[DIAGNOSIS AND TREATMENT OF A GIRL SUFFERING FROM DRUG RESISTANT EPILEPSY WITH AN INNOVATIVE MINIMALLY INVASIVE APPROACH].

INTRODUCTION: About one percent (over 81,000 patients) of the Israeli population suffer from epilepsy. The main treatment for this condition is medication, but about a third of the patients suffer from drug-resistant epilepsy (DRE). Each year about 5,000 new patients are diagnosed with epilepsy, of whom 3,000 are children. For these patients, an evaluation in designated centers is required in order to diagnose possible foci and propose neurosurgical treatment alternatives. BACKGROUND: A model for diagnosis and treatment of the epileptic network in a minimally invasive approach is presented through the description of a case study. Phase I: includes diagnosis of the semiology, neuropsychological assessment, video EEG recording and performing a PET-MRI-FMRI-EEG synchronized examination. Phase II: involves stereo-electroencephalography (SEEG) minimally invasive diagnosis to target the epileptic area and accurately map adjacent functional areas and assessment of cortical redundancy. Phase III: includes radiofrequency ablation of the foci without any further surgery. This procedure is performed under clinical monitoring (the patient is awake during treatment) and continuous EEG monitoring. CONCLUSIONS: This case study demonstrates the multi-dimensional model performed by a multidisciplinary team, combining innovative technologies. This model is essential for the precision of the diagnosis and treatment methods of focal epilepsy and allows preservation of function based, among other factors, on the identification of cortical redundancy. DISCUSSION: The preoperative assessment identified focal epilepsy adjacent to the motor area dominating the right hand. A combined PET-FMRI-MRI-EEG examination enabled detecting redundancy of motor functions beyond the epileptic focus. Based on this information, a targeted implantation of depth electrodes (SEEG) was performed, the epileptic foci were identified and targeted ablations were performed during clinical monitoring and continuous EEG. This resulted in the cessation of seizures in parallel with the disappearance of the pathological signal in the EEG, all while preserving the patient's hand function.

Multi-metric predictors of radiofrequency-treated trigeminal neuralgias.

Evaluation of neurovascular compression-related trigeminal neuralgia (NVC-TN) and its resolution through microvascular decompression are demonstrable by MRI and intraoperatively [Leal et al. (Atrophic changes in the trigeminal nerves of patients with trigeminal neuralgia due to neurovascular compression and their association with the severity of compression and clinical outcomes: Clinical article. J Neurosurg. 2014;120(6):1484-1495)]. Non-NVC-TNs treated by radiofrequency (RF) lack such detectable features. Multimodal integration of pre-surgical diffusion tensor imaging (DTI) and volumetry (VOL) with intraoperative neurophysiology (ION) could improve understanding and performance of RF among non-NVC-TN. We hypothesized that DTI disturbances' localization (central relay versus peripherally) rather than their values bares the most significant predictive value upon outcome and that ION could quantitatively both localize and assist RF of affected branches. The first pre-surgical step evaluated the differences between affected and non-affected sides (by DTI and VOL). Four TN's segments were studied, from peripheral to central relay: Meckel's cave-trigeminal ganglion (MC-TGN), cisternal portion, root entry zone (REZ) and spinal tract [Lin et al. (Flatness of the Meckel cave may cause primary trigeminal neuralgia: A radiomics-based study. J Headache Pain. 2021;22(1):104)]. In the second intraoperative step, we used both ION and patient's testimonies to confirm the localization of the affected branch, evolving hypoesthesia, pain reduction and monitoring of adverse effects [Sindou (Neurophysiological navigation in the trigeminal nerve: Use of masticatory responses and facial motor responses evoked by electrical stimulation of the trigeminal rootlets for RF-thermorhizotomy guidance. Stereotact Funct Neurosurg. 1999;73(1-4):117-121); Sindou and Tatli (Traitement de la névralgie trigéminale par thermorhizotomie. Neurochirurgie. 2009;55(2):203-210)]. Last and postoperatively, each data set's features and correlation with short-term (3 months) and long-term outcomes (23.5 ± 6.7 months) were independently analysed and blind to each other. Finally, we designed a multimodal predictive model. Sixteen non-NVC-TN patients (mean 53.6 ± SD years old) with mean duration of 6.56 ± 4.1 years (75% right TN; 43.8% V3) were included. After 23.5 ± 6.7 months, 14/16 were good responders. Age, gender, TN duration and side/branch did not correlate with outcomes. Affected sides showed significant DTI disturbances in both peripheral (MC-TGNs) and central-relay (REZ) segments. However, worse outcome correlated only with REZ-located DTI disturbances (P = 0.04; r = 0.53). Concerning volumetry, affected MC-TGNs were abnormally flatter: lower volumes and surface area correlated with worse outcomes (both P = 0.033; r = 0.55 and 0.77, respectively). Intraoperatively, ION could not differ the affected from non-affected branch. However, the magnitude of ION's amplitude reduction (ION-Δ-Amplitude) had the most significant correlation with outcomes (r = 0.86; P < 0.00006). It was higher among responders [68.4% (50-82%)], and a <40% reduction characterized non-responders [36.7% (0-40%)]. Multiple regression showed that ION-Δ-Amplitude, centrally located only REZ DTI integrity and MC-TGN flatness explain 82.2% of the variance of post-RF visual analogue score. Integration of pre-surgical DTI-VOL with ION-Δ-Amplitude suggests a multi-metric predictive model of post-RF outcome in non-NVC-TN. In multiple regression, central-relay REZ DTI disturbances and insufficiently reduced excitability (<40%) predicted worse outcome. Quantitative fine-tuned ION tools should be sought for peri-operative evaluation of the affected branches.

