Department of Experimental Psychology, University of Oxford, Oxford OX2 6GG, United Kingdom
Oxford Centre for Human Brain Activity, Wellcome Centre for Integrative Neuroimaging, Department of Psychiatry, University of Oxford, Oxford OX3 7JX, United Kingdom.
J Neurosci. 2020 May 13;40(20):4010-4020. doi: 10.1523/JNEUROSCI.2751-19.2020. Epub 2020 Apr 13.
Probabilistic associations between stimuli afford memory templates that guide perception through proactive anticipatory mechanisms. A great deal of work has examined the behavioral consequences and human electrophysiological substrates of anticipation following probabilistic memory cues that carry spatial or temporal information to guide perception. However, less is understood about the electrophysiological substrates linked to anticipating the sensory content of events based on recurring associations between successive events. Here, we demonstrate behavioral and electrophysiological signatures of using associative-memory templates to guide perception, while equating spatial and temporal anticipation (experiments 1 and 2), as well as target probability and response demands (experiment 2). By recording the electroencephalogram in the two experiments ( = 55; 24 females), we show that two markers in human electrophysiology implicated in spatial and temporal anticipation also contribute to the anticipation of perceptual identity, as follows: attenuation of alpha-band oscillations and the contingent negative variation (CNV). Together, our results show that memory-guided identity templates proactively impact perception and are associated with anticipatory states of attenuated alpha oscillations and the CNV. Furthermore, by isolating object-identity anticipation from spatial and temporal anticipation, our results suggest a role for alpha attenuation and the CNV in specific visual content anticipation beyond general changes in neural excitability or readiness. Probabilistic associations between stimuli afford memory templates that guide perception through proactive anticipatory mechanisms. The current work isolates the behavioral benefits and electrophysiological signatures of memory-guided identity-based anticipation, while equating anticipation of space, time, motor responses, and task relevance. Our results show that anticipation of the specific identity of a forthcoming percept impacts performance and is associated with states of attenuated alpha oscillations and the contingent negative variation, extending previous work implicating these neural substrates in spatial and temporal preparatory attention. Together, this work bridges fields of attention, memory, and perception, providing new insights into the neural mechanisms that support complex attentional templates.
刺激之间的概率关联提供了记忆模板,通过主动预测机制引导感知。大量工作研究了在概率记忆线索之后预测的行为后果和人类电生理基础,这些线索携带空间或时间信息来引导感知。然而,对于基于事件之间的重复关联来预测事件的感官内容的电生理基础,人们了解较少。在这里,我们展示了使用联想记忆模板来引导感知的行为和电生理特征,同时均等了空间和时间预测(实验 1 和 2)以及目标概率和反应需求(实验 2)。通过在两个实验中记录脑电图(n=55;24 名女性),我们表明,与空间和时间预测有关的人类电生理学中的两个标志物也有助于感知身份的预测,如下所示:α 波段振荡的衰减和伴随性负变(CNV)。总的来说,我们的结果表明,记忆引导的身份模板主动影响感知,并与预测状态的α 波段振荡衰减和 CNV 有关。此外,通过将对象身份预测与空间和时间预测分离,我们的结果表明,在一般神经兴奋性或准备状态变化之外,α 衰减和 CNV 在特定视觉内容预测中具有作用。刺激之间的概率关联提供了记忆模板,通过主动预测机制引导感知。目前的工作分离了基于记忆的身份预测的行为益处和电生理特征,同时均等了对空间、时间、运动反应和任务相关性的预测。我们的结果表明,对即将到来的感知的特定身份的预测会影响表现,并与α 波段振荡衰减和伴随性负变的状态有关,这扩展了以前将这些神经基质与空间和时间预备注意联系起来的工作。总的来说,这项工作弥合了注意力、记忆和感知领域的差距,为支持复杂注意力模板的神经机制提供了新的见解。
