Accurate spike time prediction from LFP in monkey visual cortex: A non-linear system identification approach

K. Kostoglou, A. Hadjipapas, E. Lowet, M. Roberts, P. de Weerd, G.D. Mitsis

Research output: Contribution to conferencePosterAcademic

Abstract

Aims: The relationship between collective population activity (LFP) and spikes underpins network computation, yet it remains poorly understood. Previous studies utilized pre-defined LFP features to predict spiking from simultaneously recorded LFP, and have reported good prediction of spike bursts but only moderate accuracies for individual spikes. Our aim was to utilize a data-driven approach, without relying on feature selection, to predict individual spike times.

Methods: The relationship between LFPs and multi-unit spike trains in monkey early visual cortex during passive viewing of grating stimuli was analyzed using a variant of the general Volterra approach (Laguerre-Volterra network). Network parameters were trained based on a hybrid Genetic Algorithm ? Interior Point optimization method, and model selection was achieved via cross-validation. The Matthews Correlation Coefficient (-1

Results: Single trial MCCs ranged from 0.45 to 0.66 (median=0.60). Superior performance of 2nd order relative to 1st order models indicated a nonlinear relationship between LFPs and spikes in visual cortex. Consistent with other studies, the PDMs of the identified system exhibited low-pass (theta frequency) and high-pass (gamma frequency) characteristics.

Conclusions: We successfully predicted multi-unit spike times from local LFPs with reasonable accuracy and without selection of a-priori features. Our approach enhances our understanding of spike precision and spike timing, and of the network principles underlying the neural code
Original languageEnglish
PagesG025
Publication statusPublished - 1 Jan 2014
EventG.6 Computation, modelling, data analysis and software -
Duration: 5 Jul 20149 Jul 2014

Conference

ConferenceG.6 Computation, modelling, data analysis and software
Period5/07/149/07/14

Cite this