strategic processing
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Abstract Value-directed strategic processing involves selectively attending to and processing information deemed more important while ignoring or inhibiting less important information. What we selectively attend to can be driven by the value we ascribe to the information, often based on stimulus factors such as perceptual features that make the information stand out, or conceptual features that make it easy to group information. The current study investigated whether behavioral measures of value-directed strategic processing are differentially affected when value is defined by perceptual versus conceptual features, and how normal cognitive aging impacts processing. Cognitively normal younger (N = 16; mean age: 22.1 ± 2.9 years) and older adults (N = 16; mean age: 66.9 ± 7.3 years) completed two value-directed strategic processing tasks, where value was defined by either perceptual (i.e., uppercase and lowercase letters; Letter Case task) or conceptual (i.e., animals and household items; Categories task) features. Both groups had higher recall on the Categories task compared to the Letter Case task, and higher recall for high- than low-value words. However, older adults recalled fewer total words than younger adults, but the groups did not differ across task types. These findings indicate that manipulating perceptual and/or conceptual features to define value can be used to study value-directed strategic processing in younger and older adults. Furthermore, grouping information based on conceptual features may be more effective for promoting subsequent recall in both younger and older adults.

When encountering social scenes, there appears to be rapid and automatic detection of social interactions. Representations of interacting people appear to be bound together via a mechanism of joint attention, which results in enhanced memory, even when participants are unaware that memory is required. However, even though access is facilitated for socially bound representations, we predicted that the individual features of these representations are less efficiently encoded, and features can therefore migrate between the constituent interacting individuals. This was confirmed in Experiment 1, where overall memory for interacting compared to non-interacting dyads was facilitated but binding of features within an individual was weak, resulting in feature migration errors. Experiment 2 demonstrated the role of conscious strategic processing, where participants were aware that memory would be tested. With such awareness, attention can be focused on individual objects allowing the binding of features. The results support an account of two forms of processing: An initial automatic social binding process where interacting individuals are represented as one episode in memory facilitating access; and a further stage where attention can be focused on each individual enabling the binding of features within individual objects.

Abstract Value-directed strategic processing is important for daily functioning. It allows selective processing of important information and inhibition of irrelevant information. This ability is relatively preserved in normal cognitive aging, but it is unclear if mild cognitive impairment (MCI) affects strategic processing and its underlying neurophysiological mechanisms. The current study examined behavioral and EEG spectral power differences between 16 cognitively normal older adults (CNOA; mean age: 74.5 ± 4.0 years) and 16 individuals with MCI (mean age: 77.1 ± 4.3 years) linked to a value-directed strategic processing task. The task used five unique word lists where words were assigned high- or low-value based on letter case and were presented sequentially while EEG was recorded. Participants were instructed to recall as many words as possible after each list to maximize their score. Results revealed no group differences in recall of low-value words, but individuals with MCI recalled significantly fewer high-value words and total number of words relative to CNOA. Group differences were observed in theta and alpha bands for low-value words, with greater synchronized theta power for CNOA than MCI and greater desynchronized alpha power for MCI than CNOA. Collectively, these findings demonstrate that more effortful neural processing of low-value words in the MCI group, relative to the CNOA group, allowed them to match their behavioral performance to the CNOA group. Individuals with MCI appear to utilize more cognitive resources to inhibit low-value information and might show memory-related benefits if taught strategies to focus on high-value information processing.

This chapter reviews evidence from behavioural and cognitive neuroscience research that supports a unitary view of memory whereby working memory and long-term memory phenomena arise from representations and processes that are largely shared when remembering over the short or long term. Using ‘false working memories’ as a case study, it highlights several paradoxes that cannot be explained by a multisystem view of memory in which working memory and long-term memory are structurally distinct. Instead, it is posited that behavioural memory effects over the short and long term relating to semantic processing, modality/domain-specificity, dual-task interference, strategic processing, and so on arise from the differences in activational states and availability of different representational features (e.g. sensory/perceptual, associative, action-based) that vary in their time courses and activity, attentional priority, and susceptibility to interference. Cognitive neuroscience evidence primarily from brain imaging methodologies that support this view is reviewed.