Abstract

The overall aim of this continuing project is to investigate the neural basis of cognitive control. In the first 4 years of the project, we have conducted several dozen experiments that have focused on the neural basis of attentional control using functional magnetic resonance imaging (fMRI) and suitably designed cognitive paradigms. We now propose experiments to extend this work into the domain of task switching. The extension is a natural one in that the control of attention shifts can be viewed as a special case of task switching. We conceptualize a task as a combination of (a) one or more relevant or attended sensory inputs (e.g., digits at different locations on a computer screen), (b) the cognitive operation(s) that must be performed on the inputs (e.g., decide if the digit is even or odd), (c) the rule that maps the outcome of the cognitive operation to a specific behavioral response (e.g., 'if even, move left; if odd, move right'), and (d) the motor response set (e.g., eye movements or manual button presses). Task switching is the deliberate replacement of one or more of these task components with another. The experiments we have conducted so far have provided insights about the neural mechanisms of attention switches (i.e., switching inputs) in isolation, and have permitted us to optimize our cognitive paradigms for fMRI. The proposed experiments extend these studies to the other task components (operations, mapping rules, and response sets) and to combinations of components.
The specific aims of the project are (1) to investigate the neural circuits that are involved in controlling input, operation, mapping, and response set switches alone and in combination; (2) to investigate the control of switching to and from tasks that are automatic vs. controlled; (3) to investigate the role of between-task crosstalk and cue switches vs. task switches and (4) to correlate behavioral measures of task switching with cortical signatures of task switching. The proposed project will advance our understanding of the neural basis of cognitive control during task switching, and this in turn will contribute to our understanding of impairments of cognitive control caused by brain damage or drug abuse. ? ?

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute on Drug Abuse (NIDA)
Type
Research Project (R01)
Project #
2R01DA013165-06
Application #
6874692
Study Section
Cognition and Perception Study Section (CP)
Program Officer
Grant, Steven J
Project Start
2000-08-01
Project End
2010-06-30
Budget Start
2005-07-01
Budget End
2006-06-30
Support Year
6
Fiscal Year
2005
Total Cost
$522,179
Indirect Cost

  Institution

Name
Johns Hopkins University
Department
Psychology
Type
Schools of Arts and Sciences
DUNS #
001910777
City
Baltimore
State
MD
Country
United States
Zip Code
21218

  Publications

Sali, Anthony W; Anderson, Brian A; Courtney, Susan M (2018) Information processing biases in the brain: Implications for decision-making and self-governance. Neuroethics 11:259-271
Gmeindl, Leon; Jefferies, Lisa N; Yantis, Steven (2018) Attention scaling modulates the effective capacity of visual sensory memory. Psychol Res :
Anderson, Brian A (2017) Counterintuitive effects of negative social feedback on attention. Cogn Emot 31:590-597
Xu, Kitty Z; Anderson, Brian A; Emeric, Erik E et al. (2017) Neural Basis of Cognitive Control over Movement Inhibition: Human fMRI and Primate Electrophysiology Evidence. Neuron 96:1447-1458.e6
Anderson, Brian A; Kuwabara, Hiroto; Wong, Dean F et al. (2017) Linking dopaminergic reward signals to the development of attentional bias: A positron emission tomographic study. Neuroimage 157:27-33
Anderson, Brian A; Chiu, Michelle; DiBartolo, Michelle M et al. (2017) On t?he distinction between value-driven attention and selection history: Evidence from individuals with depressive symptoms. Psychon Bull Rev 24:1636-1642
Anderson, Brian A; Halpern, Madeline (2017) On the value-dependence of value-driven attentional capture. Atten Percept Psychophys 79:1001-1011
Gmeindl, Leon; Chiu, Yu-Chin; Esterman, Michael S et al. (2016) Tracking the will to attend: Cortical activity indexes self-generated, voluntary shifts of attention. Atten Percept Psychophys 78:2176-84
Sali, Anthony W; Courtney, Susan M; Yantis, Steven (2016) Spontaneous Fluctuations in the Flexible Control of Covert Attention. J Neurosci 36:445-54
Figley, Chase R; Asem, Judith S A; Levenbaum, Erica L et al. (2016) Effects of Body Mass Index and Body Fat Percent on Default Mode, Executive Control, and Salience Network Structure and Function. Front Neurosci 10:234

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