Phase-dependence of response curves to deep brain stimulation and their relationship: from essential tremor patient data to a Wilson–Cowan model

Phase dependence of response curves to stimulation and their relationship: from a Wilson-Cowan model to essential tremor patient data published as: https://t.co/OR47qSjZDn #The_Journal_of_Mathematical_Neuroscience #biorxiv

We used models previously fitted to data recorded from patients with essential tremor (https://t.co/ouPs71zUpz). The models reproduce tremor dynamics as well as the phase-dependent effects of phase-locked DBS (data from https://t.co/drAyypvhVs). 5/10 http

RT @duchetb: Check out our newly published work! One simple feedback loop comprising excitatory and inhibitory neurons is enough to reprodu…

RT @duchetb: Check out our newly published work! One simple feedback loop comprising excitatory and inhibitory neurons is enough to reprodu…

RT @duchetb: Check out our newly published work! One simple feedback loop comprising excitatory and inhibitory neurons is enough to reprodu…

RT @duchetb: Check out our newly published work! One simple feedback loop comprising excitatory and inhibitory neurons is enough to reprodu…

Check out our newly published work! One simple feedback loop comprising excitatory and inhibitory neurons is enough to reproduce the dependence of the effects of deep brain stimulation on the phase of the ongoing tremor. https://t.co/ZWD4pDpv4i

Phase-dependence of response curves to deep brain stimulation and their relationship: from essential tremor patient data to a Wilson-Cowan model. https://t.co/Uw14DbR5xx