Analytical expressions for the NMR apparent diffusion coefficients in an anisotropic system and a simplified method for determining fiber orientation

Analytical expressions for the NMR apparent diffusion coefficients in an anisotropic system and a simplified method for determining fiber orientation

NMR measurements of anisotropic diffusion were studied using a three-dimensional random-walk model. It was found that the apparent diffusion coefficient can be expressed in a canonical form as the product of a diagonal matrix, an orthonormal rotation matrix, and a vector representing the encoding ma...

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Bibliographic Details
Published in:Magnetic resonance in medicine Vol. 34; no. 2; p. 194
Main Authors: Hsu, E W, Mori, S
Format: Journal Article
Language:English
Published: United States 01-08-1995
Subjects:
Algorithms
Animals
Chickens
Diffusion
Gastric Mucosa - metabolism
Magnetic Resonance Spectroscopy - methods
Models, Theoretical
Muscle Fibers, Skeletal - metabolism
Muscle Fibers, Skeletal - ultrastructure
Reproducibility of Results
Rotation
Stomach - ultrastructure
Water - metabolism
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Summary:NMR measurements of anisotropic diffusion were studied using a three-dimensional random-walk model. It was found that the apparent diffusion coefficient can be expressed in a canonical form as the product of a diagonal matrix, an orthonormal rotation matrix, and a vector representing the encoding magnetic field gradient. The diffusion coefficient can be interpreted as the sum of the corresponding coefficients measured along the principal diffusion axes, weighted by the squares of the directional cosines of the encoding direction with respect to the principal axes. The analysis revealed that determining the orientation of anisotropy, in a cylindrically symmetric system, requires a minimum of four diffusion measurements. A special pulse sequence which minimized gradient cross-terms and possible restricted diffusion effects was used to characterize diffusion anisotropy in cut chicken gizzards. Diffusion coefficients parallel to the muscle fibers were found to be approximately two to three times larger than those in the transverse direction. Furthermore, the method was successful in detecting the angular change when the sample was rotated by 30 degrees. Results indicate that the proposed approach to measure fiber orientation is valid and may be used to improve the time efficiency of diffusion anisotropy measurements.
ISSN:0740-3194
DOI:10.1002/mrm.1910340210