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1.
muton (2024-07-31 18:12):
#paper:Hu, H., Li, A., Zhang, L., Liu, C., Shi, L., Peng, X., ... & Xue, G. (2024). Goal-directed attention transforms both working and long-term memory representations in the human parietal cortex. PLoS biology, 22(7), e3002721. 日常生活中我们会加工诸多信息,并存储到长时记忆,但当多个信息同时存在时,选择性注意是如何处理相互竞争的信息,减少干扰信息的影响呢。现有的工作记忆研究发现,注意可以通过灵活的编码和映射机制来保护目标表征。然而,在更复杂的图片刺激以及更长时间尺度下,这些机制是否同样有助于目标表征的记忆编码和长时提取尚未清楚。这项研究结合选择性注意任务和一天后的再认任务,揭示了选择性注意影响工作记忆以及长时记忆的神经机制。首先,研究采用分类器解码的分析方法,发现知觉注意和内省注意两种自上而下的注意在有效线索出现后均能增强目标表征和抑制干扰表征,且知觉注意的调节作用更强。此外,与视觉皮层相比,顶叶对干扰项的抑制作用更强,在知觉注意条件下干扰项的解码概率甚至和未出现的图片种类的解码概率无显著差异,说明顶叶更能抵抗干扰,更受自上而下的注意调节影响。并且虽然顶叶和视觉皮层都表征了目标信息,但在有干扰图片的知觉注意条件下,目标信息更多表征在背外侧顶叶,而在没有干扰物的基线条件下更多表征在视觉皮层。这表明在面对干扰时,大脑中维持目标表征的区域发生了部分的转移。研究还发现,在再认阶段目标表征和干扰表征的相似性越低,被试的总体记忆成绩越好。这些结果表示人类在进行长时记忆加工过程中受注意调控的影响,也证明了情景记忆的动态性。
IF:7.800Q1 PLoS biology, 2024-Jul. DOI: 10.1371/journal.pbio.3002721 PMID: 39008524 PMCID:PMC11271952
Abstract:
The abundance of distractors in the world poses a major challenge to our brain's limited processing capacity, but little is known about how selective attention modulates stimulus representations in the … >>>
The abundance of distractors in the world poses a major challenge to our brain's limited processing capacity, but little is known about how selective attention modulates stimulus representations in the brain to reduce interference and support durable target memory. Here, we collected functional magnetic resonance imaging (fMRI) data in a selective attention task in which target and distractor pictures of different visual categories were simultaneously presented. Participants were asked to selectively process the target according to the effective cue, either before the encoding period (i.e., perceptual attention) or the maintenance period (i.e., reflective attention). On the next day, participants were asked to perform a memory recognition task in the scanner in which the targets, distractors, and novel items were presented in a pseudorandom order. Behavioral results showed that perceptual attention was better at enhancing target memory and reducing distractor memory than reflective attention, although the overall memory capacity (memory for both target and distractor) was comparable. Using multiple-voxel pattern analysis of the neural data, we found more robust target representation and weaker distractor representation in working memory for perceptual attention than for reflective attention. Interestingly, perceptual attention partially shifted the regions involved in maintaining the target representation from the visual cortex to the parietal cortex. Furthermore, the targets and distractors simultaneously presented in the perceptual attention condition showed reduced pattern similarity in the parietal cortex during retrieval compared to items not presented together. This neural pattern repulsion positively correlated with individuals' recognition of both targets and distractors. These results emphasize the critical role of selective attention in transforming memory representations to reduce interference and improve long-term memory performance. <<<
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2.
