Yalçinkaya Fulya, Muluk Nuray Bayar, Ataş Ahmet, Keith Robert W
Hacettepe University, Faculty of Medicine, ENT Department, Division of Audiology and Speech Pathology, Ankara, Turkey.
Int J Pediatr Otorhinolaryngol. 2009 Nov;73(11):1558-63. doi: 10.1016/j.ijporl.2009.07.024. Epub 2009 Sep 6.
In auditory neuropathy (AN) children with hearing aids (HAs) or cochlear implant (CI), the speech perception improvement may not be in a significant degree. These children may perform speech perception after a few repeats. This condition may show that these children had difficulties in receiving and processing speech sounds. If the children with AN cannot distinguish the heard tones one or two in Random Gap Detection Test (RGDT), their benefit performances between hearing aids or CI may not be significant. It is thought that the answer of this question is closely related with unique auditory processing performance of each child. The aim of the study is to investigate the RGDT and RGDT-Expanded (RGDT-EXP) performance of five children with AN.
In this study, RGDT was applied to five children with auditory neuropathy between ages of 7 and 13 years (study group) (3 male, 2 female). As a control group, RGDT was applied to 10 normal hearing children who had not auditory processing problem between ages of 7 and 16 years (5 male, 5 female). In the first test, all children were applied to RGDT and RGDT-EXP. Each child responded whether he/she heard one or two tones. Their responses were taken as verbally and/or hold up one finger or two fingers. In the second test, they were applied speech discrimination test in quiet environment and in noise. Gap detection thresholds (GDTs) were detected at 500-4000 Hz; and composite GDTs (CGDTs) were found for the study and control groups. GDT/CGDT>20 ms was considered as abnormal for temporal processing disorder.
Any of the children with AN who has no HAs; with HAs; and CI, could not be able to perform RGDT. Therefore the RGDT-EXP was applied in this group. In the study group, GDTs was all over 50 ms at 500-4000 Hz; and CGDTs were all over 50 ms for all children included into the study group with AN. In control group, except child 9 (GDTs were 25 ms at 3000 and 4000Hz); and child 10 (GDT was 25 ms at 500 Hz); GDTs were all in normal limits for 500-4000 Hz for all children included into the study as control group. CGDTs were all in normal limits for the control group, except child 9 (CGDTs were 22.50, slightly higher than normal limits). In the study group with AN, mean of the GDTs was all over the normal limits; and in control group, mean of GDTs were all in normal limits. The difference between the mean GDTs of the study group was significantly higher than the control groups at all frequencies of 500-4000. In AN group, CGDT (97.5+/-9.57 ms) was significantly higher than that of the control group (10.35+/-0.65 ms).
We concluded that these results may only not be explained by auditory processing performance or temporal aspects of audition of each child. Their gap detection was much worse for short duration stimuli than for longer duration stimuli. The present study showed that temporal processing, auditory timing and gap detection skills of the children with AN were found as delayed in advanced degree. These findings may indicate that the AN children cannot perform temporal asynchrony. Our results may help to understand why the children with AN cannot manage the speech perception; and why they understand the speech after a few repeats.
在佩戴助听器(HAs)或接受人工耳蜗植入(CI)的听觉神经病(AN)儿童中,言语感知的改善可能并不显著。这些儿童可能需要重复几次才能进行言语感知。这种情况可能表明这些儿童在接收和处理语音方面存在困难。如果AN儿童在随机间隙检测测试(RGDT)中无法区分一两个听到的音调,那么他们在助听器或人工耳蜗之间的受益表现可能不显著。人们认为这个问题的答案与每个儿童独特的听觉处理表现密切相关。本研究的目的是调查5名AN儿童的RGDT和扩展RGDT(RGDT-EXP)表现。
在本研究中,对5名年龄在7至13岁之间的听觉神经病儿童(研究组)(3名男性,2名女性)进行了RGDT测试。作为对照组,对10名年龄在7至16岁之间、无听觉处理问题的正常听力儿童(5名男性,5名女性)进行了RGDT测试。在第一次测试中,对所有儿童进行了RGDT和RGDT-EXP测试。每个儿童回答他/她听到了一个还是两个音调。他们的回答通过口头回答和/或举起一根或两根手指来记录。在第二次测试中,对他们进行了安静环境和噪声环境下的言语辨别测试。在500-4000Hz检测间隙检测阈值(GDTs);并为研究组和对照组计算了复合GDTs(CGDTs)。GDT/CGDT>20ms被认为是时间处理障碍异常。
任何未佩戴助听器、佩戴助听器和接受人工耳蜗植入的AN儿童都无法完成RGDT。因此,该组应用了RGDT-EXP。在研究组中,500-4000Hz的GDTs均超过50ms;纳入研究组的所有AN儿童的CGDTs均超过50ms。在对照组中,除了儿童9(3000和4000Hz的GDTs为25ms)和儿童10(500Hz的GDT为25ms)外,纳入研究作为对照组的所有儿童在500-4000Hz的GDTs均在正常范围内。对照组的CGDTs均在正常范围内,除了儿童9(CGDTs为22.50,略高于正常范围)。在AN研究组中,GDTs的平均值均超过正常范围;而在对照组中,GDTs的平均值均在正常范围内。在500-4000的所有频率上,研究组的平均GDTs与对照组之间的差异显著高于对照组。在AN组中,CGDT(97.5+/-9.57ms)显著高于对照组(10.35+/-0.65ms)。
我们得出结论,这些结果可能不能仅仅用每个儿童的听觉处理表现或听觉的时间方面来解释。他们对短持续时间刺激的间隙检测比对长持续时间刺激的间隙检测要差得多。本研究表明,AN儿童的时间处理、听觉定时和间隙检测技能被发现严重延迟。这些发现可能表明AN儿童无法进行时间异步。我们的结果可能有助于理解为什么AN儿童无法处理言语感知;以及为什么他们在重复几次后才能理解言语。
