Rhythmic Entrainment Echoes in Auditory Perception

Sylvain L’Hermite, Benedikt Zoefel
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Abstract

Rhythmic entrainment echoes—rhythmic brain responses that outlast rhythmic stimulation—can demonstrate endogenous neural oscillations entrained by the stimulus rhythm. Here, we tested for such echoes in auditory perception. Participants detected a pure tone target, presented at a variable delay after another pure tone that was rhythmically modulated in amplitude. In four experiments involving 154 human (female and male) participants, we tested (1) which stimulus rate produces the strongest entrainment echo and, inspired by the tonotopical organization of the auditory system and findings in nonhuman primates, (2) whether these are organized according to sound frequency. We found the strongest entrainment echoes after 6 and 8 Hz stimulation, respectively. The best moments for target detection (in phase or antiphase with the preceding rhythm) depended on whether sound frequencies of entraining and target stimuli matched, which is in line with a tonotopical organization. However, for the same experimental condition, best moments were not always consistent across experiments. We provide a speculative explanation for these differences that relies on the notion that neural entrainment and repetition-related adaptation might exercise competing opposite influences on perception. Together, we find rhythmic echoes in auditory perception that seem more complex than those predicted from initial theories of neural entrainment. SIGNIFICANCE STATEMENT Rhythmic entrainment echoes are rhythmic brain responses that are produced by a rhythmic stimulus and persist after its offset. These echoes play an important role for the identification of endogenous brain oscillations, entrained by rhythmic stimulation, and give us insights into whether and how participants predict the timing of events. In four independent experiments involving >150 participants, we examined entrainment echoes in auditory perception. We found that entrainment echoes have a preferred rate (between 6 and 8 Hz) and seem to follow the tonotopic organization of the auditory system. Although speculative, we also found evidence that several, potentially competing processes might interact to produce such echoes, a notion that might need to be considered for future experimental design.
听觉感知中的节奏干扰回声
节律性干扰回声——持续时间超过节律性刺激的节律性大脑反应——可以证明刺激节奏引起的内源性神经振荡。在这里,我们测试了听觉感知中的这种回声。参与者检测到一个纯音目标,在另一个纯音振幅有节奏地调制后以可变延迟呈现。在涉及154名人类(男性和女性)参与者的四个实验中,我们测试了(1)哪种刺激率产生最强的牵引回声,以及(2)听觉系统的张力局部组织和非人灵长类动物的发现的启发,(2)这些是否根据声音频率组织。我们发现,在6 Hz和8 Hz的刺激下,夹带回波最强。目标检测的最佳时刻(与前一节奏同相或反相)取决于携带的声音频率与目标刺激是否匹配,这符合一种张力局部组织。然而,在相同的实验条件下,最佳时刻在不同的实验中并不总是一致的。我们对这些差异提供了一种推测性的解释,这种解释依赖于神经夹带和重复相关的适应可能会对感知产生相互竞争的相反影响。总之,我们发现听觉中有节奏的回声似乎比最初的神经干扰理论所预测的要复杂得多。意义声明节奏干扰回声是有节奏的大脑反应,由有节奏的刺激产生并在其抵消后持续存在。这些回声在识别由节律性刺激引起的内源性脑振荡方面发挥着重要作用,并使我们深入了解参与者是否以及如何预测事件的时间。在四个独立的实验中,有150名参与者参与,我们检查了听觉感知中的夹带回声。我们发现,干扰回声有一个优先的频率(在6和8赫兹之间),似乎遵循听觉系统的张力组织。虽然是推测性的,但我们也发现了证据,表明几个潜在的竞争过程可能相互作用,产生这样的回声,这一概念可能需要在未来的实验设计中加以考虑。
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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