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The Journal of Neurophysiology Vol. 84 No. 2 August 2000, pp. 844-852
Copyright ©2000 by the American Physiological Society
Medical Research Council Institute of Hearing Research, University of Nottingham, Nottingham NG7 2RD, United Kingdom
Palmer, Alan R.,
Dan Jiang, and
David McAlpine.
Neural Responses in the Inferior Colliculus to Binaural Masking
Level Differences Created by Inverting the Noise in One Ear. J. Neurophysiol. 84: 844-852, 2000. We have
measured the responses of inferior colliculus neurons in the
anesthetized guinea pig to signals which in human psychophysical experiments reveal a release of masking as a result of binaural processing (the binaural masking level difference: BMLD). More specifically we have used diotic tones at 500 Hz (So) masked by noise
that is either identical at the two ears (No) or inverted in one ear
(N
). This combination of signals and noise maskers produces a
prominent masking release in humans such that the So signal is about
6-12 dB more detectable in the presence of the N noise than the No
noise. Low-frequency inferior colliculus neurons are sensitive to the
interaural delay of the masking noise and generally respond most to the
components nearest their best frequency. Since most inferior colliculus
neurons have peaks in their delay functions close to zero interaural
time delay this means that while No noise is effective in driving the
unit, N noise is much less effective. As the level of an So tone was
progressively increased in the presence of No and N noises, the
first response could be either an increase or a decrease in the
activity due to the noise. However, because N generated little or no
activity itself, the predominant response to the So tone was an
increase in discharge in this condition. Masked thresholds were defined as the point at which the standard separation D (related to
the d' of signal detection theory) = 1 in either
direction. BMLDs were measured in single neurons and in the majority of
units were in a direction consistent with the psychophysical
observations irrespective of the direction of the discharge rate change
that occurred at threshold. The lowest masked thresholds always
occurred at or near the signal frequency of 500 Hz. An average value of the single unit BMLD around 500 Hz was 3.6 dB (NoSo vs. NSo) compared with 6.6 dB for the NoSo versus NoS BMLD we had previously reported. This lower magnitude is consistent with the hierarchy of
human psychophysical BMLDs.
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