A new approach to efficient localized diffusion measurements has been developed and evaluated on phantoms and isolated tissues. The combination of a diffusion-sensitive pulse sequence with SLIM (spectral localization by imaging) makes efficient and accurate localized water and metabolite diffusion measurements possible with a substantial improvement in spatial or time resolution compared to standard methods. Phantom experiments showed that diffusion of substances present in relatively low concentration within small compartments can be measured accurately by this method, suggesting potential applications for diffusion measurements of metabolites in vivo. Experiments on excised rat uterine horns demonstrated the ability of this method to measure localized diffusion of water within irregularly shaped regions of biological samples. Accurate diffusion measurements were achieved in the localized regions with acquisition times less than would have been required by standard diffusion imaging methods.
Copyright 1997 Academic Press.