Abstract
SummaryPitch is a fundamental percept with a complex relationship to the associated sound structure [1]. Pitch perception requires brain representation of both the structure of the stimulus and the pitch that is perceived. We describe direct recordings of local field potentials from human auditory cortex made while subjects perceived the transition between noise and a noise with a regular repetitive structure in the time domain at the millisecond level called regular-interval noise (RIN) [2]. RIN is perceived to have a pitch when the rate is above the lower limit of pitch [3], at approximately 30 Hz. Sustained time-locked responses are observed to be related to the temporal regularity of the stimulus, commonly emphasized as a relevant stimulus feature in models of pitch perception (e.g., [1]). Sustained oscillatory responses are also demonstrated in the high gamma range (80–120 Hz). The regularity responses occur irrespective of whether the response is associated with pitch perception. In contrast, the oscillatory responses only occur for pitch. Both responses occur in primary auditory cortex and adjacent nonprimary areas. The research suggests that two types of pitch-related activity occur in humans in early auditory cortex: time-locked neural correlates of stimulus regularity and an oscillatory response related to the pitch percept.
Highlights
We recorded local field potentials (LFPs) from auditory cortex along Heschl’s gyrus (HG) during presentation of a 1 s noise immediately followed by 1.5 s of regular-interval noise (RIN) [2, 4]
RIN is constructed by delaying a copy of a noise waveform for a period of, say, d, and adding it back to the original noise
When this process is iterated a number of times, the resultant RIN exhibits temporal regularity at the period of the delay, which is heard as a pitch at 1/d, provided that 1/d is greater than the lower limit of pitch, which is about 30 Hz
Summary
Relationship of Time-Locked and Induced Responses to the Stimulus Property of Regularity Figure 3A shows evoked potential magnitudes for the transition between noise and RIN for a fixed pitch value of 128 Hz. The continuous line shows the magnitude of the noise-onset response for comparison.
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