Micah M. Murray scite author profile

In this tutorial review, we detail both the rationale for as well as the implementation of a set of analyses of surface-recorded event-related potentials (ERPs) that uses the reference-free spatial (i.e. topographic) information available from high-density electrode montages to render statistical information concerning modulations in response strength, latency, and topography both between and within experimental conditions. In these and other ways these topographic analysis methods allow the experimenter to glean additional information and neurophysiologic interpretability beyond what is available from canonical waveform analyses. In this tutorial we present the example of somatosensory evoked potentials (SEPs) in response to stimulation of each hand to illustrate these points. For each step of these analyses, we provide the reader with both a conceptual and mathematical description of how the analysis is carried out, what it yields, and how to interpret its statistical outcome. We show that these topographic analysis methods are intuitive and easy-to-use approaches that can remove much of the guesswork often confronting ERP researchers and also assist in identifying the information contained within highdensity ERP datasets.

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EEG source imaging

Michel

Murray

Lantz

et al. 2004

Clinical Neurophysiology

1,543

1,087

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Multisensory auditory–visual interactions during early sensory processing in humans: a high-density electrical mapping study

Molholm

Ritter

Murray

et al. 2002

Cognitive Brain Research

826

662

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Spatiotemporal Analysis of Multichannel EEG: CARTOOL

Brunet

Murray

Michel

2011

Computational Intelligence and Neuroscience

624

583

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This paper describes methods to analyze the brain's electric fields recorded with multichannel Electroencephalogram (EEG) and demonstrates their implementation in the software CARTOOL. It focuses on the analysis of the spatial properties of these fields and on quantitative assessment of changes of field topographies across time, experimental conditions, or populations. Topographic analyses are advantageous because they are reference independents and thus render statistically unambiguous results. Neurophysiologically, differences in topography directly indicate changes in the configuration of the active neuronal sources in the brain. We describe global measures of field strength and field similarities, temporal segmentation based on topographic variations, topographic analysis in the frequency domain, topographic statistical analysis, and source imaging based on distributed inverse solutions. All analysis methods are implemented in a freely available academic software package called CARTOOL. Besides providing these analysis tools, CARTOOL is particularly designed to visualize the data and the analysis results using 3-dimensional display routines that allow rapid manipulation and animation of 3D images. CARTOOL therefore is a helpful tool for researchers as well as for clinicians to interpret multichannel EEG and evoked potentials in a global, comprehensive, and unambiguous way.

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Micah M. Murray

Topographic ERP Analyses: A Step-by-Step Tutorial Review

EEG source imaging

Multisensory auditory–visual interactions during early sensory processing in humans: a high-density electrical mapping study

Spatiotemporal Analysis of Multichannel EEG: CARTOOL

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