Modified pulsed continuous arterial spin labeling for labeling of a single artery

## Abstract ## Purpose To optimize pulsed arterial spin labeling (PASL) parameters for the elderly to take into account possible perfusion changes that occur in the brain with age. ## Materials and Methods Healthy young (__N__ = 14, age range = 21–27 years) and elderly (__N__ = 12, age range = 6

## Abstract ## Purpose: To investigate arterial spin labeling (ASL) methods for improved brain perfusion mapping. Previously, pseudo‐continuous ASL (pCASL) was developed to overcome limitations inherent with conventional continuous ASL (CASL), but the control scan (null pulse) in the original meth

## Abstract ## Purpose To study the sensitivity for detection of activation for multiple vs. single inversion time (TI) pulsed arterial spin labeling (PASL). ## Materials and Methods The number of activated voxels and the mean __t‐__statistic over activated voxels was measured by means of multip

## Abstract Continuous arterial spin labeling is known to be the most sensitive arterial spin labeling technique. To avoid magnetization transfer effects and to overcome hardware limitations, several sequences have been proposed that adiabatically label the inflowing blood. Four of these methods ar

Continuous arterial spin labeling (ASL) using a locally induced magnetic field gradient for adiabatic inversion of spins in the common carotid artery of human volunteers is demonstrated. The experimental setup consisted of a helmet resonator for imaging, a circular RF surface coil for labeling, and