Improved reproducibility for myocardial ASL: Impact of physiological and acquisition parameters.

Abstract

To investigate and mitigate the influence of physiological and acquisition-related parameters on myocardial blood flow (MBF) measurements obtained with myocardial Arterial Spin Labeling (myoASL). A Flow-sensitive Alternating Inversion Recovery (FAIR) myoASL sequence with bSSFP and spoiled GRE (spGRE) readout is investigated for MBF quantification. Bloch-equation simulations and phantom experiments were performed to evaluate how variations in acquisition flip angle (FA), acquisition matrix size (AMS), heart rate (HR) and blood relaxation time ( ) affect quantification of myoASL-MBF. In vivo myoASL-images were acquired in nine healthy subjects. A corrected MBF quantification approach was proposed based on subject-specific values and, for spGRE imaging, subtracting an additional saturation-prepared baseline from the original baseline signal. Simulated and phantom experiments showed a strong dependence on AMS and FA ( >0.73), which was eliminated in simulations and alleviated in phantom experiments using the proposed saturation-baseline correction in spGRE. Only a very mild HR dependence ( >0.59) was observed which was reduced when calculating MBF with individual . For corrected spGRE, in vivo mean global spGRE-MBF ranged from 0.54 to 2.59mL/g/min and was in agreement with previously reported values. Compared to uncorrected spGRE, the intra-subject variability within a measurement (0.60mL/g/min), between measurements (0.45mL/g/min), as well as the inter-subject variability (1.29mL/g/min) were improved by up to 40% and were comparable with conventional bSSFP. Our results show that physiological and acquisition-related factors can lead to spurious changes in myoASL-MBF if not accounted for. Using individual and a saturation-baseline can reduce these variations in spGRE and improve reproducibility of FAIR-myoASL against acquisition parameters.