ObjectiveTo explore the clinical value of SEEG-guided radiofrequency thermocoagulation therapy in patients with posterior cortex epilepsy.MethodsA case of epilepsy secondary to viral encephalitis was reported in this paper, SEEG implantation confirmed that the seizure began in bilateral posterior head, and the right posterior head was the main area of disabling lesion. After a series of complete preoperative neuropsychological assessment, the right posterior head was found to have functional retention. Therefore, we used a minimally invasive radiofrequency thermocoagulation therapy to damage epileptic foci.ResultsThe patient were followed up for 2 years after operation, the seizure frequency were significantly reduced, and the patients did not show symptoms of functional loss.ConclusionPosterior cortex epilepsy is common in neonates with brain injury. The localization and lateralization of operation is difficult because its EEG showed bilateral discharges, or the seizures start from both sides of posterior head, meanwhile, posterior head involves functional areas, which makes the operation even more difficult. This minimally invasive treatment destroys the lesion and maximizes the protection of the patient's functional areas, which provides a new surgical approach for bilateral posterior cortex epilepsy in the future, especially for symptomatic epilepsy caused by hypoxic-ischemic brain injury and encephalitis.
ObjectiveTo study the therapeutic efficacy of stereoelectroencephalography (SEEG)-guided radiofrequency thermo-coagulation ablation (RF-TC) in the treatment of tuberous sclerosis (TSC) related epilepsy and to investigate the prediction of the therapeutic response to SEEG-guided RF-TC for the efficacy of the subsequent surgical treatment. MethodsWe retrospectively analyze TSC patients who underwent SEEG phase II evaluation from January 2014 to January 2023, and to select patients who underwent RF-TC after completion of SEEG monitoring, study the seizure control of patients after RF-TC, and classify patients into effective and ineffective groups for RF-TC treatment according to the results of RF-TC treatment, compare the surgical outcomes of patients in the two groups after SEEG, to explore the prediction of surgical outcome by RF-TC treatment. Results59 patients with TSC were enrolled, 53 patients (89.83%) were genetic detection, of which 28 (52.83%) were TSC1-positive, 21 (39.62%) were TSC2-positive, and 4 (7.54%) were negative, with 33 (67.34%) de novo mutations. The side of the SEEG electrode placement: left hemisphere in 9 cases, right hemisphere in 13 cases, and bilateral hemisphere in 37 cases. 37 patients (62.71%) were seizure-free at 3 months, 31 patients (52.54%) were seizure-free at 6 months, 29 patients (49.15%) were seizure-free at 12 months, and 20 patients (39.21%) were seizure-free at 24 months or more. 11 patients had a seizure reduction of more than 75% after RF-TC, and the remaining 11 patients showed no significant change after RF-TC. There were 48 patients (81.35%) in the effective group and 11 patients (18.65%) in the ineffective group. In the effective group, 22 patients were performed focal tuber resection laser ablation, 19 cases were seizure-free (86.36%). In the ineffective group, 10 patients were performed focal tuber resection laser ablation, only 5 cases were seizure-free (50%), which was a significant difference between the two groups (P<0.05). ConclusionsOur data suggest that SEEG guided RF-TC is a safe and effective both diagnostic and therapeutic treatment for TSC-related epilepsy, and can assist in guiding the development of future resective surgical strategies and determining prognosis.