Hippocampal spindles and barques are normal intracranial electroencephalographic entities.

Abstract Objective To assess whether hippocampal spindles and barques are markers of epileptogenicity. Methods Focal epilepsy patients that underwent stereo-electroencephalography implantation with at least one electrode in their hippocampus were selected (n=75). The occurrence of spindles and barques in the hippocampus was evaluated in each patient. We created pairs of pathologic and pathology-free groups according to two sets of criteria: 1. Non-invasive diagnostic criteria (patients grouped according to focal epilepsy classification). 2. Intracranial neurophysiological criteria (patient’s hippocampi grouped according to their seizure onset involvement). Results Hippocampal spindles and barques appear equally often in both pathologic and pathology-free groups, both for non-invasive (Pspindles=0.73; Pbarques=0.46) and intracranial criteria (Pspindles=0.08; Pbarques=0.26). In Engel Class I patients, spindles occurred with similar incidence both within the non-invasive (P=0.67) and the intracranial criteria group (P=0.20). Barques were significantly more frequent in extra-temporal lobe epilepsy defined by either non-invasive (P=0.01) or intracranial (P=0.01) criteria. Conclusions Both spindles and barques are normal entities of the hippocampal intracranial electroencephalogram. The presence of barques may also signify lack of epileptogenic properties in the hippocampus. Significance Understanding that hippocampal spindles and barques do not reflect epileptogenicity is critical for correct interpretation of epilepsy surgery evaluations and appropriate surgical treatment selection.