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EEG spikes resembling cardiac M-shaped waves in the EKG: the cerebral M pattern
A.Bruce Janati,Naif S. ALGhasab,Tariq Aziz,Fazal Haq,Fahad Saad ALGhassab,Tariq Iqhbal,Rehab Khaleel Alenazy 대한임상신경생리학회 2017 Annals of Clinical Neurophysiology Vol.19 No.1
Studies of interictal epileptiform discharges are essential for improving the diagnosis, classification, and management of epilepsy. In this case series we sought to identify the clinical and neurophysiological significance of bifid spikes, whose pattern bears a strong resemblance to the cardiac M pattern. We hypothesize that, analogous to the cardiac M pattern, the cerebral M pattern is generated by a conduction defect associated with asynchronous spatiotemporal averaging of electrical signals in the cortex, resulting in the signals reaching the scalp with different latencies. Unlike the cardiac M pattern, the pathology underlying the cerebral M pattern is unknown, although congenital CNS anomalies may be a culprit.
EEG spikes resembling cardiac M-shaped waves in the EKG: the cerebral M pattern
Janati, A.Bruce,ALGhasab, Naif S.,Aziz, Tariq,Haq, Fazal,ALGhassab, Fahad Saad,Iqhbal, Tariq,Alenazy, Rehab Khaleel The Korean Society for Clinical Neurophysiology 2017 Annals of Clinical Neurophysiology Vol.19 No.1
Studies of interictal epileptiform discharges are essential for improving the diagnosis, classification, and management of epilepsy. In this case series we sought to identify the clinical and neurophysiological significance of bifid spikes, whose pattern bears a strong resemblance to the cardiac M pattern. We hypothesize that, analogous to the cardiac M pattern, the cerebral M pattern is generated by a conduction defect associated with asynchronous spatiotemporal averaging of electrical signals in the cortex, resulting in the signals reaching the scalp with different latencies. Unlike the cardiac M pattern, the pathology underlying the cerebral M pattern is unknown, although congenital CNS anomalies may be a culprit.