P1-N1-P2 Cortical Auditory Evoked Potentials in Chronic Unilateral Acquired Conductive Hearing Loss in Adults.

Abeir Osman Dabbous, Noha Ali Hosni, Alzahraa Al-Sayed Owais Emara, Adel Said El-Antably
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Abstract

Background:  Chronic unilateral hearing loss causes imbalanced auditory input to the brain that triggers cortical reorganization. The effect of sensorineural hearing loss on the central auditory system (CAS) has been thoroughly studied, while there is a paucity of research on the effect of conductive hearing loss (CHL). The aim of this study was to assess the P1-N1-P2 cortical auditory evoked response potential (CAEP) in adult individuals with chronic acquired unilateral CHL.

Methods:  This study included 108 participants of both genders: 54 patients with unilateral chronic CHL who were compared to well-matched 54 controls. All were subjected to history-taking, otologic examination, basic audiological evaluation, and bone conduction N1-P2 CAEP.

Results:  The affected ears of the cases showed highly statistically significant shorter CAEPs N1, P2, N1-P2 latencies but not P1, and showed highly statistically significant larger N1, P2, N1P2, amplitude than the control group. Latencies decreased and amplitudes increased as the degree of CHL increased, but were not affected by patients' age, side, or duration of the CHL. Cases with tinnitus had statistically significant and worse results than those without tinnitus.

Conclusion:  Unilateral chronic CHL might enhance neurocortical plasticity, with greater changes occurring at greater degrees of the CHL.

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慢性单侧获得性传导性听力损失成人的 P1-N1-P2 皮层听觉诱发电位
背景: 慢性单侧听力损失会导致大脑听觉输入失衡,从而引发大脑皮层重组。感音神经性听力损失对中枢听觉系统(CAS)的影响已得到深入研究,而对传导性听力损失(CHL)影响的研究却很少。本研究旨在评估慢性获得性单侧 CHL 成人的 P1-N1-P2 皮层听觉诱发反应电位(CAEP): 本研究包括 108 名男女参与者:54名单侧慢性CHL患者与54名匹配良好的对照者进行了比较。所有患者均接受了病史采集、耳科检查、基本听力评估和骨导 N1-P2 CAEP: 结果:与对照组相比,病例患耳的 CAEPs N1、P2、N1-P2 延迟时间在统计学上有高度显著性差异,但 P1 延迟时间没有差异;N1、P2、N1P2 振幅在统计学上有高度显著性差异。随着 CHL 程度的增加,潜伏期缩短,振幅增大,但不受患者年龄、病侧或 CHL 持续时间的影响。有耳鸣的病例与无耳鸣的病例相比,其结果有显著的统计学意义,且更差: 结论:单侧慢性 CHL 可能会增强神经皮质的可塑性,CHL 程度越高,变化越大。
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