Floody Owen R, Kilgard Michael P
Department of Psychology, Bucknell University, Lewisburg, Pennsylvania 17837, USA.
J Acoust Soc Am. 2007 Oct;122(4):1884-7. doi: 10.1121/1.2770548.
The intensity of a noise-induced startle response can be reduced by the presentation of an otherwise neutral stimulus immediately before the noise ("prepulse inhibition" or PPI). This effect has been used to study the detection of gaps and other stimuli, but has been applied infrequently to complex stimuli or the ability to discriminate among multiple stimuli. To address both issues and explore the potential of PPI, rats were presented a series of 5 tasks, most contrasting a pair of speech sounds. One of these (the "standard" stimulus) occurred frequently but rarely preceded the startle stimulus. The second occurred infrequently (as an "oddball") and always preceded a noise. In each such task, startle responses were inhibited more by the oddball than by the standard stimulus, usually within the first test. This suggests that PPI can be adapted to studies of the discrimination of speech and other complex sounds, and that this method can provide useful information on subjects' ability to discriminate with greater ease and speed than other methods.
在噪声之前立即呈现一个原本中性的刺激(“前脉冲抑制”或PPI),可以降低噪声诱发的惊吓反应的强度。这种效应已被用于研究间隙和其他刺激的检测,但很少应用于复杂刺激或区分多个刺激的能力研究。为了解决这两个问题并探索PPI的潜力,给大鼠呈现了一系列5个任务,大多数任务是对比一对语音。其中一个(“标准”刺激)频繁出现,但很少先于惊吓刺激出现。第二个则很少出现(作为“异常球”),并且总是先于噪声出现。在每个这样的任务中,通常在第一次测试时,异常球比标准刺激对惊吓反应的抑制作用更强。这表明PPI可以适用于语音和其他复杂声音辨别研究,并且这种方法可以比其他方法更轻松、快速地提供有关受试者辨别能力的有用信息。