A computational analysis of flanker interference in depression

D. G. Dillon; T. Wiecki; P. Pechtel; C. Webb; F. Goer; L. Murray; M. Trivedi; M. Fava; P. J. McGrath; M. Weissman; R. Parsey; B. Kurian; P. Adams; T. Carmody; S. Weyandt; K. Shores-Wilson; M. Toups; M. McInnis; M. A. Oquendo; C. Cusin; P. Deldin; G. Bruder; D. A. Pizzagalli

doi:10.1017/S0033291715000276

A computational analysis of flanker interference in depression

D. G. Dillon, T. Wiecki, P. Pechtel, C. Webb, F. Goer, L. Murray, M. Trivedi, M. Fava, P. J. McGrath, M. Weissman, R. Parsey, B. Kurian, P. Adams, T. Carmody, S. Weyandt, K. Shores-Wilson, M. Toups, M. McInnis, M. A. Oquendo, C. CusinP. Deldin, G. Bruder, D. A. Pizzagalli

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

46 Scopus citations

Abstract

Background Depression is characterized by poor executive function, but - counterintuitively - in some studies, it has been associated with highly accurate performance on certain cognitively demanding tasks. The psychological mechanisms responsible for this paradoxical finding are unclear. To address this issue, we applied a drift diffusion model (DDM) to flanker task data from depressed and healthy adults participating in the multi-site Establishing Moderators and Biosignatures of Antidepressant Response for Clinical Care for Depression (EMBARC) study. Method One hundred unmedicated, depressed adults and 40 healthy controls completed a flanker task. We investigated the effect of flanker interference on accuracy and response time, and used the DDM to examine group differences in three cognitive processes: prepotent response bias (tendency to respond to the distracting flankers), response inhibition (necessary to resist prepotency), and executive control (required for execution of correct response on incongruent trials). Results Consistent with prior reports, depressed participants responded more slowly and accurately than controls on incongruent trials. The DDM indicated that although executive control was sluggish in depressed participants, this was more than offset by decreased prepotent response bias. Among the depressed participants, anhedonia was negatively correlated with a parameter indexing the speed of executive control (r = -0.28, p = 0.007). Conclusions Executive control was delayed in depression but this was counterbalanced by reduced prepotent response bias, demonstrating how participants with executive function deficits can nevertheless perform accurately in a cognitive control task. Drawing on data from neural network simulations, we speculate that these results may reflect tonically reduced striatal dopamine in depression.

Original language	English (US)
Pages (from-to)	2333-2344
Number of pages	12
Journal	Psychological Medicine
Volume	45
Issue number	11
DOIs	https://doi.org/10.1017/S0033291715000276
State	Published - May 4 2015

Keywords

Cognitive control
computational modelling
depression
executive function
flanker

ASJC Scopus subject areas

Applied Psychology
Psychiatry and Mental health

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10.1017/S0033291715000276

Cite this

Dillon, D. G., Wiecki, T., Pechtel, P., Webb, C., Goer, F., Murray, L., Trivedi, M., Fava, M., McGrath, P. J., Weissman, M., Parsey, R., Kurian, B., Adams, P., Carmody, T., Weyandt, S., Shores-Wilson, K., Toups, M., McInnis, M., Oquendo, M. A., ... Pizzagalli, D. A. (2015). A computational analysis of flanker interference in depression. Psychological Medicine, 45(11), 2333-2344. https://doi.org/10.1017/S0033291715000276

Dillon, DG, Wiecki, T, Pechtel, P, Webb, C, Goer, F, Murray, L, Trivedi, M, Fava, M, McGrath, PJ, Weissman, M, Parsey, R, Kurian, B, Adams, P, Carmody, T, Weyandt, S, Shores-Wilson, K, Toups, M, McInnis, M, Oquendo, MA, Cusin, C, Deldin, P, Bruder, G & Pizzagalli, DA 2015, 'A computational analysis of flanker interference in depression', Psychological Medicine, vol. 45, no. 11, pp. 2333-2344. https://doi.org/10.1017/S0033291715000276

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abstract = "Background Depression is characterized by poor executive function, but - counterintuitively - in some studies, it has been associated with highly accurate performance on certain cognitively demanding tasks. The psychological mechanisms responsible for this paradoxical finding are unclear. To address this issue, we applied a drift diffusion model (DDM) to flanker task data from depressed and healthy adults participating in the multi-site Establishing Moderators and Biosignatures of Antidepressant Response for Clinical Care for Depression (EMBARC) study. Method One hundred unmedicated, depressed adults and 40 healthy controls completed a flanker task. We investigated the effect of flanker interference on accuracy and response time, and used the DDM to examine group differences in three cognitive processes: prepotent response bias (tendency to respond to the distracting flankers), response inhibition (necessary to resist prepotency), and executive control (required for execution of correct response on incongruent trials). Results Consistent with prior reports, depressed participants responded more slowly and accurately than controls on incongruent trials. The DDM indicated that although executive control was sluggish in depressed participants, this was more than offset by decreased prepotent response bias. Among the depressed participants, anhedonia was negatively correlated with a parameter indexing the speed of executive control (r = -0.28, p = 0.007). Conclusions Executive control was delayed in depression but this was counterbalanced by reduced prepotent response bias, demonstrating how participants with executive function deficits can nevertheless perform accurately in a cognitive control task. Drawing on data from neural network simulations, we speculate that these results may reflect tonically reduced striatal dopamine in depression.",

