Department of Otolaryngology-Head and Neck Surgery, Washington University School of Medicine, St. Louis, Missouri, USA.
Ear Hear. 2018 Sep/Oct;39(5):845-862. doi: 10.1097/AUD.0000000000000548.
Asymmetric hearing with severe to profound hearing loss (SPHL) in one ear and better hearing in the other requires increased listening effort and is detrimental for understanding speech in noise and sound localization. Although a cochlear implant (CI) is the only treatment that can restore hearing to an ear with SPHL, current candidacy criteria often disallows this option for patients with asymmetric hearing. The present study aimed to evaluate longitudinal performance outcomes in a relatively large group of adults with asymmetric hearing who received a CI in the poor ear.
Forty-seven adults with postlingual hearing loss participated. Test materials included objective and subjective measures meant to elucidate communication challenges encountered by those with asymmetric hearing. Test intervals included preimplant and 6 and 12 months postimplant. Preimplant testing was completed in participants' everyday listening condition: bilateral hearing aids (HAs) n = 9, better ear HA n = 29, and no HA n = 9; postimplant, each ear was tested separately and in the bimodal condition.
Group mean longitudinal results in the bimodal condition postimplant compared with the preimplant everyday listening condition indicated significantly improved sentence scores at soft levels and in noise, improved localization, and higher ratings of communication function by 6 months postimplant. Group mean, 6-month postimplant results were significantly better in the bimodal condition compared with either ear alone. Audibility and speech recognition for the poor ear alone improved significantly with a CI compared with preimplant. Most participants had clinically meaningful benefit on most measures. Contributory factors reported for traditional CI candidates also impacted results for this population. In general, older participants had poorer bimodal speech recognition in noise and localization abilities than younger participants. Participants with early SPHL onset had better bimodal localization than those with later SPHL onset, and participants with longer SPHL duration had poorer CI alone speech understanding in noise but not in quiet. Better ear pure-tone average (PTA) correlated with all speech recognition measures in the bimodal condition. To understand the impact of better ear hearing on bimodal performance, participants were grouped by better ear PTA: group 1 PTA ≤40 dB HL (n = 19), group 2 PTA = 41 to 55 dB HL (n = 14), and group 3 PTA = 56 to 70 dB HL (n = 14). All groups showed bimodal benefit on speech recognition measures in quiet and in noise; however, only group 3 obtained benefit when noise was toward the CI ear. All groups showed improved localization and ratings of perceived communication.
Receiving a CI for the poor ear was an effective treatment for this population. Improved audibility and speech recognition were evident by 6 months postimplant. Improvements in sound localization and self-reports of communication benefit were significant and not related to better ear hearing. Participants with more hearing in the better ear (group 1) showed less bimodal benefit but greater bimodal performance for speech recognition than groups 2 and 3. Test batteries for this population should include quality of life measures, sound localization, and adaptive speech recognition measures with spatially separated noise to capture the hearing loss deficits and treatment benefits reported by this patient population.
患有单侧严重至极重度听力损失(SPHL)和对侧较好听力的患者需要增加听力努力,这对噪声环境下的言语理解和声音定位不利。虽然人工耳蜗(CI)是恢复 SPHL 耳听力的唯一治疗方法,但目前的候选标准通常不允许患有单侧听力损失的患者选择这种治疗方法。本研究旨在评估一组相对较大的单侧听力损失成人患者在接受较差耳 CI 后的长期表现结果。
47 名患有后天性听力损失的成年人参与了本研究。测试材料包括旨在阐明单侧听力损失患者所面临的沟通挑战的客观和主观测试。测试间隔包括植入前和植入后 6 个月和 12 个月。植入前测试是在参与者的日常听力条件下完成的:双侧助听器(HA)n=9,较好耳 HA n=29,无 HA n=9;植入后,每个耳朵单独测试,并在双耳模式下测试。
植入后双耳模式的组平均纵向结果与植入前的日常听力条件相比,在软强度和噪声环境下的句子得分显著提高,定位能力提高,6 个月后沟通功能的评分更高。与单侧植入相比,6 个月时组平均的双耳模式结果显著更好。与植入前相比,植入 CI 后较差耳的可听度和言语识别能力显著提高。大多数患者在大多数测试中都有明显的临床获益。对传统 CI 候选者的贡献因素也影响了这一人群的结果。一般来说,年龄较大的患者在噪声环境下的双模态言语识别和定位能力比年龄较小的患者差。单侧 SPHL 发病较早的患者的双模态定位能力优于单侧 SPHL 发病较晚的患者,单侧 SPHL 发病时间较长的患者在噪声环境下的单耳 CI 言语理解能力较差,但在安静环境下无明显差异。较好耳纯音平均听阈(PTA)与双模态条件下的所有言语识别测试相关。为了了解较好耳听力对双模态表现的影响,根据较好耳 PTA 将参与者分为三组:组 1 PTA≤40dB HL(n=19),组 2 PTA=41-55dB HL(n=14),组 3 PTA=56-70dB HL(n=14)。所有组在安静和噪声环境下的言语识别测试中均表现出双模态获益;然而,只有组 3 在噪声朝向 CI 耳时获得了获益。所有组的定位和感知沟通能力评分均有所提高。
为较差耳植入 CI 是该人群的有效治疗方法。植入后 6 个月即可明显提高可听度和言语识别能力。声音定位和自我报告的沟通益处的改善是显著的,与较好耳听力无关。较好耳听力较好的患者(组 1)双模态获益较小,但双模态言语识别表现优于组 2 和组 3。该人群的测试套件应包括生活质量评估、声音定位和具有空间分离噪声的自适应言语识别测试,以捕捉该患者群体报告的听力损失缺陷和治疗获益。
