The spatial and temporal dynamics of anticipatory preparation and response inhibition in task-switching

NeuroImage

Volumn 51, Issue 1, 2010, Pages 432-449

  Jamadar, S ^a,b,c   Hughes, M ^a,b,c   Fulham, W R ^a,b,c   Michie, P T ^a,b,c   Karayanidis, F ^a,b,c  

^a UNIVERSITY OF NEWCASTLE   (Australia)

^b UNIVERSITY OF NEWCASTLE   (Australia)

^c SCHIZOPHRENIA RESEARCH INSTITUTE   (Australia)

Author keywords

[No Author keywords available]

Indexed keywords

ADULT; ANTICIPATION; ARTICLE; ASSOCIATION; BASAL GANGLION; CONTROLLED STUDY; ELECTROENCEPHALOGRAPHY; EVENT RELATED POTENTIAL; EVOKED CORTICAL RESPONSE; FEMALE; FRONTAL CORTEX; FUNCTIONAL MAGNETIC RESONANCE IMAGING; HUMAN; HUMAN EXPERIMENT; IMAGE ANALYSIS; IMAGE PROCESSING; MALE; MENTAL FUNCTION; MOTOR CORTEX; NORMAL HUMAN; PARIETAL LOBE; PREFRONTAL CORTEX; PRIORITY JOURNAL; REACTION TIME; STIMULUS RESPONSE; TASK PERFORMANCE;

ADULT; BASAL GANGLIA; BRAIN MAPPING; CUES; ELECTROENCEPHALOGRAPHY; EVOKED POTENTIALS; EXECUTIVE FUNCTION; FEMALE; FRONTAL LOBE; GOALS; HUMANS; INHIBITION (PSYCHOLOGY); MAGNETIC RESONANCE IMAGING; MALE; MOTOR ACTIVITY; NEUROPSYCHOLOGICAL TESTS; PREFRONTAL CORTEX; PSYCHOMOTOR PERFORMANCE; TIME FACTORS;

EID: 77950524647     PISSN: 10538119     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.neuroimage.2010.01.090     Document Type: Article

References (116)

