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听觉40赫兹伽马振荡的同步性在老年时增强,且与听力能力和皮质γ-氨基丁酸水平相关。

Synchrony in auditory 40-Hz gamma oscillations increases in older age and correlates with hearing abilities and cortical GABA levels.

作者信息

Dobri Simon, Chen J Jean, Ross Bernhard

机构信息

Rotman Research Institute, Baycrest Centre, Toronto, Canada.

Department of Medical Biophysics, University of Toronto, Toronto, Canada.

出版信息

Imaging Neurosci (Camb). 2023 Dec 8;1. doi: 10.1162/imag_a_00035. eCollection 2023.

Abstract

Synchronized 40-Hz gamma oscillations in specific sensory and higher-order thalamocortical networks provide a neural mechanism for feature binding. Aging-related changes in gamma oscillations may cause deficits in auditory feature binding, contributing to impaired speech-in-noise perception. Gamma synchrony is controlled through inhibitory mechanisms mediated by the neurotransmitter γ-aminobutyric acid (GABA), which has been shown to decline in aging. This study investigated aging-related changes in gamma oscillations and how they relate to auditory function and cortical GABA levels. Magnetoencephalograms of 40-Hz auditory steady-state responses (ASSRs) were recorded in young and older adults by presenting amplitude-modulated tones in quiet and mixed with concurrent multi-talker babble noise. Responses in the quiet condition had longer latencies and more prominent amplitudes, indicating the 40-Hz ASSRs in noise were dominated by a sensory component and in quiet by a component involved in higher-order processing. The ASSR amplitudes increased in older adults under both stimulus conditions. However, larger ASSR amplitudes were associated with more severe hearing and speech-in-noise loss only in the noise condition. This suggests the aging-related increase in synchrony of sensory gamma oscillations has a detrimental effect on auditory processing. It may cause increased interference between competing sounds in the central auditory system, making it difficult for the aging auditory system to separate speech features from noise and bind them into a distinct perceptual object. Also in older adults, larger amplitudes of the 40-Hz ASSRs in the quiet condition were associated with higher left auditory cortex GABA concentrations measured with magnetic resonance spectroscopy, supporting GABA's role in internally generated gamma synchrony in aging.

摘要

特定感觉和高级丘脑皮质网络中的同步40赫兹伽马振荡为特征绑定提供了一种神经机制。伽马振荡中与衰老相关的变化可能导致听觉特征绑定缺陷,进而导致噪声环境下言语感知受损。伽马同步通过由神经递质γ-氨基丁酸(GABA)介导的抑制机制来控制,研究表明GABA在衰老过程中会减少。本研究调查了伽马振荡中与衰老相关的变化,以及它们与听觉功能和皮质GABA水平的关系。通过在安静环境中以及与同时出现的多说话者嘈杂噪声混合的情况下呈现调幅音调,记录了年轻和年长成年人的40赫兹听觉稳态反应(ASSR)的脑磁图。安静条件下的反应潜伏期更长,振幅更突出,这表明噪声环境下的40赫兹ASSR主要由感觉成分主导,而安静环境下则由参与高级处理的成分主导。在两种刺激条件下,年长成年人的ASSR振幅均增加。然而,只有在噪声条件下,较大的ASSR振幅才与更严重的听力损失和噪声环境下言语感知损失相关。这表明与衰老相关的感觉伽马振荡同步性增加对听觉处理有不利影响。它可能会导致中枢听觉系统中竞争声音之间的干扰增加,使衰老的听觉系统难以从噪声中分离出语音特征并将它们绑定成一个独特的感知对象。同样在年长成年人中,安静条件下40赫兹ASSR的较大振幅与通过磁共振波谱测量的左听觉皮质较高的GABA浓度相关,这支持了GABA在衰老过程中内部产生的伽马同步中的作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5043/12007526/3b1b1693e27e/imag_a_00035_fig1.jpg

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