Processing of auditory novelty in human cortex during a semantic categorization task

IF 2.5 2区 医学 Q1 AUDIOLOGY & SPEECH-LANGUAGE PATHOLOGY
Kirill V. Nourski , Mitchell Steinschneider , Ariane E. Rhone , Emily R. Dappen , Hiroto Kawasaki , Matthew A. Howard III
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引用次数: 0

Abstract

Auditory semantic novelty – a new meaningful sound in the context of a predictable acoustical environment – can probe neural circuits involved in language processing. Aberrant novelty detection is a feature of many neuropsychiatric disorders. This large-scale human intracranial electrophysiology study examined the spatial distribution of gamma and alpha power and auditory evoked potentials (AEP) associated with responses to unexpected words during performance of semantic categorization tasks. Participants were neurosurgical patients undergoing monitoring for medically intractable epilepsy. Each task included repeatedly presented monosyllabic words from different talkers (“common”) and ten words presented only once (“novel”). Targets were words belonging to a specific semantic category. Novelty effects were defined as differences between neural responses to novel and common words. Novelty increased task difficulty and was associated with augmented gamma, suppressed alpha power, and AEP differences broadly distributed across the cortex. Gamma novelty effect had the highest prevalence in planum temporale, posterior superior temporal gyrus (STG) and pars triangularis of the inferior frontal gyrus; alpha in anterolateral Heschl's gyrus (HG), anterior STG and middle anterior cingulate cortex; AEP in posteromedial HG, lower bank of the superior temporal sulcus, and planum polare. Gamma novelty effect had a higher prevalence in dorsal than ventral auditory-related areas. Novelty effects were more pronounced in the left hemisphere. Better novel target detection was associated with reduced gamma novelty effect within auditory cortex and enhanced gamma effect within prefrontal and sensorimotor cortex. Alpha and AEP novelty effects were generally more prevalent in better performing participants. Multiple areas, including auditory cortex on the superior temporal plane, featured AEP novelty effect within the time frame of P3a and N400 scalp-recorded novelty-related potentials. This work provides a detailed account of auditory novelty in a paradigm that directly examined brain regions associated with semantic processing. Future studies may aid in the development of objective measures to assess the integrity of semantic novelty processing in clinical populations.

语义分类任务中人类大脑皮层对听觉新奇性的处理
听觉语义新奇性--在可预测的声学环境中的一种新的有意义的声音--可以探测参与语言处理的神经回路。新奇感检测失常是许多神经精神疾病的特征之一。这项大规模的人类颅内电生理学研究考察了γ和α功率的空间分布以及听觉诱发电位(AEP),这些都与执行语义分类任务时对意外词语的反应有关。研究对象是正在接受医学难治性癫痫监测的神经外科患者。每项任务都包括重复出现来自不同说话者的单音节词("常见")和只出现一次的十个词("新颖")。目标词是属于特定语义类别的词。新颖性效应被定义为对新词和普通词的神经反应之间的差异。新颖性增加了任务难度,并与伽马效应增强、α功率抑制以及广泛分布于大脑皮层的AEP差异有关。伽马新奇效应在颞平面、颞上回(STG)后部和额下回三角旁的发生率最高;α在赫希尔回(HG)前外侧、STG前部和扣带回前中部的发生率最高;AEP在HG后内侧、颞上沟下部和极面的发生率最高。伽马新奇效应在背侧听觉相关区域的发生率高于腹侧听觉相关区域。新奇效应在左半球更为明显。更好的新目标检测与听觉皮层中伽马新奇效应的减少以及前额叶和感觉运动皮层中伽马效应的增强有关。阿尔法和AEP新奇效应一般在表现较好的参与者中更为普遍。在 P3a 和 N400 头皮记录的新奇相关电位的时间范围内,包括颞上平面听觉皮层在内的多个区域都出现了 AEP 新奇效应。这项研究详细说明了在直接检查与语义处理相关的脑区的范式中的听觉新奇性。未来的研究可能有助于开发客观的测量方法,以评估临床人群语义新奇性处理的完整性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Hearing Research
Hearing Research 医学-耳鼻喉科学
CiteScore
5.30
自引率
14.30%
发文量
163
审稿时长
75 days
期刊介绍: The aim of the journal is to provide a forum for papers concerned with basic peripheral and central auditory mechanisms. Emphasis is on experimental and clinical studies, but theoretical and methodological papers will also be considered. The journal publishes original research papers, review and mini- review articles, rapid communications, method/protocol and perspective articles. Papers submitted should deal with auditory anatomy, physiology, psychophysics, imaging, modeling and behavioural studies in animals and humans, as well as hearing aids and cochlear implants. Papers dealing with the vestibular system are also considered for publication. Papers on comparative aspects of hearing and on effects of drugs and environmental contaminants on hearing function will also be considered. Clinical papers will be accepted when they contribute to the understanding of normal and pathological hearing functions.
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