A Comparison of Rapid Rule-Learning Strategies in Humans and Monkeys

Overview

Journal J Neurosci

Specialty Neurology

Date 2024 Jun 13

PMID 38871463

Authors

Vishwa Goudar

Jeong-Woo Kim

Yue Liu

Adam J O Dede

Michael J Jutras

Ivan Skelin

Michael Ruvalcaba

William Chang

Bhargavi Ram

Adrienne L Fairhall

Jack J Lin

Robert T Knight

Elizabeth A Buffalo

Xiao-Jing Wang

Affiliations

Soon will be listed here.

Abstract

Interspecies comparisons are key to deriving an understanding of the behavioral and neural correlates of human cognition from animal models. We perform a detailed comparison of the strategies of female macaque monkeys to male and female humans on a variant of the Wisconsin Card Sorting Test (WCST), a widely studied and applied task that provides a multiattribute measure of cognitive function and depends on the frontal lobe. WCST performance requires the inference of a rule change given ambiguous feedback. We found that well-trained monkeys infer new rules three times more slowly than minimally instructed humans. Input-dependent hidden Markov model-generalized linear models were fit to their choices, revealing hidden states akin to feature-based attention in both species. Decision processes resembled a win-stay, lose-shift strategy with interspecies similarities as well as key differences. Monkeys and humans both test multiple rule hypotheses over a series of rule-search trials and perform inference-like computations to exclude candidate choice options. We quantitatively show that perseveration, random exploration, and poor sensitivity to negative feedback account for the slower task-switching performance in monkeys.

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