Arnold S, Burkard R
Department of Speech Language Pathology, Buffalo State College, New York, USA.
J Acoust Soc Am. 1998 Sep;104(3 Pt 1):1565-73. doi: 10.1121/1.424368.
The auditory evoked potential f2-f1 difference tone (DT) and the 2 f1-f2 cubic difference tone (CDT) were recorded from electrodes implanted in the inferior colliculus in a group of chinchillas. The purpose of this study was to measure normative aspects of AEP distortion products in awake chinchillas, by comparing the DT and CDT under a variety of stimulus conditions. For experiment 1, f1 was held constant at 1998 Hz, while the f2/f1 ratio was varied from 1.05 to 1.50. Input-output functions were measured over a range of primary tone levels up to 80 dB SPL. The amplitude of the DT was greatest for the smallest f2/f1 ratio, and decreased systematically as f2/f1 ratio increased. DT amplitude was greater than CDT amplitude for all primary tone pairs. Experiment 2 was conducted to determine the effect of f1 frequency upon the DT and CDT for a constant f1-f2 difference frequency of 102 Hz (f1-999, 1998, 4999, and 9998 Hz). The DT input-output functions were overlapping for all f1 frequencies. For the CDT, amplitude decreased with increasing f1 frequency, which corresponded to an increase in CDT frequency. In experiment 3, the relationship between ear of stimulation and inferior colliculus recorded from was investigated. DT input-output functions (f1 = 1998 Hz, DT = 102 Hz) were measured for monaural contralateral, monaural ipsilateral, and dichotic stimulus conditions. DT amplitude was largest for the contralateral condition, followed by the ipsilateral condition. A smaller, dichotic component to the DT was observed as well.
在一组龙猫中,从植入下丘的电极记录听觉诱发电位f2 - f1差频音(DT)和2f1 - f2三次差频音(CDT)。本研究的目的是通过比较各种刺激条件下的DT和CDT,测量清醒龙猫中AEP畸变产物的标准情况。实验1中,f1保持在1998Hz不变,而f2/f1比值从1.05变化到1.50。在高达80dB SPL的一系列初级音水平范围内测量输入 - 输出函数。对于最小的f2/f1比值,DT的幅度最大,并随着f2/f1比值的增加而系统地减小。对于所有初级音对,DT幅度大于CDT幅度。进行实验2以确定对于102Hz的恒定f1 - f2差频(f1为999、1998、4999和9998Hz),f1频率对DT和CDT的影响。所有f1频率下的DT输入 - 输出函数相互重叠。对于CDT,幅度随着f1频率的增加而减小,这对应于CDT频率的增加。在实验3中,研究了刺激耳与记录下丘之间的关系。在单耳对侧、单耳同侧和双耳刺激条件下测量DT输入 - 输出函数(f1 = 1998Hz,DT = 102Hz)。DT幅度在对侧条件下最大,其次是同侧条件。还观察到DT有较小的双耳成分。