人类听觉持续电位。II. 刺激关系。

Human auditory sustained potentials. II. Stimulus relationships.

作者信息

Picton T W, Woods D L, Proulx G B

出版信息

Electroencephalogr Clin Neurophysiol. 1978 Aug;45(2):198-210. doi: 10.1016/0013-4694(78)90004-4.

Abstract

The auditory sustained potential recorded from the human scalp increases in amplitude with increasing stimulus intensity. At rapid rates of stimulus presentation its amplitude decreases but proportionately less so than the amplitude of the transient onset auditory evoked potential. The frequency specificity of this rate effect is complex, suggesting that there may be two underlying components of the scalp-recorded auditory sustained potential. The amplitude of the auditory sustained potential is smaller when the tonal frequency of the stimulus is higher. With prolonged stimulus durations there is some adaptation of the amplitude of the auditory sustained potential. This potential is larger in amplitude when sounds are presented binaurally than monaurally, and has a symmetrical coronal scalp distribution that is unaffected by the ear of stimulation.

摘要

从人类头皮记录到的听觉持续电位的振幅会随着刺激强度的增加而增大。在快速呈现刺激时，其振幅会减小，但减小的幅度比瞬态起始听觉诱发电位的振幅要小。这种速率效应的频率特异性很复杂，这表明头皮记录的听觉持续电位可能存在两个潜在成分。当刺激的音调频率较高时，听觉持续电位的振幅较小。随着刺激持续时间的延长，听觉持续电位的振幅会有一定程度的适应。当双耳呈现声音时，该电位的振幅比单耳呈现时更大，并且在冠状头皮上具有对称分布，不受刺激耳的影响。

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人类听觉持续电位。II. 刺激关系。

Human auditory sustained potentials. II. Stimulus relationships.

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