Functional MRI-based identification of brain areas involved in motor imagery for implantable brain-computer interfaces
Journal of Neural Engineering , Volume 8 - Issue 2
For the development of minimally invasive brain-computer interfaces (BCIs), it is important to accurately localize the area of implantation. Using fMRI, we investigated which brain areas are involved in motor imagery. Twelve healthy subjects performed a motor execution and imagery task during separate fMRI and EEG measurements. fMRI results showed that during imagery, premotor and parietal areas were most robustly activated in individual subjects, but surprisingly, no activation was found in the primary motor cortex. EEG results showed that spectral power decreases in contralateral sensorimotor rhythms (8-24 Hz) during both movement and imagery. To further verify the involvement of the motor imagery areas found with fMRI, one epilepsy patient performed the same task during both fMRI and ECoG recordings. Significant ECoG low (8-24 Hz) and high (65-95 Hz) frequency power changes were observed selectively on premotor cortex and these co-localized with fMRI. During a subsequent BCI task, excellent performance (91%) was obtained based on ECoG power changes from the localized premotor area. These results indicate that other areas than the primary motor area may be more reliably activated during motor imagery. Specifically, the premotor cortex may be a better area to implant an invasive BCI.
|Journal of Neural Engineering|
|Organisation||Erasmus MC: University Medical Center Rotterdam|
Hermes, D, Vansteensel, M.J, Albers, A.M, Bleichner, M.G, Benedictus, M.R, Méndez Orellana, C, … Ramsey, N.F. (2011). Functional MRI-based identification of brain areas involved in motor imagery for implantable brain-computer interfaces. In Journal of Neural Engineering (Vol. 8). doi:10.1088/1741-2560/8/2/025007