Laszig Roland, Aschendorff Antje, Stecker Matthias, Müller-Deile Joachim, Maune Steffen, Dillier Norbert, Weber Benno, Hey Matthias, Begall Klaus, Lenarz Thomas, Battmer Rolf-D, Böhm Melanie, Steffens Thomas, Strutz Juergen, Linder Thomas, Probst Rudolf, Allum John, Westhofen Martin, Doering Wolfgang
HNO Klinik Universität Freiburg, HNO Klinik Medizinische Hochschule Hannover, Germany.
Otol Neurotol. 2004 Nov;25(6):958-68. doi: 10.1097/00129492-200411000-00016.
To evaluate the benefits of bilateral electrical stimulation for hearing-impaired adult subjects using the Nucleus 24 cochlear implant in a multicenter study, and to compare and quantify performance on speech perception measures in quiet and in noise and localization ability for unilateral and bilateral cochlear implant use.
: Repeated single subject measures were carried out for each subject, with each subject serving as their own control. Assessment of unilateral and bilateral listening conditions for performance on tests of speech comprehension and sound localization were performed. Speech comprehension measures were performed in quiet at 0 degree azimuth and in the presence of background noise simultaneously presented from the same speaker and spatially separated by 90 degrees, at S+45 degrees N45 degrees and at S-45 degrees N+45 degrees . Test materials included Freiburger monosyllabic words, Oldenburger sentences, and the Hochmair-Schulz-Moser sentences. Tests of localization were performed in the horizontal plane with 12 speaker locations 30 degrees apart using a shortened sentence stimulus from the Hochmair-Schulz-Moser sentences at two possible presentation levels of 55 and 70 dB sound pressure level for assessment of directionality. The binaural advantage provided by bilateral stimulation was calculated with respect to each ear separately, classified as either the better or poorer performing ear for each speech material in quiet and in noise test conditions. For localization of sound, the binaural advantage was compared with left and right ears separately. Paired comparisons for performance data in all conditions were carried out by considering measurements for each subject in different conditions as paired observations and applying the Student's t test to determine the statistical difference between the data sets.
Tertiary referral centers with a cochlear implant program.
Thirty-seven profoundly hearing-impaired adults were enrolled in the study, 22 simultaneously and 15 sequentially bilaterally implanted. All patients received the Nucleus 24 cochlear implant and used the Nucleus SPrint or ESPrit 3G speech processor, with the vast majority using the ACE speech coding strategy.
For spatially separated speech in noise conditions, an interaural performance advantage for the ear closest to the speech source (i.e., with a superior signal to noise ratio) compared with that for the ear closest to the noise source (i.e., with an inferior signal to noise ratio) is consistently demonstrated regardless of whether it is the better or poorer performing ear closest to the speech signal. This is referred to as a significant binaural head-shadow benefit, resulting in a mean improvement between -10 dB and -11.4 dB in the critical signal to noise ratio required for 50% speech comprehension for the Olden-burger sentences and a mean improvement in the maximum score of 42% to 55% for the ear closest to the speech signal over the ear farthest away for the Hochmair-Schulz-Moser sentences. Bilateral stimulation is always observed to provide a performance advantage over the unilateral listening condition for either ear when ipsilateral to the noise source. In addition, as demonstrated by approximately half the subjects tested in noise with the Hochmair-Schulz-Moser sentences, a performance advantage of bilateral stimulation may be observed over the better ear alone when positioned ipsilateral to the speech signal, which is referred to as a binaural squelch effect. On average, for the group, this resulted in a statistically significant improvement in speech comprehension scores of 8% in the bilateral listening condition compared with the scores for the better ear alone. Through assessment of comprehension of coincidental speech in noise and speech in quiet, a significant benefit of binaural redundancy was noted for the group for Oldenburger sentence scores in noise and in quiet compared with unilateral scores for either ear and for the Freiburger monosyllabic words in quiet in comparison with the better ear alone scores. Binaural stimulation also led to a significant improvement in localization ability over either monaural condition, with the root mean square degrees of error reduced by 38 degrees compared with that observed for unilateral stimulation.