keywords = "Cognitive control, computational modelling, depression, executive function, flanker",

author = "Dillon, {D. G.} and T. Wiecki and P. Pechtel and C. Webb and F. Goer and L. Murray and M. Trivedi and M. Fava and McGrath, {P. J.} and M. Weissman and R. Parsey and B. Kurian and P. Adams and T. Carmody and S. Weyandt and K. Shores-Wilson and M. Toups and M. McInnis and Oquendo, {M. A.} and C. Cusin and P. Deldin and G. Bruder and Pizzagalli, {D. A.}",

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doi = "10.1017/S0033291715000276",

language = "English (US)",

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AU - Dillon, D. G.

AU - Wiecki, T.

AU - Pechtel, P.

AU - Webb, C.

AU - Goer, F.

AU - Murray, L.

AU - Trivedi, M.

AU - Fava, M.

AU - McGrath, P. J.

AU - Weissman, M.

AU - Parsey, R.

AU - Kurian, B.

AU - Adams, P.

AU - Carmody, T.

AU - Weyandt, S.

AU - Shores-Wilson, K.

AU - Toups, M.

AU - McInnis, M.

AU - Oquendo, M. A.

AU - Cusin, C.

AU - Deldin, P.

AU - Bruder, G.

AU - Pizzagalli, D. A.

PY - 2015/5/4

Y1 - 2015/5/4

N2 - Background Depression is characterized by poor executive function, but - counterintuitively - in some studies, it has been associated with highly accurate performance on certain cognitively demanding tasks. The psychological mechanisms responsible for this paradoxical finding are unclear. To address this issue, we applied a drift diffusion model (DDM) to flanker task data from depressed and healthy adults participating in the multi-site Establishing Moderators and Biosignatures of Antidepressant Response for Clinical Care for Depression (EMBARC) study. Method One hundred unmedicated, depressed adults and 40 healthy controls completed a flanker task. We investigated the effect of flanker interference on accuracy and response time, and used the DDM to examine group differences in three cognitive processes: prepotent response bias (tendency to respond to the distracting flankers), response inhibition (necessary to resist prepotency), and executive control (required for execution of correct response on incongruent trials). Results Consistent with prior reports, depressed participants responded more slowly and accurately than controls on incongruent trials. The DDM indicated that although executive control was sluggish in depressed participants, this was more than offset by decreased prepotent response bias. Among the depressed participants, anhedonia was negatively correlated with a parameter indexing the speed of executive control (r = -0.28, p = 0.007). Conclusions Executive control was delayed in depression but this was counterbalanced by reduced prepotent response bias, demonstrating how participants with executive function deficits can nevertheless perform accurately in a cognitive control task. Drawing on data from neural network simulations, we speculate that these results may reflect tonically reduced striatal dopamine in depression.

AB - Background Depression is characterized by poor executive function, but - counterintuitively - in some studies, it has been associated with highly accurate performance on certain cognitively demanding tasks. The psychological mechanisms responsible for this paradoxical finding are unclear. To address this issue, we applied a drift diffusion model (DDM) to flanker task data from depressed and healthy adults participating in the multi-site Establishing Moderators and Biosignatures of Antidepressant Response for Clinical Care for Depression (EMBARC) study. Method One hundred unmedicated, depressed adults and 40 healthy controls completed a flanker task. We investigated the effect of flanker interference on accuracy and response time, and used the DDM to examine group differences in three cognitive processes: prepotent response bias (tendency to respond to the distracting flankers), response inhibition (necessary to resist prepotency), and executive control (required for execution of correct response on incongruent trials). Results Consistent with prior reports, depressed participants responded more slowly and accurately than controls on incongruent trials. The DDM indicated that although executive control was sluggish in depressed participants, this was more than offset by decreased prepotent response bias. Among the depressed participants, anhedonia was negatively correlated with a parameter indexing the speed of executive control (r = -0.28, p = 0.007). Conclusions Executive control was delayed in depression but this was counterbalanced by reduced prepotent response bias, demonstrating how participants with executive function deficits can nevertheless perform accurately in a cognitive control task. Drawing on data from neural network simulations, we speculate that these results may reflect tonically reduced striatal dopamine in depression.

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A computational analysis of flanker interference in depression

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