口吃成人非单词音节序列重复准确率较低与音频运动振荡的差异有关。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Andrew Bowers , Daniel Hudock
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引用次数: 0

摘要

研究目的本研究的目的是利用高密度脑电图(EEG)的独立成分分析(ICA),研究与典型流利说话者相比,一组口吃成人的音频运动神经振荡差异是否与非单词音节重复准确性有关:使用 128 个通道记录 23 名典型流利说话者和 23 名口吃成人的脑电图,他们的年龄、性别和手型均匹配。在延迟、2 个和 4 个双唇非单词音节重复条件下记录脑电图。计算了每个独立成分(IC)的头皮形貌、偶极子源估计值和功率谱密度(PSD),并用于对参与者中相似的 IC 进行聚类。对每个 IC 聚类计算事件相关频谱扰动 (ERSP),以检查复读条件下随着时间推移发生的变化,并检查 ERSP 的动态变化与音节复读准确性的关系:研究结果表明,AWS 组的正确率明显较低,不同条件下音节负荷的正常化表现也明显较低。ERSPs分析表明,与TFS相比,AWS组左右μ ICs和左右颞叶后部α ICs的α/β ERD明显较低(CC p结论:研究结果表明,AWS组左右μ ICs和左右颞叶后部α ICs的α/β ERD明显较低:研究结果表明,在音节编码期间,颞叶后部集成电路和左侧颞叶/感觉运动部分的执行α/β ERD(8-30Hz)较低。在执行过程中,∼6-8Hz ERSPs 与准确性和个体间差异有很强的相关性,这表明在 AWS 中执行音节序列时,运动和听觉-感觉监测存在差异。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Lower nonword syllable sequence repetition accuracy in adults who stutter is related to differences in audio-motor oscillations

Objective

The goal of this study was to use independent component analysis (ICA) of high-density electroencephalography (EEG) to investigate whether differences in audio-motor neural oscillations are related to nonword syllable repetition accuracy in a group of adults who stutter compared to typically fluent speakers.

Methods

EEG was recorded using 128 channels from 23 typically fluent speakers and 23 adults who stutter matched for age, sex, and handedness. EEG was recorded during delayed, 2 and 4 bilabial nonword syllable repetition conditions. Scalp-topography, dipole source estimates, and power spectral density (PSD) were computed for each independent component (IC) and used to cluster similar ICs across participants. Event-related spectral perturbations (ERSPs) were computed for each IC cluster to examine changes over time in the repetition conditions and to examine how dynamic changes in ERSPs are related to syllable repetition accuracy.

Results

Findings indicated significantly lower accuracy on a measure of percentage correct trials in the AWS group and for a normalized measure of syllable load performance across conditions. Analysis of ERSPs revealed significantly lower alpha/beta ERD in left and right μ ICs and in left and right posterior temporal lobe α ICs in AWS compared to TFS (CC p < 0.05). Pearson correlations with %CT for frequency across time showed strong relationships with accuracy (FWE<0.05) during maintenance in the TFS group and during execution in the AWS group.

Conclusions

Findings implicate lower alpha/beta ERD (8–30 Hz) during syllable encoding over posterior temporal ICs and execution in left temporal/sensorimotor components. Strong correlations with accuracy and interindividual differences in ∼6–8 Hz ERSPs during execution implicate differences in motor and auditory-sensory monitoring during syllable sequence execution in AWS.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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