Magnetoencephalography of Epilepsy with a Microfabricated Atomic Magnetrode

Simultaneous magnetic and electric recording of spontaneous spikes in the rat. A, Sagittal view of the rat skull (caudal is toward the right) showing positions of the ⁸⁷Rb cell for MEG, and parietal cranial window for ECoG, recording in Experiment 1. The circle with arrows indicates the direction of magnetic fields expected during the negative peak of spikes in the left hemisphere ECoG. At the level of the MEG sensor, the tangential component of the magnetic field is pointed caudally. B, Top, Raw MEG (gray) and ECoG (black) of nonepileptiform ketamine spikes (*). Bottom, Five superimposed ketamine spikes (thin traces) and their average (thick traces). C, Similar to B but showing an example of a single epileptiform spike after focal injection of bicuculline methiodide via the cranial window. Top, Bottom, Single unaveraged spikes. D, Dorsal view showing bilateral placement of magnetrodes over the parietotemporal ridges and bilateral parietal ECoG electrodes. E, Averaged (n = 20) ketamine spikes using the left MEG response peak (arrow) to align the average. The MEG spike (gray) is lateralized to the left hemisphere and attenuated over the right. The averaged ECoG spike is confined to the left hemisphere. F, Similar to E but using the right MEG response peak (arrow) to align averaging. Note a complete shift of the MEG and ECoG response to the right hemisphere. The magnetic field is reversed to a rostral direction, as expected for a right hemisphere equivalent dipole reflecting intradendritic current flowing away from the cortical surface toward the deeper cortical layers.