Perfusion and diffusion imaging

## Abstract Diffusion‐weighted images of the rat brain were obtained using the pulsed‐gradient spinecho method. An attempt was made to extract perfusion‐related parameters from signal intensity data taken from the caudate‐putamen region of the images, by using a nonlinear least‐squares calculation

## Abstract Use of the Stejskal‐Tanner sequence for performing diffusion images in the human brain tends to be complicated by the presence of artifacts caused by voluntary or involuntary, sometimes pulsatile, motion. We describe the implementation of the technique of echo‐planar diffusion imaging,

Diffusion and perfusion phenomena under strong gradient fields (approximately 100 G/cm) are examined in high resolution nuclear magnetic resonance (NMR) imaging and microscopy, where diffusion-associated signal attenuation predominates over T1 and T2 relaxation decays. Image contrast based on the di

## Abstract __In vivo__ echo‐planar MR imaging was used to measure apparent diffusion coefficients (ADC) of cerebral tissues in a comprehensive noninvasive evaluation of early ischemic brain damage induced by occlusion of the middle cerebral artery (MCA) in a cat model of acute regional stroke. Wit