Abstract
Attentional set-shifting ability is an executive function underling cognitive flexibility in humans and animals. In humans, this function is typically observed during a single experimental session where dimensions of playing cards are used to measure flexibility in the face of changing rules for reinforcement (i.e., the Wisconsin Card Sorting Test (WCST)). In laboratory animals, particularly non-human primates, variants of the WCST involve extensive training and testing on a series of dimensional discriminations, usually in social isolation. In the present study, a novel experimental approach was used to assess attentional set-shifting simultaneously in 12 rhesus monkeys. Specifically, monkeys living in individual cages but in the same room were trained at the same time each day in a set-shifting task in the same housing environment. As opposed to the previous studies, each daily session began with a simple single-dimension discrimination regardless of the animal’s performance on the previous session. A total of eight increasingly difficult, discriminations (sets) were possible in each daily 45 min session. Correct responses were reinforced under a second-order schedule of flavored food pellet delivery, and criteria for completing a set was 12 correct trials out of a running total of 15 trials. Monkeys progressed through the sets at their own pace and abilities. The results demonstrate that all 12 monkeys acquired the simple discrimination (the first set), but individual differences in the ability to progress through all eight sets were apparent. A performance index (PI) that encompassed progression through the sets, errors and session duration was calculated and used to rank each monkey’s performance in relation to each other. Overall, this version of a set-shifting task results in an efficient assessment of reliable differences in cognitive flexibility in a group of monkeys.
Highlights
Cognitive flexibility is one of the essential executive functions underlying associative behaviors (Dajani and Uddin, 2015; Friedman and Miyake, 2017)
An important property of the procedure designed in this study was that monkeys initiated each trial during every session by touching a photograph displayed on the screen
In this study we developed a unique set-shifting procedure for efficient and individualized assessment of cognitive flexibility in a group of rhesus monkeys
Summary
Cognitive flexibility is one of the essential executive functions underlying associative behaviors (Dajani and Uddin, 2015; Friedman and Miyake, 2017). Cognitive flexibility was measured in humans and animals using variants of the Wisconsin Card Sorting Test (WCST; for review see Brown and Tait, 2016). The WCST requires participants to sort cards based on dimensional qualities. A commonly used variant of the WCST is the Cambridge Neuropsychological Automated Test Battery (CANTAB) that requires a participant to repeatedly perform a discrimination of a set of stimuli, either of two simple stimuli (e.g., two lines) or two compound stimuli (e.g., shape/line combination). Only one of the dimensions is the basis of the discrimination (e.g., the line of a line/shape combination). An intradimensional discrimination (ID) shift in a set occurs when new exemplars (e.g., new lines/shapes) are presented but the same dimension (line) remains the basis of the discrimination (Dias et al, 1996b). Following the acquisition of discrimination set, the relevant stimuli might be reversed such that previously incorrect choice stimulus of the set becomes the correct choice
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