[镫骨肌声反射阈测量中短声刺激的临床价值]
[The clinical value of click stimuli on the measurement of ipsilateral acoustic reflex thresholds].
作者信息
Guo Y L, Dai B Q, Li Q R, Zhong N C
机构信息
Department of Otorhinolaryngology, Hospital of Traditional Chinese Medicine of Zhongshan, Zhongshan 528400.
出版信息
Lin Chuang Er Bi Yan Hou Ke Za Zhi. 2000 Jul;14(7):301-2.
OBJECTIVE
To define that click can substitute for pure tone as a stimulus to measure ipsilateral acoustic reflex thresholds, and to find out the effect of probe frequency on acoustic reflex thresholds.
METHOD
Using middle ear analyzer (GSI 33, version 2), we measured 23 normal voluntary participants (46 ears) for getting the pure-tone generated ipsilateral acoustic reflex thresholds at different probe frequency and the click evoked ipsilateral acoustic reflex thresholds at click rate 100/s and 180/s for every ear.
RESULT
For pure tone, the ipsilateral acoustic reflex thresholds at 500 Hz, 1000 Hz, 2000 Hz, were (84.35 +/- 6.96) dB, (84.65 +/- 5.93) dB, (87.96 +/- 6.36) dB by using 226 Hz probe; (93.13 +/- 6.54) dB, (92.70 +/- 6.33) dB, (93.35 +/- 5.99) dB by using 678 Hz probe; (86.52 +/- 4.72) dB, (87.48 +/- 5.00) dB, (88.30 +/- 6.16) dB by using 1000 Hz probe. For click, the ipsilateral acoustic reflex thresholds at click rate 100/s and 180/s were (89.78 +/- 6.83) dB, (92.07 +/- 7.42) dB by using 226 Hz probe; (90.44 +/- 6.76) dB, (90.65 +/- 6.38) dB by using 678 Hz probe; (88.04 +/- 6.87) dB, (88.69 +/- 7.42) dB by using 1000 Hz probe. The acoustic reflex thresholds for 678 Hz probe were higher than those obtained with 226 Hz and 1000 Hz probes.
CONCLUSION
There were no artifact appearance while stimulus had been click at low rate, so click can be used for the measurement of ipsilateral acoustic reflex thresholds.
目的
确定咔嗒声能否替代纯音作为刺激来测量同侧听觉反射阈值,并探究探测频率对听觉反射阈值的影响。
方法
使用中耳分析仪(GSI 33,版本2),我们对23名正常自愿参与者(46只耳)进行测量,以获取每只耳在不同探测频率下纯音诱发的同侧听觉反射阈值,以及在咔嗒声频率为100次/秒和180次/秒时咔嗒声诱发的同侧听觉反射阈值。
结果
对于纯音,使用226赫兹探测频率时,500赫兹、1000赫兹、2000赫兹处的同侧听觉反射阈值分别为(84.35±6.96)分贝、(84.65±5.93)分贝、(87.96±6.36)分贝;使用678赫兹探测频率时,分别为(93.13±6.54)分贝、(92.70±6.33)分贝、(93.35±5.99)分贝;使用1000赫兹探测频率时,分别为(86.52±4.72)分贝、(87.48±5.00)分贝、(88.30±6.16)分贝。对于咔嗒声,使用226赫兹探测频率时,咔嗒声频率为100次/秒和180次/秒时的同侧听觉反射阈值分别为(89.78±6.83)分贝、(92.07±7.42)分贝;使用678赫兹探测频率时,分别为(90.44±6.76)分贝、(90.65±6.38)分贝;使用1000赫兹探测频率时,分别为(88.04±6.87)分贝、(88.69±7.42)分贝。678赫兹探测频率的听觉反射阈值高于226赫兹和1000赫兹探测频率时的阈值。
结论
在低速率咔嗒声刺激时无伪迹出现,因此咔嗒声可用于测量同侧听觉反射阈值。
Zotero 插件