Conditional deviant repetition in the oddball paradigm modulates processing at the level of P3a but not MMN.

Psychophysiology Pub Date : 2024-06-01 Epub Date: 2024-02-17 DOI:10.1111/psyp.14545
Nina Coy, Alexandra Bendixen, Sabine Grimm, Urte Roeber, Erich Schröger
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Abstract

The auditory system has an amazing ability to rapidly encode auditory regularities. Evidence comes from the popular oddball paradigm, in which frequent (standard) sounds are occasionally exchanged for rare deviant sounds, which then elicit signs of prediction error based on their unexpectedness (e.g., MMN and P3a). Here, we examine the widely neglected characteristics of deviants being bearers of predictive information themselves; naive participants listened to sound sequences constructed according to a new, modified version of the oddball paradigm including two types of deviants that followed diametrically opposed rules: one deviant sound occurred mostly in pairs (repetition rule), the other deviant sound occurred mostly in isolation (non-repetition rule). Due to this manipulation, the sound following a first deviant (either the same deviant or a standard) was either predictable or unpredictable based on its conditional probability associated with the preceding deviant sound. Our behavioral results from an active deviant detection task replicate previous findings that deviant repetition rules (based on conditional probability) can be extracted when behaviorally relevant. Our electrophysiological findings obtained in a passive listening setting indicate that conditional probability also translates into differential processing at the P3a level. However, MMN was confined to global deviants and was not sensitive to conditional probability. This suggests that higher-level processing concerned with stimulus selection and/or evaluation (reflected in P3a) but not lower-level sensory processing (reflected in MMN) considers rarely encountered rules.

奇球范式中的条件性偏差重复会调节P3a水平的加工过程,但不会调节MMN水平的加工过程。
听觉系统具有快速编码听觉规律的惊人能力。流行的 "怪音范式"(oddball paradigm)就是证明,在该范式中,经常出现的(标准)声音偶尔会被换成罕见的偏差声音,而偏差声音会根据其出乎意料的程度(如 MMN 和 P3a)引起预测错误的迹象。在这里,我们要研究的是被广泛忽视的偏差声音本身作为预测信息载体的特点;天真的参与者聆听的声音序列是根据一种新的、改进版的奇异球范式构建的,其中包括两种遵循截然相反规则的偏差声音:一种偏差声音大多成对出现(重复规则),另一种偏差声音大多单独出现(非重复规则)。在这种操纵下,第一个异常声音(相同的异常声音或标准声音)之后的声音要么是可预测的,要么是不可预测的,这取决于其与前面异常声音相关的条件概率。我们从主动偏差检测任务中得出的行为结果重复了之前的研究结果,即偏差重复规则(基于条件概率)在与行为相关时可以被提取出来。我们在被动聆听环境中获得的电生理结果表明,条件概率也会转化为 P3a 水平的差异处理。然而,MMN 仅限于全局偏差,对条件概率并不敏感。这表明,与刺激选择和/或评估有关的高层次处理(反映在 P3a 中),而不是低层次的感觉处理(反映在 MMN 中)会考虑很少遇到的规则。
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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