Stereo electroencephalography-guided radiofrequency ablation in focal epilepsia partialis continua: illustrative case.

BACKGROUND: Epilepsia partialis continua (EPC) is a variant of focal motor status epilepticus that can occur as a single or repetitive episode with progressive or nonprogressive characteristics. OBSERVATIONS: The authors describe the feasibility of identifying focal EPC in a 33-year-old woman using video electroencephalography (VEEG), electroencephalography source localization, [18F]fluorodeoxyglucose positron emission tomography, magnetic resonance imaging, and psychiatric and neuropsychological assessments and of treating it with stereo electroencephalography-guided radiofrequency (SEEG-RF) ablation. EPC comprised recurrent myoclonus of the right thigh and iliopsoas with a progressive pain syndrome after left anterior-temporo-mesial resection. Switching between VEEG under regular and epidural block helped to define myoclonus as the presenting ictal symptom with a suspected seizure onset zone in the left parietal paramedian lobule. After the epileptic network was identified, SEEG-RF ablation abolished all seizures. No correlation was found between pain and VEEG/SEEG abnormalities. Rehabilitation began 3 days after the SEEG-RF ablation. By 1 year of follow-up, the patient had no EPC and could walk with assistance in rehabilitation; however, due to the abrupt abolishment of EPC and underlying psychological factors, the patient perceived her pain as overriding, which prevented her from walking. LESSONS: The application of SEEG-RF ablation is an efficient therapeutic option for focal EPC with special concerns regarding concurrent nonepileptic pain. https://thejns.org/doi/10.3171/CASE23611.

SEEG-RF for revealing and treating Geschwind syndrome's epileptic network: A case study.

Stereotypic neural networks are repeatedly activated in drug-refractory epilepsies (DRE), reinforcing the expression of certain psycho-affective traits. Geschwind syndrome (GS) can serve as a model for such phenomena among patients with temporal lobe DRE. We describe stereo-electroencephalogram (SEEG) exploration in a 34-year-old male with DRE and GS, and his treatment by SEEG-radiofrequency (SEEG-RF) ablation. We hypothesized that this approach could reveal the underlying epileptic network and map eloquent faculties adjacent to SEEG-RF targets, which can be further used to disintegrate the epileptic network. The patient underwent a multi-modal pre-surgical evaluation consisting of video EEG (VEEG), EEG source localization, 18-fluorodexyglucose-PET/MRI, neuropsychological and psychiatric assessments. Pre-surgical multi-modal analyses suggested a T4-centered seizure onset zone. SEEG further localized the SOZ within the right amygdalo-hippocampal region and temporal neocortex, with the right parieto-temporal region as the propagation zone. SEEG-RF ablation under awake conditions and continuous EEG monitoring confirmed the abolishment of epileptic activity. Follow-up at 20 months showed seizure suppression (Engel 1A/ILEA 1) and a significantly improved and stable psycho-affective state. To the best of our knowledge this is the first description of the intracranial biomarkers of GS and its further treatment through SEEG-RF ablation within the scope of DRE.