Abstracts

This abstract has been invited to present during the Neurophysiology platform session.

Rationale: Magnetoencephalography (MEG) is still underutilized in presurgical language mapping in epilepsy centers, though its utility and accuracy have been demonstrated.¹ The single equivalent current dipole (sECD) is the best validated approach for MEG language lateralization,² however, it remains difficult to implement reliably due to subjective judgements made by the user. To address this technical issue, we developed a completely objective and automated sECD algorithm (AsECDA) for language mapping. We then compared performances of AsECDA and three most popular methods: minimum norm estimation (MNE), dynamic statistical parametric maps (dSPM), and dynamic imaging of coherent sources (DICS) event-related desynchronization (ERD) and event-related synchronization (ERS) beamformer.

Methods: The AsECDA was first evaluated using synthetic MEG datasets by considering dipoles in the centroid of 246 cortical areas in the Brainnetome atlas and various signal-to-noise ratios (SNRs). Then MEG data collected in 21 patients with epilepsy (23 ± 17 years; 11 males; 18 right- and 3 left‐handed) during a word recognition task² in two repeated sessions were used to compare performance of four aforementioned methods.

Results: Results of synthetic MEG datasets revealed a good localization accuracy for the AsECDA in both superficial and deep sources, and the average localization error in a typical noise level (SNR = 5) was less than 2 mm (1.6 ± 0.6 mm). Figure 1 shows language localization using the four methods in a representative patient. As depicted in Table 1, the AsECDA provided a strong and significant correlation between the calculated laterality index (LI) of two sessions across all patients (Cor = 0.80; P < 0.00002). This correlation for MNE (Cor = 0.71) and dSPM (Cor = 0.64) were smaller than that for AsECDA. In addition, DICS-ERD in alpha and low beta bands provided fair correlations (Cor = 0.64 and 0.48, respectively) between the calculated LIs of the two sessions, and this correlation was nonsignificant (P > 0.1) for DICS-ERD in high beta and gamma bands and for DICS-ERS in all frequency bands. The DICS-ERD in alpha and low beta bands, MNE, and dSPM inclined toward providing a biased result toward symmetric language representation, and > 50% of the sessions were assigned by these methods to right laterality or bilateral in contrast with previous studies of language lateralization in epilepsy patients.³ The AsECDA provided the best results compared to other methods regarding lateralization and > 62% of the sessions were assigned by AsECDA to left laterality.

Conclusions: The AsECDA provided superior results compared to MNE, dSPM, and DICS beamformer regarding the test-retest reliability and the expected left lateralization and correct localization of the receptive language cortex._x000D_  _x000D_ References:
1. Bowyer et al. J Clin. Neurophysiology. 2020;37:554-563.
2. Papanicolaou et al. J Neurosurgery. 2004;100(5):867-876.
3. Gaillard et al. Neurology. 2007;69(18):1761-1771.

Funding: None