Beyond Seizures: A Comprehensive Review of Giant Somatosensory Evoked Potentials.

Giant somatosensory evoked potentials (gSEPs) are abnormally high-amplitude cortical responses to peripheral nerve stimulation, traditionally regarded as electrophysiological hallmarks of progressive myoclonic epilepsies (PMEs). However, accumulating evidence shows their presence in a broader range of non-epileptic conditions, including focal lesions, metabolic encephalopathies, neurodegenerative diseases, and even functional disorders. This review offers a comprehensive analysis of the physiological mechanisms, diagnostic criteria, and clinical significance of gSEPs, integrating data from both classical and emerging neurophysiological techniques. gSEPs are mainly produced in the primary somatosensory cortex through mechanisms involving cortical disinhibition, impaired GABAergic transmission, and altered thalamocortical connectivity. In epileptic syndromes such as Unverricht-Lundborg disease and other PMEs, gSEPs reflect cortical hyperexcitability and are closely linked to cortical myoclonus. Conversely, in non-epileptic contexts, they may indicate transient or chronic cortical dysfunction. The diagnostic utility of gSEPs ranges from differential diagnosis of myoclonus to monitoring disease. However, heterogeneity in amplitude definitions and recording protocols hinders the standardization of these measurements. This may result in the identification of the right threshold to differentiate conditions associated with simple increased versus giant SEP, the latter of which may help identify truly epileptic conditions from other disorders simply associated with increased SEP amplitude.