Verification of dipole fit source localization in patients with epilepsy using postoperative MRI

@#Objective: Dipole fit source (DFS) localisation is a non-invasive imaging process used to identify the epileptogenic zone (EZ) in the brain. The purpose of the present study was to verify the use of DFS localisation for identifying the EZ in patients with and without lesions using magnetic resonance imaging (MRI). Methods: In this study, DFS localisation was used in 16 patients, of whom 7 had no lesions and 9 had lesions on MRI post-surgery, with at least 3 years of follow-up data. For DFS localisation, different scalp electroencephalogram (EEG) ictal activity was assessed (ictal spikes, rhythmic, paroxysmal fast, and obscured activity). DFSs were superimposed with postoperative MRIs to confirm the accuracy of the determined EZs. Results: The DFS correctly identified EZ localization within the resection area in 14 of the 16 patients. These 14 patients were all seizure free after surgery. The two remaining patients, in whom the DFS was adjacent to the resected area, had a decreased seizure frequency following surgery.Conclusions: DFSs determined during preoperative evaluations can provide information on EZ lateralisation and localisation and contribute to the presurgical decision process. Thus, the accurate identification of EZ boundaries is important and can be achieved more reliably with the use of multiple quantitative EEG analysis methods.

EEG Source Imaging in Partial Epilepsy in Comparison with Presurgical Evaluation and Magnetoencephalography

BACKGROUND AND PURPOSE: The aim of this study was to determine the usefulness of three-dimensional (3D) scalp EEG source imaging (ESI) in partial epilepsy in comparison with the results of presurgical evaluation, magnetoencephalography (MEG), and electrocorticography (ECoG). METHODS: The epilepsy syndrome of 27 partial epilepsy patients was determined by presurgical evaluations. EEG recordings were made using 70 scalp electrodes, and the 3D coordinates of the electrodes were digitized. ESI images of individual and averaged spikes were analyzed by Curry software with a boundary element method. MEG and ECoG were performed in 23 and 9 patients, respectively. RESULTS: ESI and MEG source imaging (MSI) results were well concordant with the results of presurgical evaluations (in 96.3% and 100% cases for ESI and MSI, respectively) at the lobar level. However, there were no spikes in the MEG recordings of three patients. The ESI results were well concordant with MSI results in 90.0% of cases. Compared to ECoG, the ESI results tended to be localized deeper than the cortex, whereas the MSI results were generally localized on the cortical surface. ESI was well concordant with ECoG in 8 of 9 (88.9%) cases, and MSI was also well concordant with ECoG in 4 of 5 (80.0%) cases. The EEG single dipoles in one patient with mesial temporal lobe epilepsy were tightly clustered with the averaged dipole when a 3 Hz high-pass filter was used. CONCLUSIONS: The ESI results were well concordant with the results of the presurgical evaluation, MSI, and ECoG. The ESI analysis was found to be useful for localizing the seizure focus and is recommended for the presurgical evaluation of intractable epilepsy patients.

Imagem por Fontes Eletroencefalográficas - Uma Revisão Sistemática Sobre Sua Acurácia na Determinação da Zona Epileptogênica em Pacientes com Epilepsia Focal Refratária / EEG source imaging - a systematic review about its accuracy in defining the epileptogenic zone in patients with refractory focal epilepsy

O objetivo da avaliação pré-cirúrgica em pacientes com epilepsia refratária é delimitar a zona epileptogênica (ZE), área do encéfalo capaz de gerar crises e cuja ressecção tem o potencial para abolir ou reduzir as crises do paciente. Neste sentido, há um grande esforço no desenvolvimento e aprimoramento de técnicas diagnósticas não invasivas que possam localizar a ZE com precisão, buscando evitar ou diminuir a utilização de métodos invasivos, de custo e risco elevados. Uma técnica diagnóstica que tem recebido renovada atenção é a Imagem de Fontes Eletroencefalográficas (IFE). O uso dessa técnica se baseia no fato de que a localização da área do encéfalo geradora das descargas interictais (zona irritativa) guarda próxima relação com a ZE. Estudos recentes têm sugerido que a IFE tem um potencial para determinar a localização da ZE similar à magnetoencefalografia. Nesta revisão, analisamos estudos recentes utilizando a técnica na localização da ZE de pacientes com epilepsia refratária. Encontramos evidências de que a acurácia média do teste foi de 79%, bastante similar à acurácia da Imagem por Fontes Magnéticas reportada na literatura, que é de aproximadamente 77%.

The main goal of presurgical evaluation in patients with refractory epilepsy is to define the localization and extension of epileptogenic zone (EZ), the brain area responsible for generating seizures and whose resection has the potential to reduce or abolish epileptic seizures. Therefore, there has been an effort to develop diagnostic tests that can accurately localize the EZ non-invasively, avoiding invasive investigations that are risky and expensive. A diagnostic technique that has received renewed interest is electroencephalographic source imaging (ESI). This technique is based on the assumption that the irritative zone, the brain area that generates interictal EEG spikes, is spatially related with the EZ. Recent studies have shown that EEG has the potential to determine the localization of EZ similar to magnetoencephalography. In this review, we searched for studies reporting the accuracy of ESI on presurgical evaluation of patients with refractory epilepsy. We found that the accuracy of the test was 79% overall, similar to the accuracy of magnetic source imaging reported in the literature (77%).