Diffusion in Compartmental Systems. I. A Comparison of an Analytical Model with Simulations

Overview

Journal Magn Reson Med

Publisher Wiley

Specialty Radiology

Date 2003 Aug 27

PMID 12939757

Citations 29

Authors

Christian Meier

Wolfgang Dreher

Dieter Leibfritz

Affiliations

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Abstract

This article examines the way in which microscopic tissue parameters affect the signal attenuation of diffusion-weighted MR experiments. The influence of transmembrane water flux on the signal decay is emphasized using the Kärger equations, which are modified with respect to the cellular boundary restrictions for intra- and extracellular diffusion. This analytical approach is extensively compared to Monte-Carlo simulations for a tissue model consisting of two compartments. It is shown that diffusion-weighted MR methods provide a unique tool for estimation of the intracellular exchange time. Restrictions of applicability to in vivo data are examined. It is shown that the intracellular exchange time strongly depends on the size of a cell, leading to an apparent diffusion time dependence for in vivo data. Hence, an analytical model of a two-compartment system with an averaged exchange time is inadequate for the interpretation of signal curves measured in vivo over large ranges of b-values. Furthermore, differences of multiexponential signal curves, as obtained by different methods of diffusion weighting, can be explained by the influence of transmembrane water flux.

Citing Articles

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Diffusion MRI with pulsed and free gradient waveforms: Effects of restricted diffusion and exchange.

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Improving MR cell size imaging by inclusion of transcytolemmal water exchange.

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Neurite Exchange Imaging (NEXI): A minimal model of diffusion in gray matter with inter-compartment water exchange.

Jelescu I, de Skowronski A, Geffroy F, Palombo M, Novikov D Neuroimage. 2022; 256:119277.

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Diffusion time dependence, power-law scaling, and exchange in gray matter.

Olesen J, Ostergaard L, Shemesh N, Jespersen S Neuroimage. 2022; 251:118976.

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