Cheng Xiaoting, Zhong Jiake, Zhang Jiajia, Cui Chong, Jiang Luoying, Liu Yang-Wenyi, Chen Yuxin, Cao Qi, Wang Daqi, Cheng Guiqing, Zong Yuxin, Shen Min, Xu Chunxin, Lv Jun, Wang Hui, Zhang Longlong, Zhu Biyun, Tang Honghai, Wang Jinghan, Fan Xintai, Fang Yanqing, Guo Luo, Guo Jiawei, Chen Liheng, Yin Yanbo, Wang Zijing, Han Lei, Hu Shaowei, Wang Shengyi, Qin Guoyou, Liu Xuezhong, Sang Jinqiu, Zeng Fangang, Wang Wuqing, Chen Bing, Chen Zheng-Yi, Li Huawei, Shu Yilai
ENT Institute and Department of Otorhinolaryngology, Eye and ENT Hospital, Fudan University, Shanghai, China.
NHC Key Laboratory of Hearing Medicine, Shanghai, China.
JAMA Neurol. 2025 Jul 21. doi: 10.1001/jamaneurol.2025.2053.
OTOF gene therapy (GT) has been shown to improve hearing and speech. The efficacy of GT remains to be compared against cochlear implantation (CI), the current gold standard for congenital deafness.
To evaluate treatment outcomes in auditory and speech perception between patients with congenital deafness treated with GT, CI, or both.
DESIGN, SETTING, AND PARTICIPANTS: This nonblind cohort study was conducted between December 2022 and November 2024. GT patients received follow-up at 3, 6, and 12 months; CI patients received 1-time evaluation at the corresponding time intervals or longer (3, 6, or 12 months). The study was conducted at a single class A tertiary hospital in China. Participants with congenital severe to complete hearing loss, aged 1 to 18 years, who received GT or CI were enrolled. They were matched on duration of deafness, hearing thresholds, and speech ability at the presurgical baseline. Of 1568 participants screened, 72 participants enrolled. Participants were excluded if they had inner ear malformations or vestibular-cochlear nerve abnormalities.
GT only vs CI; bimodal (unilateral GT plus contralateral CI) vs bilateral CI; GT (CI turned off [CI-off]) vs unilateral CI.
The primary outcomes were auditory and speech perception evaluated by questionnaires, including the Infant-Toddler Meaningful Auditory Integration Scale/Meaningful Auditory Integration Scale (IT-MAIS/MAIS), and tests, including audiometry, speech, and music tests. The main secondary outcome was auditory information processing ability assessed by mismatch negativity (MMN).
A total of 11 GT patients (6 male [55%]; mean [SD] age at baseline, 3.7 [2.8] years) and 61 CI patients (34 male [56%]; mean [SD] age at baseline, 1.9 [1.5] years) were enrolled. The mean (SD) auditory brainstem response thresholds were restored from greater than 95.0 (0.0) decibels normalized hearing level (dB nHL) to 54.8 (15.9) dB nHL in 9 GT patients at 12 months. For GT-only vs CI in auditory and speech perception, GT patients performed better in IT-MAIS/MAIS at 6 months (median [IQR] score, 31.0 [30.0-32.0] vs 23.5 [19.0-26.3]; P = .01) and 12 months (median [IQR] score, 32.0 [31.0-32.0] vs 28.0 [24.5-30.5]; P = .007). GT patients showed shorter latencies of MMN at 6 months (median [IQR], 0.20 [0.05-0.21] seconds vs 0.23 [0.22-0.25] seconds; P = .006). For bimodal patients at 12 months, GT (CI-off) patients performed better than unilateral CI patients in speech in a noisy environment (median [IQR] disyllable, -1.0 [-3.0 to 2.4] dB sound pressure level (SPL) vs 5.3 [3.1 to 12.1] dB SPL; P = .03); GT plus CI patients performed better than bilateral CI patients in singing in-tune rates (median [IQR], 66.6% [53.7%-83.9%] vs 37.1% [30.3%-56.3%]; P = .04); GT plus CI patients showed shorter latencies of MMN at 12 months (median [IQR], 0.08 [0.07-0.10] seconds vs 0.21 [0.15-0.23] seconds, P = .01).
