Cortical Generators and Connections Underlying Phoneme Perception: A Mismatch Negativity and P300 Investigation.

IF 2.3 3区 医学 Q3 CLINICAL NEUROLOGY
Brain Topography Pub Date : 2024-11-01 Epub Date: 2024-07-03 DOI:10.1007/s10548-024-01065-z
Yana Criel, Emma Depuydt, Marijke Miatton, Patrick Santens, Pieter van Mierlo, Miet De Letter
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Abstract

The cortical generators of the pure tone MMN and P300 have been thoroughly studied. Their nature and interaction with respect to phoneme perception, however, is poorly understood. Accordingly, the cortical sources and functional connections that underlie the MMN and P300 in relation to passive and active speech sound perception were identified. An inattentive and attentive phonemic oddball paradigm, eliciting a MMN and P300 respectively, were administered in 60 healthy adults during simultaneous high-density EEG recording. For both the MMN and P300, eLORETA source reconstruction was performed. The maximal cross-correlation was calculated between ROI-pairs to investigate inter-regional functional connectivity specific to passive and active deviant processing. MMN activation clusters were identified in the temporal (insula, superior temporal gyrus and temporal pole), frontal (rostral middle frontal and pars opercularis) and parietal (postcentral and supramarginal gyrus) cortex. Passive discrimination of deviant phonemes was aided by a network connecting right temporoparietal cortices to left frontal areas. For the P300, clusters with significantly higher activity were found in the frontal (caudal middle frontal and precentral), parietal (precuneus) and cingulate (posterior and isthmus) cortex. Significant intra- and interhemispheric connections between parietal, cingulate and occipital regions constituted the network governing active phonemic target detection. A predominantly bilateral network was found to underly both the MMN and P300. While passive phoneme discrimination is aided by a fronto-temporo-parietal network, active categorization calls on a network entailing fronto-parieto-cingulate cortices. Neural processing of phonemic contrasts, as reflected by the MMN and P300, does not appear to show pronounced lateralization to the language-dominant hemisphere.

Abstract Image

音素感知的大脑皮层发生器和连接:错配负性和 P300 研究。
纯音 MMN 和 P300 的皮层发生器已得到深入研究。然而,人们对它们的性质以及与音素感知的相互作用却知之甚少。因此,我们确定了与被动和主动语音感知有关的 MMN 和 P300 的皮层来源和功能连接。研究人员在同时进行高密度脑电图记录的过程中,对 60 名健康成年人进行了注意力不集中和注意力集中的语音奇异范式训练,分别诱发 MMN 和 P300。对 MMN 和 P300 都进行了 eLORETA 信号源重建。计算 ROI 对之间的最大交叉相关性,以研究被动和主动偏差处理的特定区域间功能连接。在颞叶(岛叶、颞上回和颞极)、额叶(喙中额叶和厣旁)和顶叶(中央后回和边际上回)皮层发现了 MMN 激活集群。连接右侧颞顶叶皮层和左侧额叶区域的网络有助于被动辨别偏差音素。在 P300 中,额叶(尾中额叶和前额叶)、顶叶(楔前)和扣带回(后部和峡部)皮层的活动明显较高。顶叶、扣带回和枕叶区域之间显著的半球内和半球间联系构成了支配主动音位目标检测的网络。研究发现,MMN 和 P300 均由一个主要的双侧网络支撑。被动音素辨别由前额-颞-顶叶网络辅助,而主动分类则需要一个包含前额-颞-扣带回皮层的网络。MMN和P300所反映的音位对比的神经处理似乎并没有表现出明显的语言优势半球的侧向性。
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来源期刊
Brain Topography
Brain Topography 医学-临床神经学
CiteScore
4.70
自引率
7.40%
发文量
41
审稿时长
3 months
期刊介绍: Brain Topography publishes clinical and basic research on cognitive neuroscience and functional neurophysiology using the full range of imaging techniques including EEG, MEG, fMRI, TMS, diffusion imaging, spectroscopy, intracranial recordings, lesion studies, and related methods. Submissions combining multiple techniques are particularly encouraged, as well as reports of new and innovative methodologies.
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