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Local and global measures of information storage for the assessment of heartbeat-evoked cortical responses

Chiara Barà, Andrea Zaccaro, Yuri Antonacci, Маттео Далла Ріва, Alessandro Busacca, Francesca Ferri, Luca Faes, Riccardo Pernice

2023Biomedical Signal Processing and Control15 citationsDOIOpen Access PDF

Abstract

Brain–heart interactions involve bidirectional effects produced by bottom-up input at each heartbeat, and top-down neural regulatory responses of the brain. While the cortical processing of the heartbeat is usually investigated through the analysis of the Heartbeat Evoked Potential, in this study we propose an alternative approach based on the variability in the predictability of the brain dynamics induced by the heartbeat. In a group of eighteen subjects in whom simultaneous recording of the electroencephalogram (EEG) and electrocardiogram was performed in a resting-state, we analyzed the temporal profile of the local Information Storage (IS) to detect changes in the regularity of EEG signals in time windows associated with different phases of the cardiac cycle at rest. The average values of the local IS were significantly higher in the parieto-occipital areas of the scalp, suggesting an activation of the Default Mode Network, regardless of the cardiac cycle phase. In contrast, the variability of the local IS showed marked differences across the cardiac cycle phases. Our results suggest that cardiac activity influences the predictive information of EEG dynamics differently in the various phases of the cardiac cycle. The variability of local IS measures can represent a useful index to identify spatio-temporal dynamics within the neurocardiac system, which generally remain overlooked by the more widely employed global measures.

Topics & Concepts

HeartbeatElectroencephalographyCardiac cyclePredictabilityComputer scienceHeart rate variabilityBrain activity and meditationContrast (vision)Resting state fMRIDynamics (music)Artificial intelligenceNeurosciencePattern recognition (psychology)Heart ratePsychologyMathematicsCardiologyStatisticsMedicineInternal medicineComputer securityPedagogyBlood pressureEEG and Brain-Computer InterfacesFunctional Brain Connectivity StudiesHeart Rate Variability and Autonomic Control
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