Quantification of water compartmentation in cell suspensions by diffusion-weighted and T2-weighted MRI

## Abstract ## Purpose: To evaluate the diagnostic ability of diffusion‐weighted imaging (DWI) and dynamic contrast‐enhanced imaging (DCEI) in combination with T2‐weighted imaging (T2WI) for the detection of prostate cancer using 3 T magnetic resonance imaging (MRI) with a phased‐array body coil.

An NMR method is presented for measuring compartmentspecific water diffusion coefficient (D) values. It uses relaxography, employing an extracellular contrast reagent (CR) to distinguish intracellular (IC) and extracellular (EC) 1 H 2 O signals by differences in their respective longitudinal (T 1 )

## Abstract Diffusion‐weighted MR images were compared with T2‐weighted MR images and correlated with ^1^H spin‐echo and ^31^P MR Spectroscopy for 6‐8 h following a unilateral middle cerebral and bilateral carotid artery occlusion in eight cats. Diffusion‐weighted images using strong gradient stren

## Abstract The sensitivity of diffusion‐weighted MRI was compared to that of T2‐weighted MRI following temporary middle cerebral artery occlusion (MCA‐0) for 33 min followed by 4 h of reperfusion in rats. Diffusion‐weighted spin‐echo images using strong gradients (__b__ value of 1413 s/mm^2^) demo

## Abstract To clarify the result that marked diffusional anisotropy had been found in nonmyelinated nerve, and in completion of an evaluation of the role of all longitudinal axonal structures, we report NMR measurements of water diffusion in the giant axon of the squid, where diffusional anisotrop