Abstract
Loss of tissue coherency in brain white matter is found in many neurological diseases such as multiple sclerosis (MS). While several approaches have been proposed to evaluate white matter coherency including fractional anisotropy and fiber tracking in diffusion-weighted imaging, few are available for standard magnetic resonance imaging (MRI). Here we present an image post-processing method for this purpose based on Fourier transform (FT) power spectrum. T2-weighted images were collected from 19 patients (10 relapsing-remitting and 9 secondary progressive MS) and 19 age- and gender-matched controls. Image processing steps included: computation, normalization, and thresholding of FT power spectrum; determination of tissue alignment profile and dominant alignment direction; and calculation of alignment complexity using a new measure named angular entropy. To test the validity of this method, we used a highly organized brain white matter structure, corpus callosum. Six regions of interest were examined from the left, central and right aspects of both genu and splenium. We found that the dominant orientation of each ROI derived from our method was significantly correlated with the predicted directions based on anatomy. There was greater angular entropy in patients than controls, and a trend to be greater in secondary progressive MS patients. These findings suggest that it is possible to detect tissue alignment and anisotropy using traditional MRI, which are routinely acquired in clinical practice. Analysis of FT power spectrum may become a new approach for advancing the evaluation and management of patients with MS and similar disorders. Further confirmation is warranted.
Highlights
The alignment and integrity of nerve fibers are associated with the conducting efficiency of nerve signals in the brain
24 regions of interest (ROIs) were excluded from patients due to excessive tissue atrophy; most of these regions were located in the left (4) and right (4) genu of secondary progressive MS (SPMS) patients
We have shown that it is possible to characterize the alignment of white matter tracks using clinical magnetic resonance imaging (MRI) through quantitative analysis of the Fourier transform (FT) power spectrum
Summary
The alignment and integrity of nerve fibers are associated with the conducting efficiency of nerve signals in the brain. In many neurological diseases such as multiple sclerosis (MS), the usual coherency of nerve fibers is disrupted following tissue injury. This disruption is shown to occur in focal plaques of MS, and in the normal appearing white matter (NAWM) [1], leading to paramount functional impairments in patients [2]. Tissue alignment and standard MRI analysis, decision to publish, or preparation of the manuscript
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