Abstract
Since the earliest attempts to characterize the “receptive fields” of neurons, a central aim of many neuroscience experiments is to elucidate the information that is represented in various regions of the brain. Recent studies suggest that, in the service of memory, information is represented in the medial temporal lobe in a conjunctive or associative form with the contextual aspects of the experience being the primary factor or highest level of the conjunctive hierarchy. A critical question is whether the information that has been observed in these studies reflects notions such as a cognitive representation of context or whether the information reflects the low-level sensory differences between stimuli. We performed two functional magnetic resonance imaging experiments to address this question and we found that associative representations observed between context and item (and order) in the human brain can be highly influenced by low-level sensory differences between stimuli. Our results place clear constraints on the experimental design of studies that aim to investigate the representation of contexts and items during performance of associative memory tasks. Moreover, our results raise interesting theoretical questions regarding the disambiguation of memory-related representations from processing-related representations.
Highlights
Following the discovery that removal of structures within the human medial temporal lobe (MTL) causes amnesia (Scoville and Milner, 1957), decades of research have focused on elucidating the contributions of subregions of the MTL to declarative memory
We developed two human versions of the context-guided object association task for functional magnetic resonance imaging to investigate the representation of context, items, order, and their conjunctions within subregions of the MTL, including the hippocampus, parahippocampal cortex (PHC), and perirhinal cortex (PRC)
Participants were repeatedly tested on each event-location association, during which they continued to exhibit above-chance performance
Summary
Following the discovery that removal of structures within the human medial temporal lobe (MTL) causes amnesia (Scoville and Milner, 1957), decades of research have focused on elucidating the contributions of subregions of the MTL to declarative memory. Recent studies used electrophysiology and representational similarity analysis to investigate patterns of activity across ensembles of cells in the hippocampus (McKenzie et al, 2014) and in MTL cortical regions (Keene et al, 2016) The results of these studies have suggested that subregions of the MTL—including the hippocampus—carry conjunctive representations of the features that comprise an event, including context, item, position, and valence. Their results suggest that context plays a dominant, organizing role for representations in the MTL, sitting at the highest level of a hierarchy of information (for review see: McKenzie et al, 2015)
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