Litcius/Paper detail

EEG Interchannel Causality to Identify Source/Sink Phase Connectivity Patterns in Developmental Dyslexia

Ignacio Rodríguez‐Rodríguez, Andrés Ortíz, Nicolás J. Gallego-Molina, Marco A. Formoso, Wai Lok Woo

2023International Journal of Neural Systems14 citationsDOIOpen Access PDF

Abstract

While the brain connectivity network can inform the understanding and diagnosis of developmental dyslexia, its cause-effect relationships have not yet enough been examined. Employing electroencephalography signals and band-limited white noise stimulus at 4.8 Hz (prosodic-syllabic frequency), we measure the phase Granger causalities among channels to identify differences between dyslexic learners and controls, thereby proposing a method to calculate directional connectivity. As causal relationships run in both directions, we explore three scenarios, namely channels' activity as sources, as sinks, and in total. Our proposed method can be used for both classification and exploratory analysis. In all scenarios, we find confirmation of the established right-lateralized Theta sampling network anomaly, in line with the assumption of the temporal sampling framework of oscillatory differences in the Theta and Gamma bands. Further, we show that this anomaly primarily occurs in the causal relationships of channels acting as sinks, where it is significantly more pronounced than when only total activity is observed. In the sink scenario, our classifier obtains 0.84 and 0.88 accuracy and 0.87 and 0.93 AUC for the Theta and Gamma bands, respectively.

Topics & Concepts

ElectroencephalographyGranger causalityComputer scienceDyslexiaSpeech recognitionArtificial intelligencePattern recognition (psychology)PsychologyNeuroscienceMachine learningPolitical scienceLawReading (process)EEG and Brain-Computer InterfacesReading and Literacy DevelopmentNeural dynamics and brain function