Análise da seletividade à orientação no potencial de campo local em modelo animal utilizando técnicas estatísticas de processamento de sinais

Abstract

Orientation selectivity is a phenomenon observed by stimulating the receptive field of a cell with multiple boundary orientations and verifying the maximum firing rate of individual neuron (SUA, Single-Unity Activity). OS is usually studied by means of the tuning curve, a function of the firing rate and the orientation angles of a stimulus. Another electrophysiological signal acquired by intracerebral extracellular microelectrodes, which showed to be useful for investigating processes related to orientation selectivity, is the Local Field Potential (LFP). The LFP is composed of low frequency fluctuations (<250 Hz) from the integrated activity of a neuron population around the electrode. Thus, the present work aims at evaluating whether LFP frequency parameters preserve orientation selectivity information verified in the tuning curve during visual stimuli presentation. For this purpose, LFP signals (fs = 1 kHz) and SUA (fs = 32 kHz) were collected from 106 sites of the visual wulst of Tyto Alba owls during periods with and without the presence of visual stimuli (sinusoidal gratings) with orientation varying from 0 to 360° in steps of 22.5°, with 9 trials for each orientation. A set of estimates was calculated for the LFP signals within delta (0.5-4 Hz), theta (4.5-8 Hz), alpha (8.5-14 Hz), beta (14.5-30 Hz) and gamma (30.5-100 Hz) bands and compared to tuning curve of individual neurons (SUA). The employed techniques were: Power (Pow), Spectral F Test (SFT), Magnitude-squared Coherence (MSC), Phase Locking Value (PLV), and Spike-triggered Correlation Matrix Synchronization (SCMS). The Spearman Rank Correlation Test was applied to tuning curve and LFP techniques curves to assess the correlation between them. In addition, it was verified whether selectivity estimators of orientation and direction of the LFP and tuning curve have similarities across different sites. For this purpose, unitary statistical parameters, Orientation Index (OI), Direction Index (DI), Circular Variance of Orientation (CVO) and Circular Variance of Direction (CVD) were applied to the LFP techniques (Pow, TFE, MSC, PLV and SCMS) and tuning curve, and calculating the Spearman correlation coefficient. The results showed that magnitude-based estimates (Pow and TFE) preserve tuning curve information in the beta and gamma bands, while techniques that employ phase information (PLV and MSC) do not reproduce tuning curve in any band. Additionally, the estimate of the synchronism between spikes and LFP, calculated from the SCMS, keeps the tuning curve characteristics in all bands.