Spatiotemporal signal space separation for regions of interest: Application for extracting neuromagnetic responses evoked by deep brain stimulation.
Magnetoencephalography (MEG) is a non-invasive imaging technique which allows us to understand how brain networks are modulated by therapies such as Deep Brain Stimulation (DBS). Major drawbacks of MEG are: 1) high sensitivity to DBS artefacts, and 2) limited spatial resolution due to the spread of inferred brain activity. We develop techniques to address these shortcomings and reveal how DBS may modulate brain networks at short timescales.
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Spatiotemporal signal space separation for regions of interest: Application for extracting neuromagnetic responses evoked by deep brain stimulation.
Magnetoencephalography (MEG) is a non-invasive imaging technique which allows us to understand how brain networks are modulated by therapies such as Deep Brain Stimulation (DBS). Major drawbacks of MEG are: 1) high sensitivity to DBS artefacts, and 2) limited spatial resolution due to the spread of inferred brain activity. We develop techniques to address these shortcomings and reveal how DBS may modulate brain networks at short timescales.
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