Regional reproducibility of pulsed arterial spin labeling perfusion imaging at 3T

## Abstract Functional perfusion imaging with a separate labeling coil located above the common carotid artery was demonstrated in human volunteers at 3 T. A helmet resonator and a spin‐echo echo‐planar imaging (EPI) sequence were used for imaging, and a circular surface coil of 6 cm i.d. was emplo

## Abstract A method is presented for multislice measurements of quantitative cerebral perfusion based on magnetic labeling of arterial spins. The method combines a pulsed arterial inversion, known as the FAIR (Flow‐sensitive Alternating Inversion Recovery) experiment, with a fast spiral scan image

## Abstract Regional perfusion imaging (RPI) based on pulsed arterial spin labeling and angulated inversion slabs has been recently proposed. The technique allows mapping of individual brain perfusion territories of the major feeding arteries and could become a valuable clinical tool for evaluation

## Abstract This study compares the implementation of the STAR and FAIR pulsed arterial spin labeling (PASL) schemes to form quantitative perfusion maps at ultra‐high field, 7 Tesla (T), and high field, 3T. Phantom experiments were performed to compare the inversion efficiency and profile of the la