Cross-task specificity and within-task invariance of cognitive control processes

Yuchen Xiao; Chien Chen Chou; Garth Rees Cosgrove; Nathan E. Crone; Scellig Stone; Joseph R. Madsen; Ian Reucroft; Yen Cheng Shih; Daniel Weisholtz; Hsiang Yu Yu; William S. Anderson; Gabriel Kreiman

doi:10.1016/j.celrep.2022.111919

Cross-task specificity and within-task invariance of cognitive control processes

Yuchen Xiao, Chien Chen Chou, Garth Rees Cosgrove, Nathan E. Crone, Scellig Stone, Joseph R. Madsen, Ian Reucroft, Yen Cheng Shih, Daniel Weisholtz, Hsiang Yu Yu, William S. Anderson, Gabriel Kreiman

School of Medicine

Research output: Contribution to journal › Article › peer-review

Abstract

Cognitive control involves flexibly combining multiple sensory inputs with task-dependent goals during decision making. Several tasks involving conflicting sensory inputs and motor outputs have been proposed to examine cognitive control, including the Stroop, Flanker, and multi-source interference task. Because these tasks have been studied independently, it remains unclear whether the neural signatures of cognitive control reflect abstract control mechanisms or specific combinations of sensory and behavioral aspects of each task. To address these questions, we record invasive neurophysiological signals from 16 patients with pharmacologically intractable epilepsy and compare neural responses within and between tasks. Neural signals differ between incongruent and congruent conditions, showing strong modulation by conflicting task demands. These neural signals are mostly specific to each task, generalizing within a task but not across tasks. These results highlight the complex interplay between sensory inputs, motor outputs, and task demands underlying cognitive control processes.

Original language	English (US)
Article number	111919
Journal	Cell Reports
Volume	42
Issue number	1
DOIs	https://doi.org/10.1016/j.celrep.2022.111919
State	Published - Jan 31 2023

Keywords

CP: Neuroscience
cognitive control
conflict monitoring
decision making
frontal cortex
human neurophysiology
task invariance

ASJC Scopus subject areas

General Biochemistry, Genetics and Molecular Biology

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10.1016/j.celrep.2022.111919

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title = "Cross-task specificity and within-task invariance of cognitive control processes",

abstract = "Cognitive control involves flexibly combining multiple sensory inputs with task-dependent goals during decision making. Several tasks involving conflicting sensory inputs and motor outputs have been proposed to examine cognitive control, including the Stroop, Flanker, and multi-source interference task. Because these tasks have been studied independently, it remains unclear whether the neural signatures of cognitive control reflect abstract control mechanisms or specific combinations of sensory and behavioral aspects of each task. To address these questions, we record invasive neurophysiological signals from 16 patients with pharmacologically intractable epilepsy and compare neural responses within and between tasks. Neural signals differ between incongruent and congruent conditions, showing strong modulation by conflicting task demands. These neural signals are mostly specific to each task, generalizing within a task but not across tasks. These results highlight the complex interplay between sensory inputs, motor outputs, and task demands underlying cognitive control processes.",

keywords = "CP: Neuroscience, cognitive control, conflict monitoring, decision making, frontal cortex, human neurophysiology, task invariance",

author = "Yuchen Xiao and Chou, {Chien Chen} and Cosgrove, {Garth Rees} and Crone, {Nathan E.} and Scellig Stone and Madsen, {Joseph R.} and Ian Reucroft and Shih, {Yen Cheng} and Daniel Weisholtz and Yu, {Hsiang Yu} and Anderson, {William S.} and Gabriel Kreiman",

note = "Funding Information: This work was supported by NIH grant R01EY026025 and by the Center for Brains, Minds and Machines, funded by NSF Science and Technology Center Award CCF-1231216 . Publisher Copyright: {\textcopyright} 2022 The Authors",

year = "2023",

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doi = "10.1016/j.celrep.2022.111919",

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AU - Xiao, Yuchen

AU - Chou, Chien Chen

AU - Cosgrove, Garth Rees

AU - Crone, Nathan E.

AU - Stone, Scellig

AU - Madsen, Joseph R.

AU - Reucroft, Ian

AU - Shih, Yen Cheng

AU - Weisholtz, Daniel

AU - Yu, Hsiang Yu

AU - Anderson, William S.

AU - Kreiman, Gabriel

N1 - Funding Information: This work was supported by NIH grant R01EY026025 and by the Center for Brains, Minds and Machines, funded by NSF Science and Technology Center Award CCF-1231216 . Publisher Copyright: © 2022 The Authors

PY - 2023/1/31

Y1 - 2023/1/31

N2 - Cognitive control involves flexibly combining multiple sensory inputs with task-dependent goals during decision making. Several tasks involving conflicting sensory inputs and motor outputs have been proposed to examine cognitive control, including the Stroop, Flanker, and multi-source interference task. Because these tasks have been studied independently, it remains unclear whether the neural signatures of cognitive control reflect abstract control mechanisms or specific combinations of sensory and behavioral aspects of each task. To address these questions, we record invasive neurophysiological signals from 16 patients with pharmacologically intractable epilepsy and compare neural responses within and between tasks. Neural signals differ between incongruent and congruent conditions, showing strong modulation by conflicting task demands. These neural signals are mostly specific to each task, generalizing within a task but not across tasks. These results highlight the complex interplay between sensory inputs, motor outputs, and task demands underlying cognitive control processes.

AB - Cognitive control involves flexibly combining multiple sensory inputs with task-dependent goals during decision making. Several tasks involving conflicting sensory inputs and motor outputs have been proposed to examine cognitive control, including the Stroop, Flanker, and multi-source interference task. Because these tasks have been studied independently, it remains unclear whether the neural signatures of cognitive control reflect abstract control mechanisms or specific combinations of sensory and behavioral aspects of each task. To address these questions, we record invasive neurophysiological signals from 16 patients with pharmacologically intractable epilepsy and compare neural responses within and between tasks. Neural signals differ between incongruent and congruent conditions, showing strong modulation by conflicting task demands. These neural signals are mostly specific to each task, generalizing within a task but not across tasks. These results highlight the complex interplay between sensory inputs, motor outputs, and task demands underlying cognitive control processes.

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KW - human neurophysiology

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Cross-task specificity and within-task invariance of cognitive control processes

Abstract

Keywords

ASJC Scopus subject areas

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