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老年人的神经解剖学特征与噪声下的言语感知。

Neuroanatomical characteristics and speech perception in noise in older adults.

机构信息

The Roxelyn and Richard Pepper Department of Communication Sciences and Disorders, Northwestern University, Illinois, USA.

出版信息

Ear Hear. 2010 Aug;31(4):471-9. doi: 10.1097/AUD.0b013e3181d709c2.

Abstract

OBJECTIVES

Previous research has attributed older adults' difficulty with perceiving speech in noise to peripheral hearing loss. However, recent studies have suggested a more complex picture and implicate the central nervous system in sensation and sensory deficits. This study examines the relationship between the neuroanatomical structure of cognitive brain regions and the ability to perceive speech in noise in older adults. In particular, the neuroanatomical characteristics of the left ventral and dorsal prefrontal cortex (PFC) are considered relative to standard measures of hearing in noise.

DESIGN

The participants were 15 older and 14 younger right-handed native speakers of American English who had no neurologic deficits and scored better than normal on standardized cognitive tests. We measured the participants' peripheral hearing ability and their ability to perceive speech in noise using established tests. Anatomical magnetic resonance images were taken and analyzed to extract regional volumes and thicknesses of several key neuroanatomical structures.

RESULTS

Younger adults had better hearing sensitivity and better speech perception in noise ability than older adults. For the older adults only, the volume of the left pars triangularis and the cortical thickness of the left superior frontal gyrus were significant predictors of performance on the speech in noise test.

DISCUSSION

These findings suggest that, in addition to peripheral structures, the central nervous system also contributes to the ability to perceive speech in noise. In older adults, a decline in the relative volume and cortical thickness of the PFC during aging can therefore be a factor in a declining ability to perceive speech in a naturalistic environment. These findings are consistent with the decline-compensation hypothesis, which states that a decline in sensory processing caused by cognitive aging can be accompanied by an increase in the recruitment of more general cognitive areas as a means of compensation. We found that a larger PFC volume may compensate for declining peripheral hearing. Clinically, recognizing the contribution of the cerebral cortex expands treatment possibilities for hearing loss in older adults beyond peripheral hearing aids to include strategies for improving cognitive function. We conclude by considering several mechanisms by which the PFC may facilitate speech perception in noise, including inhibitory control, attention, cross-modal compensation, word prediction and phonological working memory, although no definitive conclusion can be drawn.

摘要

目的

先前的研究将老年人在噪声中感知言语的困难归因于外围听力损失。然而,最近的研究表明情况更为复杂,并暗示中枢神经系统在感觉和感觉缺陷中起作用。本研究探讨了认知大脑区域的神经解剖结构与老年人在噪声中感知言语的能力之间的关系。特别是,考虑了左腹侧和背侧前额叶皮层(PFC)的神经解剖特征与噪声中的听力标准测量值的关系。

设计

参与者为 15 名年龄较大的右利手美国英语母语者和 14 名年龄较小的右利手美国英语母语者,他们没有神经缺陷,并且在标准化认知测试中得分正常。我们使用已建立的测试测量了参与者的外围听力能力和他们在噪声中感知言语的能力。拍摄并分析了解剖磁共振图像,以提取几个关键神经解剖结构的区域体积和厚度。

结果

年轻参与者的听力敏感度和噪声中言语感知能力均优于年龄较大的参与者。仅对于年龄较大的参与者,左侧三角部的体积和左侧额上回的皮质厚度是言语感知测试表现的重要预测指标。

讨论

这些发现表明,除了外围结构外,中枢神经系统也有助于在噪声中感知言语。因此,在老年人中,随着年龄的增长,PFC 的相对体积和皮质厚度下降可能是在自然环境中感知言语能力下降的一个因素。这些发现与衰退-补偿假说一致,该假说指出,由于认知老化而导致的感觉处理下降,可以伴随着更一般的认知区域的招募增加,作为一种补偿手段。我们发现,更大的 PFC 体积可能会补偿外围听力下降。从临床角度来看,认识到大脑皮层的贡献扩展了治疗老年人听力损失的可能性,超出了外围助听器的范围,包括改善认知功能的策略。我们最后考虑了 PFC 可能通过几种机制促进噪声中的言语感知,包括抑制控制、注意力、跨模态补偿、单词预测和语音工作记忆,尽管不能得出明确的结论。

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