University of Manchester, School of Biological Sciences, Division of Neuroscience and Experimental Psychology, Manchester, UK.
Neurobiol Learn Mem. 2021 Apr;180:107412. doi: 10.1016/j.nlm.2021.107412. Epub 2021 Feb 18.
Whether a novel stimulus is expected or unexpected may have implications for the kind of ensuing encoding and the type of subsequent memory. Pupil response was used in the present study to explore the way expected and unexpected stimuli are encoded and whether encoding-linked pupil response is modulated by expectation. Participants first established a contingency relationship between a series of symbols and the type of stimulus (man-made or natural) that followed each one. At encoding, some of the target stimuli violated the previously established relationship (i.e., unexpected), while the majority conformed to this relationship (i.e., expected). Expectation at encoding had opposite effects on familiarity and recollection, the two types of memory that support recognition, and modulated differently the way pupil response predicted subsequent memory. Encoding of unexpected novel stimuli was associated with increased pupil dilation as a predictor of subsequent memory type and strength. In contrast, encoding of expected novel stimuli was associated with decreased pupil response (constriction), which was predictive of subsequent memory type and strength. The findings support the close link between pupil response and memory formation, but critically indicate that this is modulated by the type of novelty as defined by expectation. These novel findings have important implications for the encoding mechanisms involved when different types of novelty are detected and is proposed to indicate the operation of different neurotransmitters during memory formation.
新刺激是可预测的还是不可预测的,可能会对随后的编码类型和后续记忆类型产生影响。本研究采用瞳孔反应来探究可预测和不可预测的刺激是如何被编码的,以及编码相关的瞳孔反应是否会受到预期的调节。参与者首先在一系列符号和紧随其后的刺激类型(人造或自然)之间建立了一种关联关系。在编码过程中,一些目标刺激违反了之前建立的关系(即不可预测),而大多数刺激则符合这种关系(即可预测)。在编码时的预期对熟悉度和回忆这两种支持识别的记忆类型有相反的影响,并以不同的方式调节瞳孔反应对后续记忆的预测。对意想不到的新刺激的编码与瞳孔扩张的增加有关,瞳孔扩张是后续记忆类型和强度的预测指标。相比之下,对预期的新刺激的编码与瞳孔反应(收缩)的减少有关,瞳孔反应的减少是后续记忆类型和强度的预测指标。这些发现支持了瞳孔反应与记忆形成之间的密切联系,但关键是表明,这种联系受到预期所定义的新颖性类型的调节。这些新发现对检测到不同类型的新颖性时涉及的编码机制具有重要意义,并表明在记忆形成过程中不同神经递质的运作。
