Hearing Impaired Participants Improve More Under Envelope-Transcranial Alternating Current Stimulation When Signal to Noise Ratio Is High.

IF 2.9 Q2 NEUROSCIENCES Neuroscience Insights Pub Date : 2021-01-01 DOI:10.1177/2633105520988854
Jules Erkens, Michael Schulte, Matthias Vormann, Anna Wilsch, Christoph S Herrmann
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引用次数: 1

Abstract

An issue commonly expressed by hearing aid users is a difficulty to understand speech in complex hearing scenarios, that is, when speech is presented together with background noise or in situations with multiple speakers. Conventional hearing aids are already designed with these issues in mind, using beamforming to only enhance sound from a specific direction, but these are limited in solving these issues as they can only modulate incoming sound at the cochlear level. However, evidence exists that age-related hearing loss might partially be caused later in the hearing processes due to brain processes slowing down and becoming less efficient. In this study, we tested whether it would be possible to improve the hearing process at the cortical level by improving neural tracking of speech. The speech envelopes of target sentences were transformed into an electrical signal and stimulated onto elderly participants' cortices using transcranial alternating current stimulation (tACS). We compared 2 different signal to noise ratios (SNRs) with 5 different delays between sound presentation and stimulation ranging from 50 ms to 150 ms, and the differences in effects between elderly normal hearing and elderly hearing impaired participants. When the task was performed at a high SNR, hearing impaired participants appeared to gain more from envelope-tACS compared to when the task was performed at a lower SNR. This was not the case for normal hearing participants. Furthermore, a post-hoc analysis of the different time-lags suggest that elderly were significantly better at a stimulation time-lag of 150 ms when the task was presented at a high SNR. In this paper, we outline why these effects are worth exploring further, and what they tell us about the optimal tACS time-lag.

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当信噪比高时,经颅交流电刺激对听力受损者的改善效果更好。
助听器使用者经常表达的一个问题是在复杂的听力场景中难以理解语音,即当语音与背景噪音一起呈现或在有多个说话者的情况下。传统的助听器在设计时已经考虑到这些问题,使用波束形成只能增强来自特定方向的声音,但这些在解决这些问题上是有限的,因为它们只能在耳蜗水平上调制传入的声音。然而,有证据表明,与年龄相关的听力损失可能部分是在听力过程的后期引起的,因为大脑处理速度变慢,效率降低。在这项研究中,我们测试了是否有可能通过改善语音的神经跟踪来改善皮质水平的听力过程。将目标句子的语音包转化为电信号,经颅交流电刺激(tACS)刺激到老年受试者的大脑皮层。我们比较了2种不同的信噪比(SNRs)和5种不同的声音呈现和刺激延迟(50 ~ 150 ms),以及老年正常听力和老年听力受损参与者的效果差异。当任务在高信噪比下执行时,听力受损的参与者似乎比在低信噪比下执行任务时从包膜- tacs中获得更多。对于听力正常的参与者来说,情况并非如此。此外,对不同滞后时间的事后分析表明,当任务以高信噪比呈现时,老年人在150ms的刺激滞后时间下表现明显更好。在本文中,我们概述了为什么这些效应值得进一步探索,以及它们告诉我们的关于最佳tACS时滞的信息。
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来源期刊
Neuroscience Insights
Neuroscience Insights Neuroscience-Neuroscience (all)
CiteScore
6.10
自引率
0.00%
发文量
24
审稿时长
9 weeks
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