flow Using Rubidium⁸² Positron Emission Tomography in Regions with MRI-Confirmed Myocardial Scar

Abstract

Background: Resting myocardial blood flow (rMBF) within regions of myocardial scar as measured by positron emission tomography (PET) has not yet been assessed with the radiotracer Rubidium⁸² (Rb⁸²) or correlated with scar thickness. Cardiac magnetic resonance imaging (cMRI) offers high spatial resolution and identifies myocardial scar with late gadolinium enhancement (LGE). Using Rb⁸² PET, we sought to characterize rMBF in regions of myocardial scar of varying thicknesses determined by cMRI.
Methods/Results: Patients with a history of myocardial infarction, a resting Rb⁸² PET study and a cMRI were identified. On cMRI, regions of infarction, defined as >50% LGE with akinesis, were sub-categorized as 50–75% LGE or >75% LGE, corresponding with increasing transmural scar thickness. PET zones of infarct based on size and %LGE by cMRI were quantified for mean and minimum rMBF. Mean rMBF (cc/min/g) in infarct zones with >75% LGE was 0.32±0.07 with a minimum rMBF of 0.19±0.03. In infarct zones with 50–75% LGE, rMBF was 0.45±0.14 (50–75% vs. >75%, p=0.002).
Conclusions: We identified rMBF within cMRI confirmed regions of myocardial scar of varying thicknesses. rMBF has an inverse relationship with the extent of LGE on cMRI, with the most severe regions (>75% LGE) having mean and minimal rMBF (cc/min/g) of 0.32±0.07 and 0.19±0.03, respectively.