Schairer Kim S, Morrison Brooke, Szewczyk Ellyn, Fowler Cynthia G
Department of Communicative Disorders, University of Wisconsin, WI, USA.
J Am Acad Audiol. 2011 May;22(5):253-64. doi: 10.3766/jaaa.22.5.2.
The overall goal of the current study was to examine the relationships among uncompensated admittance (Ya) at ambient pressure extracted from tympanograms, energy reflectance (ER) measures at ambient pressure from wideband acoustic transfer functions (WATF), and distortion product otoacoustic emissions (DPOAEs). If WATF measures of Ya are comparable to tympanometric measures of Ya at ambient pressure, it would be further evidence that the two systems provide comparable information at ambient pressure. Such a relationship could be used as a cross-check or validation for WATF measures and support the use of WATFs in lieu of tympanograms in some applications. Finally, if WATF measures of Ya and/or ER at DPOAE stimulus frequencies can account for some of the variability observed in DPOAE levels and/or signal-to-noise ratios (SNRs) in ears with normal hearing, the relationships could be used to improve hearing screening procedures.
The hypotheses were as follows: (1) measures of Ya at ambient pressure are significantly correlated as measured with tympanometric and WATF procedures and (2) measures of Ya and ER at DPOAE stimulus frequencies are significantly correlated with DPOAE level and SNR.
Repeated measures in human adults.
Forty ears of 20 adults with normal hearing and middle ear function were included in the final sample.
Tympanograms were obtained using probe frequencies of 226, 678, and 1000 Hz; WATFs were obtained using a click probe, and DPOAEs were elicited with f2's of 1000, 2000, and 4000 Hz. A repeated measures analysis of variance (RM-ANOVA) was completed to identify significant differences between ears and among probe frequencies for Ya measured at ambient pressure from the Tympstar and for Ya measured at the three closest frequencies on the WATFs. Lines were fit to the comparison of Ya from the Tympstar and WATF, and percent variance accounted for (r2) was calculated. Ya and ER were extracted at all stimulus frequencies that were used to elicit DPOAEs and were compared to DPOAE levels and SNRs. RM-ANOVAs were completed to identify any significant differences in DPOAE level and SNR between ears and among f2 conditions. Lines were fit to the comparison of Ya and ER measures at f1 and f2 with the DPOAE levels and SNRs. The relationship between behavioral air conduction threshold at each f2 and DPOAE level (and SNR) was examined with regression analysis.
Ya was significantly correlated between the tympanometric and WATF measures at all three probe-tone frequencies. Ya and ER at f1 and f2 were significantly correlated with DPOAE level for f2 = 4000 Hz.
The implications are as follows: (1) WATFs, which can be obtained with the same probe microphone system as DPOAEs, could be used as a supplement to tympanometry in a diagnostic test battery, and the relationship between Ya measured on the two systems could be used for verification, and (2) Ya and ER measures from WATFs at both DPOAE stimulus frequencies account for some of the variability observed in DPOAE levels at f2 = 4000 Hz in normal ears.
本研究的总体目标是检验从鼓室图提取的环境压力下的未补偿导纳(Ya)、宽带声传递函数(WATF)在环境压力下的能量反射率(ER)测量值以及畸变产物耳声发射(DPOAE)之间的关系。如果WATF对Ya的测量值与环境压力下鼓室测量的Ya值具有可比性,这将进一步证明这两种系统在环境压力下提供了可比的信息。这样的关系可以用作WATF测量的交叉核对或验证,并支持在某些应用中使用WATF代替鼓室图。最后,如果在DPOAE刺激频率下的Ya和/或ER的WATF测量值能够解释在听力正常的耳朵中观察到的DPOAE水平和/或信噪比(SNR)的一些变异性,则这些关系可用于改进听力筛查程序。
假设如下:(1)环境压力下Ya的测量值在鼓室测量和WATF测量中显著相关,(2)在DPOAE刺激频率下的Ya和ER测量值与DPOAE水平和SNR显著相关。
对成年人类进行重复测量。
最终样本包括20名听力正常且中耳功能正常的成年人的40只耳朵。
使用226、678和1000Hz的探测频率获得鼓室图;使用短声探头获得WATF,并用1000、2000和4000Hz的f2引出DPOAE。完成重复测量方差分析(RM-ANOVA),以确定在环境压力下从Tympstar测量的Ya以及在WATF上三个最接近频率测量的Ya在耳朵之间和探测频率之间的显著差异。对Tympstar和WATF的Ya比较进行拟合,并计算解释方差百分比(r2)。在用于引出DPOAE的所有刺激频率下提取Ya和ER,并将其与DPOAE水平和SNR进行比较。完成RM-ANOVA以确定耳朵之间以及f2条件之间在DPOAE水平和SNR方面的任何显著差异。对f1和f2处的Ya和ER测量值与DPOAE水平和SNR的比较进行拟合。通过回归分析检查每个f2处的行为气导阈值与DPOAE水平(和SNR)之间的关系。
在所有三个探测音频率下,鼓室测量和WATF测量的Ya显著相关。对于f2 = 4000Hz,f1和f2处的Ya和ER与DPOAE水平显著相关。
其意义如下:(1)可以使用与DPOAE相同的探头麦克风系统获得的WATF,作为诊断测试组合中鼓室测量的补充,并且在两个系统上测量的Ya之间的关系可用于验证;(2)在两个DPOAE刺激频率下,WATF的Ya和ER测量值解释了在听力正常的耳朵中f2 = 4000Hz时DPOAE水平观察到的一些变异性。
