Method and system for detecting epileptogenesis

Assignee

• University of Florida Research Foundation, INC. · US

Inventors

• Sachin Subhash Talathi · San Diego, US
• Dong-Uk Hwang · Daejeon, KR
• William L. Ditto · Woodstock, US
• Paul R. Carney · Gainesville, US
• Mark Spano · Laurel, US

Key dates

Classification

• Technology area (CPC A)Human Necessities
• CPC primaryA61B2562/046
• WIPO fieldMedical technology
• WIPO sectorInstruments

Abstract

Neuronal excitation and inhibition of the brain is tracked in the hippocampal CA1 network during a latent period, wherein biomarkers are observed which include a sustained increase in the firing rate of the excitatory postsynaptic field activity, paired with a subsequent decrease in the firing rate of the inhibitory postsynaptic field activity; the mean amplitude profiles of both fEPSP and fEPSP field potential activity during the latent period have characteristic shapes; both excitatory and inhibitory CA1 field activity firing rates are observed to follow a circadian rhythm that drifts during epileptogenesis; the circadian rhythms described are in-phase in controls and anti-phase during epileptogenesis; and the fEPSP rate drifts from a circadian rhythm to a greater extent than the fEPSP rate. An additional biomarker is a change in a circadian rhythm of core body temperature. Therapeutic measures can include thermal, chemical, or electrical modulation, in an open or closed loop process.