The heart’s dynamic, bimodal response to myocardial infarction warrants longitudinal study designs to better understand the interplay between perfusion deficits, metabolic processes and function. To this end, a longitudinal study over 12 weeks was set up to probe myocardial metabolism post-infarction in an infarct pig model using hyperpolarized [13C]-pyruvate. Image acquisition was optimized for improved spatial and temporal image fidelity based on spectrally-selective excitation and EPI readouts. Initial results demonstrate good agreement with supplementary gadolinium enhanced imaging and indicate a temporal metabolic shift towards increased lactate-to-bicarbonate ratios in the lesion territory caused by cardiac infarction.
This abstract and the presentation materials are available to members only; a login is required.