影响大鼠缝隙检测的参数。

Parameters affecting gap detection in the rat.

作者信息

Leitner D S, Hammond G R, Springer C P, Ingham K M, Mekilo A M, Bodison P R, Aranda M T, Shawaryn M A

机构信息

Department of Psychology, Saint Joseph's University, Philadelphia, PA 19131-1395.

出版信息

Percept Psychophys. 1993 Sep;54(3):395-405. doi: 10.3758/bf03205275.

DOI:10.3758/bf03205275

PMID:8414898

Abstract

The present research used a startle amplitude reduction paradigm to investigate the ability of the rat's auditory system to track rapidly changing acoustic transients. Specifically examined was the ability of brief gaps in otherwise continuous noise to reduce the amplitude of a subsequently elicited acoustic startle reflex. The duration of the gap, time between gap offset and startle elicitation (the interstimulus interval or ISI), and rise-fall characteristics of the gap were systematically varied. Consistent with previous research, gaps reliably reduced startle amplitude. Gaps 2 msec long were reliably detected, and a 50-msec ISI resulted in the greatest amplitude reduction. Gaps presented at short ISIs produced amplitude reduction that followed a different time course than did gaps presented at longer ISIs. These results may reflect differences in the length of time available for the processing of the stimulus and may involve two different processes.

摘要

本研究采用惊吓幅度降低范式来探究大鼠听觉系统追踪快速变化的声学瞬变的能力。具体考察的是在连续噪声中短暂间隙降低随后诱发的听觉惊吓反射幅度的能力。间隙的持续时间、间隙结束与惊吓诱发之间的时间（刺激间隔或ISI）以及间隙的上升-下降特征均被系统地改变。与先前的研究一致，间隙可靠地降低了惊吓幅度。2毫秒长的间隙能够被可靠地检测到，且50毫秒的ISI导致最大幅度的降低。短ISI时呈现的间隙产生的幅度降低与长ISI时呈现的间隙遵循不同的时间进程。这些结果可能反映了用于刺激处理的可用时间长度的差异，并且可能涉及两个不同的过程。

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影响大鼠缝隙检测的参数。

Parameters affecting gap detection in the rat.

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