GT patients showed stable hearing recovery and exhibited more rapid improvements in auditory and speech performance than CI patients, while outperforming CI patients in speech in noise performance and music perception. These findings suggest that GT may provide a novel effective treatment alternative for patients with genetically driven congenital deafness.
已证明OTOF基因治疗(GT)可改善听力和言语能力。GT的疗效仍有待与人工耳蜗植入(CI)进行比较,CI是目前治疗先天性耳聋的金标准。
评估接受GT、CI或两者治疗的先天性耳聋患者在听觉和言语感知方面的治疗效果。
设计、地点和参与者:这项非盲队列研究于2022年12月至2024年11月进行。GT患者在3个月、6个月和12个月时接受随访;CI患者在相应时间间隔或更长时间(3个月、6个月或12个月)接受一次评估。该研究在中国一家三甲A类医院进行。纳入年龄在1至18岁、患有先天性重度至极重度听力损失且接受GT或CI治疗的参与者。他们在术前基线时根据耳聋持续时间、听力阈值和言语能力进行匹配。在1568名筛查参与者中,72名参与者被纳入。如果参与者有内耳畸形或前庭蜗神经异常,则将其排除。
单纯GT与CI;双耳联合(单侧GT加对侧CI)与双侧CI;GT(CI关闭[CI-off])与单侧CI。
主要结局是通过问卷评估的听觉和言语感知,包括婴幼儿有意义听觉整合量表/有意义听觉整合量表(IT-MAIS/MAIS),以及测试,包括听力测定、言语和音乐测试。主要次要结局是通过失配负波(MMN)评估的听觉信息处理能力。
共纳入11名GT患者(6名男性[55%];基线时平均[标准差]年龄为3.7[2.8]岁)和61名CI患者(34名男性[56%];基线时平均[标准差]年龄为1.9[1.5]岁)。9名GT患者在12个月时,平均(标准差)听觉脑干反应阈值从大于95.0(0.0)分贝正常听力水平(dB nHL)恢复到54.8(15.9)dB nHL。在听觉和言语感知方面,单纯GT与CI相比,GT患者在6个月时IT-MAIS/MAIS表现更好(中位数[四分位间距]得分,31.0[30.0 - 32.0]对23.5[19.0 - 26.3];P = 0.01),在12个月时也是如此(中位数[四分位间距]得分,32.0[31.0 - 32.0]对28.0[24.5 - 30.5];P = 0.007)。GT患者在6个月时MMN潜伏期更短(中位数[四分位间距],0.20[0.05 - 0.21]秒对0.23[0.22 - 0.25]秒;P = 0.006)。对于双耳联合患者在12个月时,GT(CI-off)患者在嘈杂环境中的言语表现优于单侧CI患者(中位数[四分位间距]双音节,-1.0[-3.0至2.4]分贝声压级(SPL)对5.3[3.1至12.1]分贝SPL;P = 0.03);GT加CI患者在唱歌音准率方面优于双侧CI患者(中位数[四分位间距],66.6%[53.7% - 83.9%]对37.1%[30.3% - 56.3%];P = 0.04);GT加CI患者在12个月时MMN潜伏期更短(中位数[四分位间距],0.08[0.07 - 0.10]秒对0.21[0.15 - 0.23]秒,P = 0.01)。
GT患者听力恢复稳定,与CI患者相比,在听觉和言语表现方面改善更快,同时在噪声环境下的言语表现和音乐感知方面优于CI患者。这些发现表明,GT可能为遗传性先天性耳聋患者提供一种新的有效治疗选择。
