Jedrzejczak W Wiktor, Piotrowska Anna, Kochanek Krzysztof, Sliwa Lech, Skarzynski Henryk
Institute of Physiology and Pathology of Hearing, ul. Mochnackiego 10, 02-042 Warszawa, Poland; World Hearing Center, ul. Mokra 17, Kajetany, 05-830 Nadarzyn, Poland.
Int J Pediatr Otorhinolaryngol. 2013 Oct;77(10):1724-8. doi: 10.1016/j.ijporl.2013.08.002. Epub 2013 Aug 14.
Click evoked otoacoustic emissions in children are known to be good indicators of hearing function when used in the frequency range 1.5-4 kHz. Using two commercial devices, the present study investigates the usefulness of responses in the lower frequency range of 0.5-1 kHz evoked by 0.5 kHz tone bursts.
Otoacoustic emissions (OAEs) were recorded from the ears of 37 schoolchildren (age 12-13 years). OAE measurements were then made using two devices: the ILO 292 (Otodynamics) and the HearId (Mimosa Acoustics). Each device was used for two measurements: first with a standard click stimulus at 80 dB pSPL (CEOAEs) and a second using a 0.5 kHz tone burst at 80 dB pSPL (TBOAEs). Pure tone audiometry and tympanometry were also conducted. Half-octave-band values of OAE signal to noise ratios (SNRs) and response levels were used to assess statistical differences.
Both devices provided similar SNR results for click and tone burst stimuli, although the ILO device generated slightly higher response levels for clicks. For the 0.5 kHz tone bursts, both devices evoked very weak responses at 0.5 kHz and the peak response occurred at 0.7-1 kHz. Generally, CEOAE SNRs were about 10 dB in the 1-4 kHz range, while SNRs for 0.5 kHz TBOAEs were about 10 dB at 0.7-1 kHz.
0.5 kHz TBOAEs could be measured in children as effectively as CEOAEs. They can provide additional information about the 0.7-1 kHz frequency range, a range over which CEOAEs do not usually contain responses above the noise floor. The main difficulty was that the maxima of the 0.5 kHz TBOAEs occurred at frequencies of 0.7-1 kHz, probably because of spectral splatter from the short tone burst stimulus and from rapidly falling responses of the cochlea and the recording system at low frequencies.
已知当用于1.5 - 4千赫频率范围时,儿童的瞬态诱发耳声发射是听力功能的良好指标。本研究使用两种商用设备,调查了由0.5千赫短纯音诱发的0.5 - 1千赫低频范围内反应的有用性。
从37名学童(年龄12 - 13岁)的耳朵记录耳声发射(OAE)。然后使用两种设备进行OAE测量:ILO 292(Otodynamics公司)和HearId(Mimosa Acoustics公司)。每个设备用于两次测量:第一次使用80分贝声压级的标准瞬态声刺激(CEOAEs),第二次使用80分贝声压级的0.5千赫短纯音(TBOAEs)。还进行了纯音听力测定和鼓室图测量。使用OAE信噪比(SNR)和反应水平的半倍频程带值来评估统计差异。
尽管ILO设备对瞬态声产生的反应水平略高,但两种设备对瞬态声和短纯音刺激提供了相似的SNR结果。对于0.5千赫短纯音,两种设备在0.5千赫时诱发的反应非常弱,峰值反应出现在0.7 - 1千赫。一般来说,CEOAEs的SNR在1 - 4千赫范围内约为10分贝,而0.5千赫TBOAEs在0.7 - 1千赫时的SNR约为10分贝。
0.5千赫TBOAEs在儿童中测量的效果与CEOAEs一样好。它们可以提供有关0.7 - 1千赫频率范围的额外信息,在该频率范围内CEOAEs通常不包含高于本底噪声的反应。主要困难在于0.5千赫TBOAEs的最大值出现在0.7 - 1千赫频率处,这可能是由于短纯音刺激的频谱扩散以及耳蜗和记录系统在低频处快速下降的反应所致。
