Zhengxiang Cai
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View article: <scp>Electroencephalographic</scp> source imaging of spikes with concurrent high‐frequency oscillation<scp>s</scp> is concordant with the clinical ground truth
<span>Electroencephalographic</span> source imaging of spikes with concurrent high‐frequency oscillation<span>s</span> is concordant with the clinical ground truth Open
Objective Epilepsy raises critical challenges to accurately localize the epileptogenic zone (EZ) to guide presurgical planning. Previous research has suggested that interictal spikes overlapping with high‐frequency oscillations, referred t…
View article: Spontaneous HFO Sequences Reveal Propagation Pathways for Precise Delineation of Epileptogenic Networks
Spontaneous HFO Sequences Reveal Propagation Pathways for Precise Delineation of Epileptogenic Networks Open
Epilepsy, a neurological disorder affecting millions worldwide, poses great challenges in precisely delineating the epileptogenic zone – the brain region generating seizures – for effective treatment. High-frequency oscillations (HFOs) are…
View article: Ictal source localization from intracranial recordings
Ictal source localization from intracranial recordings Open
View article: Noninvasive high-frequency oscillations riding spikes delineates epileptogenic sources
Noninvasive high-frequency oscillations riding spikes delineates epileptogenic sources Open
Significance Millions of people affected by epilepsy may undergo surgical resection of the epileptic tissues to stop seizures if such epileptic foci can be accurately delineated. High-frequency oscillations (HFOs), existing in electroencep…
View article: Noninvasive electromagnetic source imaging of spatiotemporally distributed epileptogenic brain sources
Noninvasive electromagnetic source imaging of spatiotemporally distributed epileptogenic brain sources Open
View article: Multiple Oscillatory Push–Pull Antagonisms Constrain Seizure Propagation
Multiple Oscillatory Push–Pull Antagonisms Constrain Seizure Propagation Open
Objective Drug‐resistant focal epilepsy is widely recognized as a network disease in which epileptic seizure propagation is likely coordinated by different neuronal oscillations such as low‐frequency activity (LFA), high‐frequency activity…