Output details
15 - General Engineering
University College London
A method for recording resistance changes non-invasively during neuronal depolarization with a view to imaging brain activity with electrical impedance tomography
In a previous paper (Gilad and Holder (2009), results in a large human cohort were presented. This presents the methods in detail, including sophisticated signal processing to exclude outliers, correct for drift artefacts and improve the signal-to-noise ratio, and the results of modelling. This led directly to an NIH grant awarded unusually to a UK researcher as sole PI in recognition of internationally leading capability of the research group. This is also a landmark study which will form the basis for usage in the future as the technique becomes widely used in cognitive neuroscience.