Di Nardo W, Scorpecci A, Giannantonio S, Cianfrone F, Parrilla C, Paludetti G
Department of Otorhinolaryngology, Catholic University of the Sacred Heart, Rome, Italy.
J Laryngol Otol. 2010 Aug;124(8):828-34. doi: 10.1017/S0022215110000320. Epub 2010 Mar 5.
To assess the electrode pitch function in a series of adults with postlingually implanted cochlear implants and with contralateral residual hearing, in order to investigate the correlation between the degree of frequency map mismatch and the subjects' speech understanding in quiet and noisy conditions.
Case series.
Seven postlingually deafened adults with cochlear implants, all with detectable contralateral residual hearing. Subjects' electrode pitch function was assessed by means of a pitch-matching test, in which they were asked to match an acoustic pitch (pure tones delivered to the non-implanted ear by an audiometer) to a perceived 'pitch' elicited by stimulation of the cochlear implant electrodes. A mismatch score was calculated for each subject. Speech recognition was tested using lists of sentences presented in quiet conditions and at +10, 0 and 5 dB HL signal-to-noise ratio levels (i.e. noise 10 dB HL lower than signal, noise as loud as signal and noise 5 dB HL higher than signal, respectively). Correlations were assessed using a linear regression model, with significance set at p < 0.05.
All patients presented some degree of mismatch between the acoustic frequencies assigned to their implant electrodes and the pitch elicited by stimulation of the same electrode, with high between-individual variability. A significant correlation (p < 0.005) was found between mismatch and speech recognition scores at +10 and 0 dB HL signal-to-noise ratio levels (r2 = 0.91 and 0.89, respectively).
The mismatch between frequencies allocated to electrodes and the pitch perceived on stimulation of the same electrodes could partially account for our subjects' difficulties with speech understanding in noisy conditions. We suggest that these subjects could benefit from mismatch correction, through a procedure allowing individualised reallocation of frequency bands to electrodes.
评估一系列语后聋成人植入人工耳蜗且对侧有残余听力者的电极音调功能,以研究频率图谱不匹配程度与受试者在安静和嘈杂环境下言语理解能力之间的相关性。
病例系列研究。
7名语后聋成人,均植入了人工耳蜗,且均能检测到对侧残余听力。通过音调匹配测试评估受试者的电极音调功能,即要求他们将一个声学音调(由听力计发送至未植入耳的纯音)与人工耳蜗电极刺激所引发的感知“音调”相匹配。为每位受试者计算不匹配分数。使用在安静环境下以及信噪比分别为+10、0和-5 dB HL(即噪声比信号低10 dB HL、噪声与信号一样响、噪声比信号高5 dB HL)时呈现的句子列表来测试言语识别能力。使用线性回归模型评估相关性,显著性设定为p < 0.05。
所有患者在分配给其植入电极的声学频率与同一电极刺激所引发的音调之间均存在一定程度的不匹配,个体间差异较大。在信噪比为+10和0 dB HL时,发现不匹配与言语识别分数之间存在显著相关性(p < 0.005)(r2分别为0.91和0.89)。
分配给电极的频率与同一电极刺激时所感知音调之间的不匹配可能部分解释了我们的受试者在嘈杂环境下言语理解困难的原因。我们建议这些受试者可通过一种允许对电极进行个性化频段重新分配的程序从失配校正中获益。