论文信息 - Spike-triggered averaging to assess rat auditory cortex time-frequency receptive fields

Spike-triggered averaging to assess rat auditory cortex time-frequency receptive fields

Receptive fields have been used as a tool to study the functional organization of the auditory system in several animals. In this study, they have been used to characterize the primary auditory cortex of rats, specifically to address the differences in auditory processing at different depths of the cortex. The depths chosen; 500, 800 and 1300 /spl mu/m correspond to layers IV, V and VI of the cortex. This study aims at quantifying the differences in the receptive field in terms of changes in latency, differences in tuning curves, spectral bandwidth and the complexity of the receptive fields. The following preliminary trends were observed: the mean peak latency changes from 10 /spl plusmn/ 4 ms at a depth of 500 /spl mu/m to 46 /spl plusmn/ 13.08 ms at a depth of 1300 /spl mu/m. Mean spectral bandwidth changes from 6.4 /spl plusmn/ 0.95 kHz at 500 /spl mu/m to 8.9 /spl plusmn/ 1.73 KHz at 800 /spl mu/m to 8 /spl plusmn/ 2.53 KHz at 1300 /spl mu/m. The mean temporal width changes with increasing depth from 13.6 /spl plusmn/ 1.15 ms at 500 /spl mu/m to 9.4 /spl plusmn/ 1.88 ms at 1300 /spl mu/m. Quantitative characterization of the receptive field can be used to generate mathematical models of the auditory neurons, which could aid the computation of stimulation levels for implantable cortical prosthetics. Preliminary data from our experiment on three animals has been presented here.

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