Objective: A subset of children with febrile status epilepticus (FSE) are at risk for development of temporal lobe epilepsy later in life. We sought a noninvasive predictive marker of those at risk that can be identified soon after FSE, within a clinically realistic timeframe.
Methods: Longitudinal T -weighted magnetic resonance imaging (T WI MRI) of rat pups at several time points after experimental FSE (eFSE) was performed on a high-field scanner followed by long-term continuous electroencephalography. In parallel, T WI MRI scans were performed on a 3.0-T clinical scanner. Finally, chronic T WI MRI signal changes were examined in rats that experienced eFSE and were imaged months later in adulthood.
Results: Epilepsy-predicting T changes, previously observed at 2 hours after eFSE, persisted for at least 6 hours, enabling translation to the clinic. Repeated scans, creating MRI trajectories of T relaxation times following eFSE, provided improved prediction of epileptogenesis compared with a single MRI scan. Predictive signal changes centered on limbic structures, such as the basolateral and medial amygdala. T WI MRI changes, originally described on high-field scanners, can also be measured on clinical MRI scanners. Chronically elevated T relaxation times in hippocampus were observed months after eFSE in rats, as noted for post-FSE changes in children.
Significance: Early T WI MRI changes after eFSE provide a strong predictive measure of epileptogenesis following eFSE, on both high-field and clinical MRI scanners. Importantly, the extension of the acute signal changes to at least 6 hours after the FSE enables its inclusion in clinical studies. Chronic elevations of T relaxation times within the hippocampal formation and related structures are common to human and rodent FSE, suggesting that similar processes are involved across species.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6217797 | PMC |
| http://dx.doi.org/10.1111/epi.14561 | DOI Listing |
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