Add to ORKGNetwork physiology is a recent approach describing the human body as an integrated network composed of several organ systems which continuously interact to produce healthy and diseased states. In this work, we apply the network physiology paradigm to study dynamical interactions between EEG activity and heart rate variability in children suffering from focal epilepsy. We aim to study the characteristics of brainheart coupling between, before, and after seizures to better understand the physiological mechanisms underlying seizure onset in the pre-ictal phase and the recovery of normal autonomic function in the post-ictal phase. In perspective, linking the dynamic information of brain-heart can provide useful information for a better seizure ...
Temporal lobe epilepsy (TLE) is associated with dysfunction of the autonomic nervous system. While i...
SummaryObjectiveRepetitive seizures can alter the regulation of cardiac activity by the autonomic ne...
ObjectivePost-ictal EEG alterations have been identified in studies of intracranial recordings, but ...
Network physiology is a recent approach describing the human body as an integrated network composed ...
Objective.While it is well-known that epilepsy has a clear impact on the activity of both the centra...
In this work we apply the network physiology paradigm to retrieve information from central and auton...
In this work, partial information decomposition (PID) was applied to the time series of heart rate a...
In this work we explore the potential of combining standard time and frequency domain indexes with n...
The term "Epilepsy" encompasses a broad spectrum of medical and social disorders that affect about 6...
We apply information decomposition methods to elicit unique, redundant and synergistic causal contri...
International audienceBackground: Disruptions in central autonomic processes in people with epilepsy...
AbstractEpileptic seizures can lead to changes in autonomic function affecting the sympathetic, para...
Early detection of seizures could reduce associated morbidity and mortality and improve the quality ...
Temporal lobe epilepsy (TLE) is associated with dysfunction of the autonomic nervous system. While i...
SummaryObjectiveRepetitive seizures can alter the regulation of cardiac activity by the autonomic ne...
ObjectivePost-ictal EEG alterations have been identified in studies of intracranial recordings, but ...
Network physiology is a recent approach describing the human body as an integrated network composed ...
Objective.While it is well-known that epilepsy has a clear impact on the activity of both the centra...
In this work we apply the network physiology paradigm to retrieve information from central and auton...
In this work, partial information decomposition (PID) was applied to the time series of heart rate a...
In this work we explore the potential of combining standard time and frequency domain indexes with n...
The term "Epilepsy" encompasses a broad spectrum of medical and social disorders that affect about 6...
We apply information decomposition methods to elicit unique, redundant and synergistic causal contri...
International audienceBackground: Disruptions in central autonomic processes in people with epilepsy...
AbstractEpileptic seizures can lead to changes in autonomic function affecting the sympathetic, para...
Early detection of seizures could reduce associated morbidity and mortality and improve the quality ...
Temporal lobe epilepsy (TLE) is associated with dysfunction of the autonomic nervous system. While i...
SummaryObjectiveRepetitive seizures can alter the regulation of cardiac activity by the autonomic ne...
ObjectivePost-ictal EEG alterations have been identified in studies of intracranial recordings, but ...