Veugen Lidwien C E, Chalupper Josef, Snik Ad F M, Opstal A John van, Mens Lucas H M
1Department of Biophysics, Donders Institute for Brain, Cognition and Behaviour, Radboud University Nijmegen, Nijmegen, The Netherlands; 2Advanced Bionics European Research Centre (AB ERC), Hannover, Germany; and 3Department of Otorhinolaryngology, Donders Institute for Brain, Cognition and Behaviour, Radboud University Nijmegen Medical Centre, Nijmegen, The Netherlands.
Ear Hear. 2016 May-Jun;37(3):260-70. doi: 10.1097/AUD.0000000000000260.
The purpose of this study was to improve bimodal benefit in listeners using a cochlear implant (CI) and a hearing aid (HA) in contralateral ears, by matching the time constants and the number of compression channels of the automatic gain control (AGC) of the HA to the CI. Equivalent AGC was hypothesized to support a balanced loudness for dynamically changing signals like speech and improve bimodal benefit for speech understanding in quiet and with noise presented from the side(s) at 90 degree.
Fifteen subjects participated in the study, all using the same Advanced Bionics Harmony CI processor and HA (Phonak Naida S IX UP). In a 3-visit crossover design with 4 weeks between sessions, performance was measured using a HA with a standard AGC (syllabic multichannel compression with 1 ms attack time and 50 ms release time) or an AGC that was adjusted to match that of the CI processor (dual AGC broadband compression, 3 and 240 msec attack time, 80 and 1500 msec release time). In all devices, the AGC was activated above the threshold of 63 dB SPL. The authors balanced loudness across the devices for soft and loud input sounds in 3 frequency bands (0 to 548, 548 to 1000, and >1000 Hz). Speech understanding was tested in free field in quiet and in noise for three spatial speaker configurations, with target speech always presented from the front. Single-talker noise was either presented from the CI side or the HA side, or uncorrelated stationary speech-weighted noise or single-talker noise was presented from both sides. Questionnaires were administered to assess differences in perception between the two bimodal fittings.
Significant bimodal benefit over the CI alone was only found for the AGC-matched HA for the speech tests with single-talker noise. Compared with the standard HA, matched AGC characteristics significantly improved speech understanding in single-talker noise by 1.9 dB when noise was presented from the HA side. AGC matching increased bimodal benefit insignificantly by 0.6 dB when noise was presented from the CI implanted side, or by 0.8 (single-talker noise) and 1.1 dB (stationary noise) in the more complex configurations with two simultaneous maskers from both sides. In questionnaires, subjects rated the AGC-matched HA higher than the standard HA for understanding of one person in quiet and in noise, and for the quality of sounds. Listening to a slightly raised voice, subjects indicated increased listening comfort with matched AGCs. At the end of the study, 9 of 15 subjects preferred to take home the AGC-matched HA, 1 preferred the standard HA and 5 subjects had no preference.
For bimodal listening, the AGC-matched HA outperformed the standard HA in speech understanding in noise tasks using a single competing talker and it was favored in questionnaires and in a subjective preference test. When noise was presented from the HA side, AGC matching resulted in a 1.9 dB SNR additional benefit, even though the HA was at the least favorable SNR side in this speaker configuration. Our results possibly suggest better binaural processing for matched AGCs.
本研究的目的是通过使助听器(HA)的自动增益控制(AGC)的时间常数和压缩通道数量与人工耳蜗(CI)相匹配,来提高使用CI和对侧耳HA的聆听者的双峰效益。等效AGC被假定为支持对语音等动态变化信号的平衡响度,并改善在安静环境以及90度侧面呈现噪声情况下的双峰语音理解效益。
15名受试者参与了本研究,均使用相同的Advanced Bionics Harmony CI处理器和HA(峰力Naida S IX UP)。在一个三访交叉设计中,各阶段间隔4周,使用具有标准AGC(音节多通道压缩,启动时间1毫秒,释放时间50毫秒)的HA或经调整以匹配CI处理器的AGC(双AGC宽带压缩,启动时间3和240毫秒,释放时间80和1500毫秒)来测量性能。在所有设备中,AGC在63 dB SPL的阈值以上激活。作者在3个频段(0至548、548至1000以及>1000 Hz)中针对软声和大声输入声音平衡了各设备间的响度。在安静环境和噪声环境下针对三种空间扬声器配置进行了语音理解测试,目标语音始终从正面呈现。单说话者噪声要么从CI侧呈现,要么从HA侧呈现,或者从两侧呈现不相关的固定语音加权噪声或单说话者噪声。发放问卷以评估两种双峰配置之间的感知差异。
仅在使用单说话者噪声的语音测试中,对于AGC匹配的HA,发现了相对于单独使用CI的显著双峰效益。与标准HA相比,当噪声从HA侧呈现时,匹配的AGC特性使单说话者噪声中的语音理解显著提高了1.9 dB。当噪声从CI植入侧呈现时,AGC匹配使双峰效益无显著增加,增加了0.6 dB;在两侧同时有两个掩蔽音的更复杂配置中,AGC匹配使双峰效益增加了0.8 dB(单说话者噪声)和1.1 dB(固定噪声)。在问卷中,受试者对AGC匹配的HA在安静和噪声环境下理解单人语音以及声音质量方面的评价高于标准HA。在聆听略微提高音量的声音时,受试者表示使用匹配的AGC时聆听舒适度增加。在研究结束时,15名受试者中有9名更愿意将AGC匹配的HA带回家,1名更喜欢标准HA,5名受试者无偏好。
对于双峰聆听,在使用单个竞争说话者的噪声任务中,AGC匹配的HA在语音理解方面优于标准HA,并且在问卷和主观偏好测试中更受青睐。当噪声从HA侧呈现时,即使在该扬声器配置中HA处于最不利的信噪比一侧,AGC匹配仍带来了1.9 dB的额外信噪比效益。我们的结果可能表明匹配的AGC具有更好的双耳处理能力。
