Author:
Houck Jon M.,Claus Eric D.
Abstract
AbstractMagnetoencephalography (MEG) is a neuroimaging technique that accurately captures the rapid (sub-millisecond) activity of neuronal populations. Interpretation of functional data from MEG relies upon registration to the participant’s anatomical MRI. The key remaining step is to transform the participant’s MRI into the MEG head coordinate space. Although both automated and manual approaches to co-registration are available, the relative accuracy of two approaches has not been systematically evaluated. The goal of the present study was to compare the accuracy of manual and automated co-registration. Resting MEG and T1-weighted MRI data were collected from 90 participants. Automated and manual co-registration were performed on the same subjects, and the inter-method reliability of the two methods assessed using the intra-class correlation. Median co-registration error for both methods was within acceptable limits. Inter-method reliability was in the “good” range for co-registration error, and the “good” to “excellent” range for translation and rotation. These results suggest that the output of the automated co-registration procedure is comparable to that achieved using manual co-registration.
Publisher
Cold Spring Harbor Laboratory
Reference32 articles.
1. Spatial extent of coherent sensory-evoked cortical activity;Exp Brain Res.,1991
2. Disparities in clinical magnetoencephalography practice in the United States: a survey-based appraisal;J Clin Neurophysiol Off Publ Am Electroencephalogr Soc.,2011
3. Anatomical correlates for magnetoencephalography: integration with magnetic resonance images;Clin Phys Physiol Meas.,1991
4. CoordinateSystems - Free Surfer Wiki [Internet]. [cited 2019 Dec 18]. Available from: https://surfer.nmr.mgh.harvard.edu/fswiki/CoordinateSystems
5. Co-registration of magnetoencephalography with magnetic resonance imaging using bite-bar-based fiducials and surface-matching