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JCNS
2008

Spike-frequency adaptation generates intensity invariance in a primary auditory interneuron

14 years 17 days ago
Spike-frequency adaptation generates intensity invariance in a primary auditory interneuron
Adaptation of the spike-frequency response to constant stimulation, as observed on various timescales in many neurons, reflects high-pass filter properties of a neuron's transfer function. Adaptation in general, however, is not sufficient to make a neuron's response independent of the mean intensity of a sensory stimulus, since low frequency components of the stimulus are still transmitted, although with reduced gain. We here show, based on an analytically tractable model, that the response of a neuron is intensity invariant, if the fully adapted steady-state spike-frequency response to constant stimuli is independent of stimulus intensity. Electrophysiological recordings from the AN1, a primary auditory interneuron of crickets, show that for intensities above 60 dB SPL (sound pressure level) the AN1 adapted with a time-constant of 40 ms to a steady-state firing rate of 100 Hz. Using identical random amplitude-modulation stimuli we verified that the AN1's spike-freque...
Jan Benda, Matthias Hennig
Added 13 Dec 2010
Updated 13 Dec 2010
Type Journal
Year 2008
Where JCNS
Authors Jan Benda, Matthias Hennig
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