Abstract
Objective
Completeness as a predictor of seizure freedom is broadly accepted in epilepsy surgery. We focused on the requirements for a complete hemispherotomy and hypothesized that the disconnection of the insula contributes to a favorable postoperative seizure outcome. We analyzed surgical and non-surgical predictors influencing long-term seizure outcome before and after a modification of our hemispherotomy technique.
Methods
We retrospectively studied surgical procedures, electro-clinical parameters, MRI results, and follow-up data in all children who had undergone hemispherotomy between 2001 and 2018 at our institution. We used logistic regression models to analyze the influence of different factors on seizure outcome.
Results
152 patients were eligible for seizure outcome analysis only. Of these, 140 cases had complete follow-up data for ≥24 months and provide the basis for the following results. The median age at surgery was 4.3 years (range 0.3-17.9 years). Complete disconnection (including the insular tissue) was achieved in 63.6% (89/140). At two-year follow-up, seizure freedom (Engel class IA) was observed in 34.8% (8/23) with incomplete insular disconnection while this was achieved in 88.8% (79/89) with complete surgical disconnection (p<0.001, OR=10.41). In the latter group (N=89), a potentially epileptogenic contralateral MRI lesion was the strongest predictor for postoperative seizure recurrence (OR=22.20).
Significance
Complete surgical disconnection is the most important predictor of seizure freedom following hemispherotomy and requires disconnection of the insular tissue at the basal ganglia level. Even if the hemispherotomy is performed completely surgically, a potentially epileptogenic contralateral lesion on preoperative MRI significantly reduces the chances of postoperative seizure freedom.
ABR