DeDe宝 (2023-05-29 09:31):
#paper doi: 10.1371/journal.pbio.3002056 PLOS Biology, 2023, Feature-specific reactivations of pastinformation shift current neural encoding thereby mediating serial bias behaviors。serial bias是知觉领域的一个重要现象,该现象表明当前实验试次的感知决策受到前几个试次的影响并产生系统偏差。但是,当前感知决策是受到之前试次的什么信息影响,是之前的刺激、之前的类别决策还是之前的运动反应?这一直处于长期争论中。本研究的行为分析和脑电信号分析揭示了序列依赖效应的动态神经机制。首先,当前试次的脑电活动中能解码当前试次的信息(预料之中)。但最为有趣的是,当前的事件发生会自动激发过去试次的相应特征信息:音调信息激发过去试次的音调,类别信息激发过去试次的类别,运动响应激活过去试次的运动反应(图2)。值得注意的是,过去试次包含的信息因为已经发生,理论上是可以一直处于激活状态的,然而研究结果表明,它们会潜入记忆的“静默态”,直到被当前试次的相应事件所重新激活。
IF:7.800Q1 PLoS biology, 2023-03. DOI: 10.1371/journal.pbio.3002056 PMID: 36961821
Abstract:
The regularities of the world render an intricate interplay between past and present. Even across independent trials, current-trial perception can be automatically shifted by preceding trials, namely the "serial bias." … >>>
The regularities of the world render an intricate interplay between past and present. Even across independent trials, current-trial perception can be automatically shifted by preceding trials, namely the "serial bias." Meanwhile, the neural implementation of the spontaneous shift of present by past that operates on multiple features remains unknown. In two auditory categorization experiments with human electrophysiological recordings, we demonstrate that serial bias arises from the co-occurrence of past-trial neural reactivation and the neural encoding of current-trial features. The meeting of past and present shifts the neural representation of current-trial features and modulates serial bias behavior. Critically, past-trial features (i.e., pitch, category choice, motor response) keep their respective identities in memory and are only reactivated by the corresponding features in the current trial, giving rise to dissociated feature-specific serial biases. The feature-specific automatic reactivation might constitute a fundamental mechanism for adaptive past-to-present generalizations over multiple features. <<<
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3.
庞庞 (2023-01-31 12:30):
#paper doi:https://doi.org/10.1371/journal.pbio.2007032 Performing group-level functional image analyses based on homologous functional regions mapped in individuals 大脑功能区域的大小、形状、位置和连接模式在个体之间可能存在巨大差异。 作者提出了新的个体化功能分区方法,并证明该方法可以显着改进静息状态功能连接、任务-fMRI 激活和大脑-行为关联的研究。 此外,作者还表明大脑功能区域在大小、位置和连通性方面的个体差异可以提供解释人类行为的信息。
IF:7.800Q1 PLoS biology, 2019-03. DOI: 10.1371/journal.pbio.2007032 PMID: 30908490
Abstract:
Functional MRI (fMRI) studies have traditionally relied on intersubject normalization based on global brain morphology, which cannot establish proper functional correspondence between subjects due to substantial intersubject variability in functional … >>>
Functional MRI (fMRI) studies have traditionally relied on intersubject normalization based on global brain morphology, which cannot establish proper functional correspondence between subjects due to substantial intersubject variability in functional organization. Here, we reliably identified a set of discrete, homologous functional regions in individuals to improve intersubject alignment of fMRI data. These functional regions demonstrated marked intersubject variability in size, position, and connectivity. We found that previously reported intersubject variability in functional connectivity maps could be partially explained by variability in size and position of the functional regions. Importantly, individual differences in network topography are associated with individual differences in task-evoked activations, suggesting that these individually specified regions may serve as the "localizer" to improve the alignment of task-fMRI data. We demonstrated that aligning task-fMRI data using the regions derived from resting state fMRI may lead to increased statistical power of task-fMRI analyses. In addition, resting state functional connectivity among these homologous regions is able to capture the idiosyncrasies of subjects and better predict fluid intelligence (gF) than connectivity measures derived from group-level brain atlases. Critically, we showed that not only the connectivity but also the size and position of functional regions are related to human behavior. Collectively, these findings suggest that identifying homologous functional regions across individuals can benefit a wide range of studies in the investigation of connectivity, task activation, and brain-behavior associations. <<<
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