Jonathan Horsley, Yujiang Wang, Callum Simpson, Vyte Janiukstyte, Karoline Leiberg, Beth Little, Jane de Tisi, John Duncan, Peter N. Taylor
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Abstract
Status epilepticus (SE) carries risks of morbidity and mortality.
Experimental studies have implicated the entorhinal cortex in prolonged
seizures; however, studies in large human cohorts are limited. We hypothesised
that individuals with temporal lobe epilepsy (TLE) and a history of SE would
have more severe entorhinal atrophy compared to others with TLE and no history
of SE. 357 individuals with drug resistant temporal lobe epilepsy (TLE) and 100
healthy controls were scanned on a 3T MRI. For all subjects the cortex was
segmented, parcellated, and the thickness calculated from the T1-weighted
anatomical scan. Subcortical volumes were derived similarly. Cohen's d and
Wilcoxon rank-sum tests respectively were used to capture effect sizes and
significance. Individuals with TLE and SE had reduced entorhinal thickness compared to
those with TLE and no history of SE. The entorhinal cortex was more atrophic
ipsilaterally (d=0.51, p<0.001) than contralaterally (d=0.37, p=0.01).
Reductions in ipsilateral entorhinal thickness were present in both left TLE
(n=22:176, d=0.78, p<0.001), and right TLE (n=19:140, d=0.31, p=0.04), albeit
with a smaller effect size in right TLE. Several other regions exhibited
atrophy in individuals with TLE, but these did not relate to a history of SE. These findings suggest potential involvement or susceptibility of the
entorhinal cortex in prolonged seizures.
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