EEG abnormalities indicating the genetic determination of epilepsies

Abstract

Genetic and acquired factors contribute to epileptogenesis in all epilepsy syndromes and patients. A comprehensive evaluation of both components of etiology is essential in every patient. In this review, the authors enumerate the EEG abnormalities indicating the genetic determination of epilepsy. The authors briefly describe generalized spike-and-wave paroxysms, focal spikes and sharp waves, photosensitivity, 4-7 Hz theta rhythm, 2-4 Hz occipital intermittent rhythmic delta activity, phi rhythm, and generalized monomorphic alpha EEG background activity. For each abnormality, the authors review prior knowledge and add recent research results. The neurophysiological meaning of the abnormalities, age distribution, the relationship to epilepsy, the role of the EEG patterns in epileptogenesis, clinical presentation, and prognosis in the individual patient are the main aspects of description and discussion. These EEG abnormalities may shape the typical, syndrome-specific phenotype, forecast severity of the disease and difficulty of treatment or pharmacoresistance, and modify the syndrome-specific general prognosis of the syndrome. Relationship to epilepsy and heritability data of the EEG abnormalities can help to estimate the risk of epilepsy in the offspring. Epilepsy syndromes are taxonomic diagnostic categories that might be enriched with neurobiological meaning and heritability relations.