传导性听力损失中听觉脑干和中脑的静息神经活动模式

Resting neural activity patterns in auditory brainstem and midbrain in conductive hearing loss.

作者信息

Harrison Robert V, Negandhi Jaina

机构信息

Auditory Science Laboratory, Department of Otolaryngology-HNS, Hospital for Sick Children, ON, Canada.

出版信息

Acta Otolaryngol. 2012 Apr;132(4):409-14. doi: 10.3109/00016489.2011.648271. Epub 2012 Feb 16.

DOI:10.3109/00016489.2011.648271

PMID:22339503

Abstract

CONCLUSIONS

Conductive hearing loss (CHL) lowers resting neural activity patterns in the auditory periphery. Such reductions of peripheral auditory activity may influence the developing central brain during early postnatal years when the system is still highly plastic.

OBJECTIVES

A common cause of CHL in young children is otitis media; if chronic and/or episodic there may be a risk to speech and language development. In this clinical context we have investigated changes in neural activity patterns in the brainstem and midbrain in an animal model of CHL.

METHODS

In a mouse model, a 50-60 dB CHL was produced by blocking the ear canals. We quantified resting neural activity patterns in the cochlear nucleus and inferior colliculus using c-fos immuno-labelling. This experimental group was compared with normal-hearing controls and with animals with bilateral cochlear ablation.

RESULTS

Subjects with CHL had a statistically significant reduction in c-fos-labelled cells in the cochlear nucleus and central nucleus of the inferior colliculus compared with normal controls. This decreased c-fos expression suggests a change in resting neural activity generated at the inner hair cell synapse, leading to a reduction in activity levels in the ascending auditory pathways.

摘要

结论

传导性听力损失（CHL）会降低听觉外周的静息神经活动模式。在出生后早期，当听觉系统仍具有高度可塑性时，外周听觉活动的这种减少可能会影响正在发育的中枢脑。

目的

幼儿CHL的一个常见原因是中耳炎；如果是慢性和/或发作性的，可能会对言语和语言发育构成风险。在此临床背景下，我们在CHL动物模型中研究了脑干和中脑神经活动模式的变化。

方法

在小鼠模型中，通过堵塞耳道产生50-60分贝的CHL。我们使用c-fos免疫标记量化了耳蜗核和下丘中的静息神经活动模式。将该实验组与听力正常的对照组以及双侧耳蜗切除的动物进行比较。

结果

与正常对照组相比，CHL受试者耳蜗核和下丘中央核中c-fos标记细胞的数量在统计学上有显著减少。这种c-fos表达的降低表明在内毛细胞突触处产生的静息神经活动发生了变化，导致听觉上行通路的活动水平降低。

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传导性听力损失中听觉脑干和中脑的静息神经活动模式

Resting neural activity patterns in auditory brainstem and midbrain in conductive hearing loss.

作者信息

机构信息

出版信息

CONCLUSIONS

OBJECTIVES

METHODS

RESULTS

结论

目的

方法

结果

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