Abstract
Epilepsy is one of the most common neurological disorders affecting about 1% of the world population. For patients with focal seizures that cannot be treated with antiepileptic drugs, the common treatment is a surgical procedure for removal of the seizure onset zone (SOZ). In this work we introduce an algorithm for automatic localization of the seizure onset zone (SOZ) in epileptic patients based on electrocorticography (ECoG) recordings. The proposed algorithm builds upon the hypothesis that the abnormal excessive (or synchronous) neuronal activity in the brain leading to seizures starts in the SOZ and then spreads to other areas in the brain. Thus, when this abnormal activity starts, signals recorded at electrodes close to the SOZ should have a relatively large causal influence on the rest of the recorded signals. The SOZ localization is executed in two steps. First, the algorithm represents the set of electrodes using a directed graph in which nodes correspond to recording electrodes and the edges’ weights quantify the pair-wise causal influence between the recorded signals. Then, the algorithm infers the SOZ from the estimated graph using a variant of the PageRank algorithm followed by a novel post-processing phase. Inference results for 19 patients show a close match between the SOZ inferred by the proposed approach and the SOZ estimated by expert neurologists (success rate of 17 out of 19).
Highlights
Epilepsy is one of the most common neurological disorders affecting about 70 million people worldwide
Epilepsy is a common neurological disorder characterized by abnormal electrical disturbances in the brain that result in transient occurrence of signs and/or symptoms, known as seizures
For patients with focal epilepsy that cannot be treated with medications, the common treatment is a resective surgery to remove the seizure onset zone (SOZ)
Summary
Epilepsy is one of the most common neurological disorders affecting about 70 million people worldwide. It is characterized by recurrent episodes of abnormal neural activity in the central nervous system [1]. This activity leads to transient occurrence of signs and/or symptoms, known as epileptic seizures. In this work we consider focal epilepsy and present an algorithm for SOZ localization, that is, determining the area in the brain where the abnormal neural activity leading to a focal seizure originates (a guiding hypothesis throughout our work is that in focal seizures there is a singular focal point, from which this activity originates)
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