Abstract
The effectivity of diffusion-weighted MRI methods in detecting the epileptogenic zone (EZ) was tested. Patients with refractory epilepsy (N=25) who subsequently underwent resective surgery were recruited. First, the extent of white matter (WM) asymmetry from mean kurtosis (MK) was calculated in order to detect the lobe with the strongest impairment. Second, a newly developed metric was used, reflecting a selection of brain areas with concurrently increased mean Diffusivity, reduced fractional Anisotropy, and reduced mean Kurtosis (iDrArK). A two-step EZ detection was performed as (1) lobe-specific detection, (2) iDrArK voxel-wise detection (with a possible lobe-specific restriction if the result of the first step was significant in a given subject). The method results were compared with the surgery resection zones. From the whole cohort (N=25), the numbers of patients with significant results were: 10 patients in lobe detection and 9 patients in EZ detection. From these subsets of patients with significant results, the impaired lobe was successfully detected with 100% accuracy; the EZ was successfully detected with 89% accuracy. The detection of the EZ using iDrArK was substantially more successful when compared with solo diffusional parameters (or their pairwise combinations). For a subgroup with significant results from step one (N=10), iDrArK without lobe restriction achieved 37.5% accuracy; lobe-restricted iDrArK achieved 100% accuracy. The study shows the plausibility of MK for detecting widespread WM changes and the benefit of combining different diffusional voxel-wise parameters.
Highlights
The effectivity of diffusion-weighted magnetic resonance imaging (MRI) methods in detecting the epileptogenic zone (EZ) was tested
Using fractional anisotropy (FA) values, we identified significant changes in the white matter (WM) asymmetry within the lobe corresponding ipsilaterally to resection in 5 patients
Using mean diffusivity (MD) values, we identified significant changes in the WM asymmetry within the lobe corresponding ipsilaterally to resection in 2 patients
Summary
The effectivity of diffusion-weighted MRI methods in detecting the epileptogenic zone (EZ) was tested. In patients with normal-appearing MRI, refractory epilepsy is in 42% caused by focal cortical dysplasia (FCD); a less frequent cause is hippocampal sclerosis (HS)[5] These (FCD and HS) pathophysiological changes span a large spectrum of cortical development malformations in tissue microstructure (such as disrupted cortical lamination, cytologic and cytoarchitecture abnormalities, presence of balloon cells, and myelination changes)[6,7,8] altering diffusion parameters derived from various diffusion models. The most widespread and well described method in the literature remains diffusion tensor imaging (DTI) and its extension, diffusion kurtosis imaging (DKI) Despite their simplicity, many studies have reported changes in parameters derived from diffusion tensor (DT) and kurtosis tensor (KT) and presented their association with underlying histopathology in patients with epilepsy. The lack of barriers and microarchitecture impairments cause water diffusion distribution more similar to Gaussian, and mean kurtosis (MK) parameters tend to decrease[13]
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