Department of Neuroscience, Psychology, Pharmacology, and Child Health, University of Florence, 50135 Florence, Italy.
Department of Translational Research on New Technologies in Medicine and Surgery, University of Pisa, 56123 Pisa, Italy.
J Neurosci. 2022 Nov 23;42(47):8817-8825. doi: 10.1523/JNEUROSCI.1879-21.2022. Epub 2022 Oct 12.
It is well known that recent sensory experience influences perception, recently demonstrated by a phenomenon termed "serial dependence." However, its underlying neural mechanisms are poorly understood. We measured ERP responses to pairs of stimuli presented randomly to the left or right hemifield. Seventeen male and female adults judged whether the upper or lower half of the grating had higher spatial frequency, independent of the horizontal position of the grating. This design allowed us to trace the memory signal modulating task performance and also the implicit memory signal associated with hemispheric position. Using classification techniques, we decoded the position of the current and previous stimuli and the response from voltage scalp distributions of the current trial. Classification of previous responses reached full significance only 700 ms after presentation of the current stimulus, consistent with retrieval of an activity-silent memory trace. Cross-condition classification accuracy of past responses (trained on current responses) correlated with the strength of serial dependence effects of individual participants. Overall, our data provide evidence for a silent memory signal that can be decoded from the EEG potential, which interacts with the neural processing of the current stimulus. This silent memory signal could be the physiological substrate subserving at least one type of serial dependence. The neurophysiological underpinnings of how past perceptual experience affects current perception are poorly understood. Here, we show that recent experience is reactivated when a new stimulus is presented and that the strength of this reactivation correlates with serial biases in individual participants, suggesting that serial dependence is established on the basis of a silent memory signal.
众所周知,最近的感官体验会影响感知,这一点最近被一种称为“序列依赖”的现象所证明。然而,其潜在的神经机制还不清楚。我们测量了成对的刺激呈现给左或右视野时的 ERP 反应。17 名男性和女性成年人独立于光栅的水平位置判断光栅的上半部分或下半部分具有更高的空间频率。这种设计使我们能够追踪调节任务表现的记忆信号,以及与半球位置相关的隐含记忆信号。使用分类技术,我们从当前试次的电压头皮分布解码当前和前一个刺激的位置以及响应。只有在当前刺激呈现后 700 毫秒,对前一个响应的分类才达到完全显著,这与对无活动记忆痕迹的检索一致。过去响应(基于当前响应进行训练)的条件间分类准确性与个体参与者的序列依赖效应强度相关。总体而言,我们的数据提供了证据表明,从 EEG 电位中可以解码出一种沉默的记忆信号,该信号与当前刺激的神经处理相互作用。这种沉默的记忆信号可能是至少一种序列依赖的生理基础。过去的感知经验如何影响当前感知的神经生理学基础还知之甚少。在这里,我们表明,当呈现新刺激时,最近的经验会被重新激活,并且这种重新激活的强度与个体参与者的序列偏差相关,这表明序列依赖是基于沉默记忆信号建立的。