耳聋和听力正常的婴儿对人声的识别

IF 0.3 Q4 AUDIOLOGY & SPEECH-LANGUAGE PATHOLOGY Hearing Balance and Communication Pub Date : 2022-07-03 DOI:10.1080/21695717.2022.2084866
Arnaud Coëz, N. Loundon, I. Rouillon, M. Parodi, M. Blanchard, S. Achard, E. Garabédian, E. Bizaguet, Tabassome Simon, N. Tessier, F. Denoyelle, J. Gervain
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引用次数: 1

摘要

目的:婴儿期耳聋对脑组织有长期的影响。为了在深度耳聋的情况下获得最佳的发育结果,人工耳蜗植入(CI)需要在生命第一年的关键时期进行,在听觉剥夺引起的大脑跨模态重组稳定之前,阻止典型的听觉皮质发育。尽管它对植入结果很重要,但这一关键时期的性质和潜在的神经重组尚未得到充分探讨。材料和方法:为了填补这一知识空白,我们使用功能近红外光谱(fNIRS)研究了12个月大的深度耳聋婴儿及其年龄匹配的对照组对人声和非人声的皮层反应。这些失聪婴儿在接受CI手术前接受了测试,并佩戴了助听器,使他们能够感知低频。人类的声音刺激已被证明能在发育早期触发大脑反应,这可能是由于它与生存的进化相关。结果:我们发现聋儿双侧额颞区对人声的反应增强,且其反应与残馀听力阈值相关。这些结果表明,即使这些失聪婴儿由于其残余听力而受到有限的声音刺激,也允许颞叶皮层在植入之前对人类声音产生敏感性。听力控制组在左顶叶区和右颞区对声音和非声音刺激都表现出反向的血流动力学反应,这表明到12个月大时,他们迅速适应了这些非常熟悉的刺激。虽然两组人对非声音刺激的反应是相反的,但他们对声音刺激的反应是不同的。结论:我们假设耳聋婴儿对人声的反应可以被认为是一个良好的人工耳蜗预后。
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The recognition of human voice in deaf and hearing infants
Abstract Purpose: Deafness in infancy has longlasting consequences on brain organization. To achieve the best developmental outcomes in case of profound deafness, cochlear implantation (CI) needs to take place in a critical period during the first year of life, before the cross-modal reorganization of the brain due to auditory deprivation stabilises, preventing the typical development of the auditory cortices. Despite its importance for implantation outcomes, the nature of this critical period and the underlying neural reorganization have not been fully explored. Materials and methods: To fill this knowledge gap, we investigated the cortical responses of 12-month-old profoundly deaf infants and their age-matched controls to sounds produced by a human voice as compared to non-human sounds using functional near-infrared spectroscopy (fNIRS). The deaf infants were tested before undergoing CI surgery and wore hearing aids, allowing them to perceive low frequencies. Human voice stimuli have been shown to trigger brain responses early in development, possibly due to its evolutionary relevance for survival. Results: We found increased brain responses to the human voice in the deaf infants in the bilateral fronto-temporal areas, and their responses correlated with their residual hearing thresholds. These results suggest that even the limited sound stimulation that these deaf infants receive due to their residual hearing allowed the temporal cortices to develop sensitivity to the human voice prior to implantation. The hearing control group showed an inverted hemodynamic response to both voice and non-voice stimuli in the left parietal and right temporal areas, suggesting that by 12 months of age, they habituate rapidly to these very familiar stimuli. While both groups showed an inverted response to the non-voice stimuli, they differed in their responses to voice stimuli. Conclusions: We hypothesize that the responses found in deaf infants to human voice can be consider a good cochlear implant prognosis.
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来源期刊
Hearing Balance and Communication
Hearing Balance and Communication AUDIOLOGY & SPEECH-LANGUAGE PATHOLOGY-
CiteScore
1.10
自引率
0.00%
发文量
51
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