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Abstract #0786

Biophysical Microstructure Markers Are Correlated with Disease Severity in Medial Temporal Lobe Epilepsy

Ali Tabesh1, 2, Jens H. Jensen1, 2, Edward S. Hui1, 2, Maria V. Spampinato1, 2, Jonathan C. Edwards3, Joseph A. Helpern1, 2, Leonardo Bonilha, 23

1Radiology and Radiological Science, Medical University of South Carolina, Charleston, SC, United States; 2Center for Biomedical Imaging, Medical University of South Carolina, Charleston, SC, United States; 3Comprehensive Epilepsy Center, Neurosciences, Medical University of South Carolina, Charleston, SC, United States

This study aimed to provide biophysical interpretation of microstructural abnormalities in medial temporal lobe epilepsy (MTLE), and to determine their association with disease severity. Biophysical modeling was performed with a newly developed cerebral microenvironment modeling (CMM) method compatible with diffusional kurtosis imaging. Nineteen patients with MTLE and 28 matched healthy volunteers were studied. The results suggest that diffusion abnormalities in MTLE may be predominantly associated with cerebral neurite loss. Seizure frequency may be related to myelin degradation, gliosis, and possibly other changes in tissue morphology and permeability. CMM markers may potentially enable early identification of patients with medication-refractory MTLE.

Keywords

aberrant abnormalities account achieved although analyses anisotropy applied around association assumption attributed audience axons bilateral bilaterally biomedical biophysical brain cells cerebral characteristics clinical clustered compartment compatible complex comprehensive confined conjecture controlled corrected decreased dendrites derived determine developed diagnostic diffusion diffusional diffusivity disease duration enabling encoding epilepsy exchanging extends extra extracellular female findings fraction gray healthy history house housed identified improve includes individuals inside integrity intensity interpretation investigate investigated investigates known kurtosis largely largest limbic lobe loss maps markers matched measures medial medical metrics microscopic model modeling monitoring moreover newly normalization normalize onset parametric partial patients planar planning poorly precise primarily proton radiological radiology rank reduced reduction regarding regional remain responsible restricted role scanner science sclerosis scripts seizure seizures serve severity sided significantly slice smith software south space spaces spatial structures subgroups suggests summary suppl target temporal tensors terms tissue tracts transformation treatment trends twice unilateral volunteers water white widespread year years