Frontiers in Neuroinformatics (Aug 2020)

A Quantitative EEG Toolbox for the MNI Neuroinformatics Ecosystem: Normative SPM of EEG Source Spectra

  • Jorge Bosch-Bayard,
  • Jorge Bosch-Bayard,
  • Jorge Bosch-Bayard,
  • Eduardo Aubert-Vazquez,
  • Shawn T. Brown,
  • Christine Rogers,
  • Gregory Kiar,
  • Tristan Glatard,
  • Lalet Scaria,
  • Lidice Galan-Garcia,
  • Maria L. Bringas-Vega,
  • Maria L. Bringas-Vega,
  • Trinidad Virues-Alba,
  • Armin Taheri,
  • Samir Das,
  • Cecile Madjar,
  • Zia Mohaddes,
  • Leigh MacIntyre,
  • CHBMP,
  • Alan C. Evans,
  • Pedro A. Valdes-Sosa,
  • Pedro A. Valdes-Sosa,
  • Pedro A. Valdes-Sosa

DOI
https://doi.org/10.3389/fninf.2020.00033
Journal volume & issue
Vol. 14

Abstract

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The Tomographic Quantitative Electroencephalography (qEEGt) toolbox is integrated with the Montreal Neurological Institute (MNI) Neuroinformatics Ecosystem as a docker into the Canadian Brain Imaging Research Platform (CBRAIN). qEEGt produces age-corrected normative Statistical Parametric Maps of EEG log source spectra testing compliance to a normative database. This toolbox was developed at the Cuban Neuroscience Center as part of the first wave of the Cuban Human Brain Mapping Project (CHBMP) and has been validated and used in different health systems for several decades. Incorporation into the MNI ecosystem now provides CBRAIN registered users access to its full functionality and is accompanied by a public release of the source code on GitHub and Zenodo repositories. Among other features are the calculation of EEG scalp spectra, and the estimation of their source spectra using the Variable Resolution Electrical Tomography (VARETA) source imaging. Crucially, this is completed by the evaluation of z spectra by means of the built-in age regression equations obtained from the CHBMP database (ages 5–87) to provide normative Statistical Parametric Mapping of EEG log source spectra. Different scalp and source visualization tools are also provided for evaluation of individual subjects prior to further post-processing. Openly releasing this software in the CBRAIN platform will facilitate the use of standardized qEEGt methods in different research and clinical settings. An updated precis of the methods is provided in Appendix I as a reference for the toolbox. qEEGt/CBRAIN is the first installment of instruments developed by the neuroinformatic platform of the Cuba-Canada-China (CCC) project.

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