Left Frontal White Matter Links to Rhythm Processing Relevant to Speech Production in Apraxia of Speech.

IF 3.6 Q1 LINGUISTICS Neurobiology of Language Pub Date : 2022-09-22 eCollection Date: 2022-01-01 DOI:10.1162/nol_a_00075
Rose Bruffaerts, Jolien Schaeverbeke, Ahmed Radwan, Manon Grube, Silvy Gabel, An-Sofie De Weer, Eva Dries, Karen Van Bouwel, Timothy D Griffiths, Stefan Sunaert, Rik Vandenberghe
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Abstract

Recent mechanistic models argue for a key role of rhythm processing in both speech production and speech perception. Patients with the non-fluent variant (NFV) of primary progressive aphasia (PPA) with apraxia of speech (AOS) represent a specific study population in which this link can be examined. Previously, we observed impaired rhythm processing in NFV with AOS. We hypothesized that a shared neurocomputational mechanism structures auditory input (sound and speech) and output (speech production) in time, a "temporal scaffolding" mechanism. Since considerable white matter damage is observed in NFV, we test here whether white matter changes are related to impaired rhythm processing. Forty-seven participants performed a psychoacoustic test battery: 12 patients with NFV and AOS, 11 patients with the semantic variant of PPA, and 24 cognitively intact age- and education-matched controls. Deformation-based morphometry was used to test whether white matter volume correlated to rhythmic abilities. In 34 participants, we also obtained tract-based metrics of the left Aslant tract, which is typically damaged in patients with NFV. Nine out of 12 patients with NFV displayed impaired rhythmic processing. Left frontal white matter atrophy adjacent to the supplementary motor area (SMA) correlated with poorer rhythmic abilities. The structural integrity of the left Aslant tract also correlated with rhythmic abilities. A colocalized and perhaps shared white matter substrate adjacent to the SMA is associated with impaired rhythmic processing and motor speech impairment. Our results support the existence of a temporal scaffolding mechanism structuring perceptual input and speech output.

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左侧额叶白质与语言障碍患者的语音节奏处理相关联
最近的机理模型认为,节奏处理在语音产生和语音感知中都起着关键作用。原发性进行性失语症(PPA)的非流利变异型(NFV)伴言语障(AOS)患者是一个特殊的研究群体,可以在他们身上考察这种联系。此前,我们曾观察到 NFV 伴有 AOS 的患者节奏处理能力受损。我们假设,一种共同的神经计算机制将听觉输入(声音和言语)和输出(言语生成)在时间上进行结构化,这是一种 "时间支架 "机制。由于在 NFV 中观察到大量白质损伤,我们在此测试白质变化是否与节奏处理受损有关。47 名参与者进行了一系列心理声学测试:12 名 NFV 和 AOS 患者,11 名 PPA 语义变异患者,以及 24 名年龄和教育匹配的认知完整对照组。我们使用基于变形的形态测量法来测试白质体积是否与节奏能力相关。在34名参与者中,我们还获得了左侧Aslant束的基于束的指标,NFV患者的左侧Aslant束通常会受损。在 12 名 NFV 患者中,有 9 人的节奏处理能力受损。与辅助运动区(SMA)相邻的左额叶白质萎缩与较差的节奏能力相关。左侧阿斯兰特束的结构完整性也与节奏能力相关。与 SMA 相邻的白质基质可能是共定位的,也可能是共用的,这与节奏处理能力受损和运动言语障碍有关。我们的研究结果表明,在感知输入和言语输出的结构中存在一种时间支架机制。
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来源期刊
Neurobiology of Language
Neurobiology of Language Social Sciences-Linguistics and Language
CiteScore
5.90
自引率
6.20%
发文量
32
审稿时长
17 weeks
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