Electrophysiological differences and similarities in audiovisual speech processing in CI users with unilateral and bilateral hearing loss

Natalie Layer , Anna Weglage , Verena Müller , Hartmut Meister , Ruth Lang-Roth , Martin Walger , Micah M. Murray , Pascale Sandmann
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Abstract

Hearing with a cochlear implant (CI) is limited compared to natural hearing. Although CI users may develop compensatory strategies, it is currently unknown whether these extend from auditory to visual functions, and whether compensatory strategies vary between different CI user groups. To better understand the experience-dependent contributions to multisensory plasticity in audiovisual speech perception, the current event-related potential (ERP) study presented syllables in auditory, visual, and audiovisual conditions to CI users with unilateral or bilateral hearing loss, as well as to normal-hearing (NH) controls. Behavioural results revealed shorter audiovisual response times compared to unisensory conditions for all groups. Multisensory integration was confirmed by electrical neuroimaging, including topographic and ERP source analysis, showing a visual modulation of the auditory-cortex response at N1 and P2 latency. However, CI users with bilateral hearing loss showed a distinct pattern of N1 topography, indicating a stronger visual impact on auditory speech processing compared to CI users with unilateral hearing loss and NH listeners. Furthermore, both CI user groups showed a delayed auditory-cortex activation and an additional recruitment of the visual cortex, and a better lip-reading ability compared to NH listeners. In sum, these results extend previous findings by showing distinct multisensory processes not only between NH listeners and CI users in general, but even between CI users with unilateral and bilateral hearing loss. However, the comparably enhanced lip-reading ability and visual-cortex activation in both CI user groups suggest that these visual improvements are evident regardless of the hearing status of the contralateral ear.

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单侧和双侧听力损失的CI使用者视听语音处理的电生理差异和相似之处
与自然听力相比,人工耳蜗的听力是有限的。尽管CI用户可能会发展出补偿策略,但目前尚不清楚这些补偿策略是否从听觉扩展到视觉功能,以及不同CI用户群体之间的补偿策略是否有所不同。为了更好地理解经验依赖对视听语音感知多感觉可塑性的贡献,当前的事件相关电位(ERP)研究将听觉、视觉和视听条件下的音节呈现给单侧或双侧听力损失的CI使用者,以及正常听力(NH)对照组。行为结果显示,与无感觉条件相比,所有组的视听反应时间都更短。包括地形和ERP源分析在内的神经电成像证实了多感觉统合,显示了N1和P2潜伏期听觉皮层反应的视觉调节。然而,双侧听力损失的CI用户显示出明显的N1地形模式,这表明与单侧听力损失的CI用户和NH听者相比,视觉对听觉语音处理的影响更大。此外,两组CI使用者都表现出听觉皮层的延迟激活和视觉皮层的额外补充,并且与NH听众相比,唇读能力更好。总之,这些结果扩展了之前的发现,不仅在NH听众和一般的CI使用者之间,甚至在单侧和双侧听力损失的CI使用者之间,都显示了不同的多感觉过程。然而,两组CI使用者的唇读能力和视觉皮层激活都得到了相应的增强,这表明无论对侧耳的听力状况如何,这些视觉上的改善都是明显的。
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