Research & Innovation
Publications
Timing of Peri-Ictal MRI Abnormalities in Status Epilepticus - One Size Does Not Fit All
PMU Authors
Pilar Bosque Varela, Lukas Machegger, Wanda Lauth, Jurgen Steinbacher, Andreas Oellerer, Georg Zimmermann, Johannes Pfaff, Mark Mccoy, Bernardo Crespo Pimentel, Markus Leitinger, Eugen Trinka, Giorgi Kuchukhidze
All Authors
Pilar Bosque Varela, Lukas Machegger, Tanja Pruwasser, Wanda Lauth, Jurgen Steinbacher, Andreas Oellerer, Georg Zimmermann, Johannes Pfaff, Mark Mccoy, Bernardo Crespo Pimentel, Markus Leitinger, Eugen Trinka, Giorgi Kuchukhidze
Journal association
ANNALS OF NEUROLOGY
Abstract
Objective We aimed to investigate timing of occurrence of peri-ictal MRI abnormalities - a potential risk biomarker of status epilepticus-related cerebral injury (t2).Methods This prospective study enrolled adult patients with status epilepticus and acute magnetic resonance imaging (MRI); patients with peri-ictal MRI abnormalities underwent follow-up MRI 4 weeks later. Predictive model, using logistic regression, integrated clinical factors (duration, semiology, and etiology of status epilepticus and the patients' level of consciousness) to prognosticate occurrence of peri-ictal MRI abnormalities. Cerebral injury due to status epilepticus was assessed by comparative volumetric analysis of acute and follow-up MRIs.Results Among 256 patients, 137 (53%) had peri-ictal MRI abnormalities. The likelihood of their occurrence increased over time under the influence of semiology and etiology of status epilepticus as well as the patients' level of consciousness: it was highest in non-convulsive status epilepticus caused by acute primary or secondary etiologies at 10 minutes after onset in patients with stupor/coma (81-85%); it increased at 24 hours to 92%; and at 48 hours to 95%. Conversely, in alert/somnolent patients with prominent motor symptoms and acute triggering factors associated with epilepsy, the possibility of developing peri-ictal MRI abnormalities at 24 hours was 4 to 5% and at 48 hours it was 6 to 11%. In 28 of 45 (62%) of follow-up MRIs, structural long-term consequences of status epilepticus were observed in the form of either cortical and hippocampal atrophy or global cerebral volume loss.Interpretation In this novel multimodal approach based on MRI data, the patients' level of consciousness, etiology, and duration of status epilepticus offers insights into the risk of possible brain injury in status epilepticus. ANN NEUROL 2025
Keywords
MODEL, MAGNETIC-RESONANCE, EPIDEMIOLOGY, Nonconvulsive status epilepticus, Brain-damage