THE EFFECT OF BROAD-BAND NOISE ON THE BINAURAL INTERACTION COMPONENTS OF HUMAN AUDITORY BRAIN-STEM-EVOKED POTENTIALS

被引:0
|
作者
POLYAKOV, A [1 ]
PRATT, H [1 ]
机构
[1] TECHNION ISRAEL INST TECHNOL, EVOKED POTENTIALS LAB, IL-32000 HAIFA, ISRAEL
来源
AUDIOLOGY | 1995年 / 34卷 / 01期
关键词
BINAURAL INTERACTION; AUDITORY BRAIN-STEM EVOKED POTENTIALS; BROAD-BAND NOISE; 3-CHANNEL LISSAJOUS;
D O I
暂无
中图分类号
R76 [耳鼻咽喉科学];
学科分类号
100213 ;
摘要
Three-channel Lissajous trajectories (3-CLTs) of binaural interaction components (BI) of auditory brainstem potentials (ABEPs) were derived from 13 normally hearing adults by subtracting the response to binaural clicks from the algebraic sum of monaurally evoked responses to clicks. ABEPs were recorded in response to 65 dB nHL, alternating-polarity clicks, presented at a rate of 11/s. The procedure was repeated with clicks alone as well as with clicks with broad-band masking noise. Noise was presented at 25 and 45 dB nHL, producing a signal-to-noise ratio of +40 and +20 dB, respectively. All BI 3-CLTs included 6 planar segments (labeled Bd(I), Bd(II), Bd(III), Be-I Be-II and Bf) whose apex latencies, except Bf, increased with increasing noise level above 25 dB nHL, and whose durations, sizes, shapes and orientations did not change across noise levels. There were also significant increases in peak latencies of the BI from single channels vertex-mastoid and vertex-neck with increasing noise level. No significant change was found in the trajectory amplitude of apices, with the exception of apices Bd(III) and Bf whose amplitudes increased with increasing noise level. We suggest that the paradoxical increase in BI amplitude with masking noise may reflect a binaural enhancement of the effect of noise. The effects observed indicate that, whereas the response to clicks displays occlusion, the response to noise displays spatial facilitation at the brainstem level.
引用
收藏
页码:36 / 46
页数:11
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