Similar to what has been observed for bilateral acoustic stimulation in the past, bilateral electrical stimulation provides the foundation for the potential advantages of the head-shadow effect, providing a binaural head-shadow benefit and binaural auditory processing such as binaural redundancy and binaural squelch effects, all of which combine to lead to improved speech comprehension over unilateral listening conditions. The combination of improved speech comprehension and improved localization ability made available through bilateral electrical stimulation provides the necessary foundation to further assist the hearing-impaired listener to better cope with communication in the everyday listening situation both in noise and in quiet.
在一项多中心研究中评估使用Nucleus 24型人工耳蜗对成年听力受损受试者进行双侧电刺激的益处,并比较和量化单侧与双侧人工耳蜗在安静和噪声环境下的言语感知测量表现以及定位能力。
对每个受试者进行重复的单受试者测量,每个受试者作为自身对照。评估单侧和双侧聆听条件下言语理解和声音定位测试的表现。言语理解测量在0度方位角安静环境中进行,以及在背景噪声由同一扬声器同时呈现且在空间上相隔90度、在S + 45度N45度和S - 45度N + 45度的情况下进行。测试材料包括弗莱堡单音节词、奥尔登堡句子和霍赫迈尔 - 舒尔茨 - 莫泽句子。定位测试在水平面进行,有12个扬声器位置,相隔30度,使用霍赫迈尔 - 舒尔茨 - 莫泽句子的缩短句子刺激,在55和70 dB声压级这两个可能的呈现水平下评估方向性。双侧刺激提供的双耳优势分别针对每只耳朵计算,在安静和噪声测试条件下,针对每种言语材料,分为表现较好或较差的耳朵。对于声音定位,分别将双耳优势与左耳和右耳进行比较。通过将每个受试者在不同条件下的测量视为配对观察值,并应用学生t检验来确定数据集之间的统计差异,对所有条件下的表现数据进行配对比较。
设有人工耳蜗项目的三级转诊中心。
37名重度听力受损的成年人参与了该研究,其中22名同时接受双侧植入,15名先后接受双侧植入。所有患者均接受Nucleus 24型人工耳蜗,并使用Nucleus SPrint或ESPrit 3G言语处理器,绝大多数使用ACE言语编码策略。
在噪声环境中空间分离的言语情况下,无论最靠近言语源的耳朵(即具有较高信噪比)是表现较好还是较差的耳朵,与最靠近噪声源的耳朵(即具有较低信噪比)相比,始终显示出双耳表现优势。这被称为显著的双耳头影效应,对于奥尔登堡句子,在50%言语理解所需的临界信噪比方面平均改善在 - 10 dB至 - 11.4 dB之间,对于霍赫迈尔 - 舒尔茨 - 莫泽句子,最靠近言语信号的耳朵的最高分相对于最远离言语信号的耳朵平均提高了42%至55%。当与噪声源同侧时,始终观察到双侧刺激相对于单侧聆听条件为任何一只耳朵提供表现优势。此外,如大约一半使用霍赫迈尔 - 舒尔茨 - 莫泽句子在噪声中测试的受试者所证明的,当与言语信号同侧时,双侧刺激相对于单独的较好耳朵可能表现出优势,这被称为双耳静噪效应。平均而言,对于该组,与单独较好耳朵的得分相比,双侧聆听条件下言语理解得分在统计学上显著提高了8%。通过评估噪声中同时出现的言语和安静环境中言语的理解情况,发现该组在噪声和安静环境下奥尔登堡句子得分以及安静环境下弗莱堡单音节词得分与任何一只耳朵的单侧得分相比,双耳冗余有显著益处,与单独较好耳朵的得分相比也是如此。双耳刺激还导致定位能力相对于任何单耳条件有显著改善,与单侧刺激相比,均方根误差度数降低了38度。
与过去观察到的双侧声刺激情况类似,双侧电刺激为头影效应的潜在优势奠定了基础,提供了双耳头影效应以及双耳听觉处理,如双耳冗余和双耳静噪效应,所有这些共同作用导致在单侧聆听条件下言语理解得到改善。通过双侧电刺激实现的言语理解改善和定位能力提高相结合,为进一步帮助听力受损的聆听者在日常聆听环境中更好地应对噪声和安静环境下的交流提供了必要基础。