1. Ahsan R.L., Allom R., Gousias I.S., Habib H., Turkheimer F.E., Free S., Lemieux L., Myers R., Duncan J.S., Brooks D.J., Koepp M.J., Hammers A. Volumes, spatial extents and a probabilistic atlas of the human basal ganglia and thalamus. NeuroImage 2007, 38:261-270.
2. Alexander G.E., Crutcher M.D. Functional architecture of basal ganglia circuits: neural substrates of parallel processing. Trends Neurosci. 1990, 13:266-271.
3. Allport D.A., Wylie G. Task-switching, stimulus response bindings, and negative priming. Attention and Performance XVIII 2000, 35-70. MIT Press, Cambridge, MA. S. Monsell, J. Driver (Eds.).
4. Allport A., Styles E.A., Hsieh S. Shifting intentional set: exploring the dynamic control of tasks. Attention and Performance XV 1994, 421-452. MIT Press, Cambridge, MA. C. Umilta, M. Moscovitvh (Eds.).
5. Andersen R.A. The role of the inferior parietal lobule in spatial perception and visual-motor integration. The Handbook of Physiology. Section I: The Nervous System Volume V. Higher Functions of the Brain Part 1987, 2:483-518. American Physiological Society, Bethesda, MD. F. Plum, V.B. Mountcastle;, S.R. Geiger (Eds.).
6. Andersen R.A., Buneo C.A. Intentional maps in posterior parietal cortex. Annu. Rev. Neurosci. 2002, 25:189-220.
7. Andersson J.L.R., Hutton C., Ashburner J., Turner R., Friston K. Modeling geometric deformations in EPI time series. NeuroImage 2001, 13:903-919.
8. Aron A.R. Neural basis of inhibition in cognitive control. Neuroscientist 2007, 13:214-228.
9. Aron A.R., Poldrack R.A. Cortical and subcortical contributions to stop signal response inhibition: role of the subthalamic nucleus. J. Neurosci. 2006, 26:2424-2433.
10. Aron A.R., Robbins T.W., Poldrack R.A. Inhibition and the right inferior frontal cortex. Trends Cogn. Sci. 2004, 8:170-177.
11. Aron A., Fletcher P., Bullmore E., Sahakian B., Robbins T. Stop-signal inhibition disrupted by damage to right inferior frontal gyrus in humans. Nat. Neurosci. 2003, 6:115-116.
12. Aron A.R., Behrens T.E., Smith S., Frank M.J., Poldrack R.A. Triangulating a cognitive control network using diffusion-weighted magnetic resonance imaging (MRI) and functional MRI. J. Neurosci. 2007, 27:3743-3752.
13. Astle D.E., Jackson G.M., Swainson R. Dissociating neural indices of dynamic cognitive control in advance task-set preparation: an ERP study of task switching. Brain Res. 2006, 1125:94-103.
14. Astle D.E., Jackson G.M., Swainson R. Fractionating the cognitive control required to bring about a change in task: a dense-sensor event-related potential study. J. Cogn. Neurosci. 2008, 20:1-13.
15. Barber A.D., Carter C.S. Cognitive control involved in overcoming prepotent response tendencies and switching between tasks. Cereb. Cortex 2005, 157:899-912.
16. Bast T. Toward an integrative perspective on hippocampal function: from the rapid encoding of experience to adaptive behavior. Rev. Neurosci. 2007, 18:253-281.
17. Behrmann M., Geng J.J., Shomstein S. Parietal cortex and attention. Curr. Opin. Neurobiol. 2004, 14:212-217.
18. Blasi G., Goldberg T.E., Weickert T., Das S., Kohn P., Zoltick B., et al. Brain regions underlying response inhibition and interference monitoring and suppression. Eur. J. Neurosci. 2006, 23:1658-1664.
19. Botvinick M.M., Cohen J.D., Carter C.S. Conflict monitoring and anterior cingulate cortex: an update. Trends Cogn. Sci. 2004, 8:539-546.
20. Brass M., von Cramon D.Y. Decomposing components of task preparation with functional magnetic resonance imaging. J. Cogn. Neurosci. 2004, 16(4):609-620.
21. Brass M., Ruge H., Meiran N., Rubin O., Koch I., Zysset S., Prinz W., von Cramon D.Y. When the same response has different meanings: recoding the response meaning in the lateral prefrontal cortex. NeuroImage 2003, 20:1026-1031.
22. Brass M., Ullsperger M., Knoesche T.R., D.Yves von Cramon D.Y., Phillips N.A. Who comes first? The role of the prefrontal and parietal cortex in cognitive control. J. Cogn. Neurosci. 2005, 17:1367-1375.
23. Braver T.S., Reynolds J.R., Donaldson D.I. Neural mechanisms of transient and sustained cognitive control during task switching. Neuron 2003, 39:713-726.
24. Brett, M., Anton, J.-L., Valabregue, R. and Poline, J.-B., (2002). Region of interest analysis using the MarsBar toolbox for SPM99. Presented at the 8th International Conference on Functional Mapping of the Human Brain, June 2-6, 2002, Sendai, Japan.
25. Bunge S.A., Hazeltine E., Scanlon M.D., Rosen A.C., Gabrieli J.D.E. Dissociable contributions of prefrontal and parietal cortices to response selection. NeuroImage 2002, 17:1562-1571.
26. Cavanna A.E., Trimble M.R. The precuneus: a review of its functional anatomy and behavioural correlates. Brain 2006, 129:564-583.
27. Chambers C.D., Bellgrove M.A., Stokes M.G., Henderson T.R., Garavan H., Robertson I.H., Morris A.P., Mattingley J.B. Executive "brake failure" following deactivation of human frontal lobe. J. Cogn. Neurosci. 2006, 18:444-455. doi:10.1162/089892906775990606.
28. Chao H.H.A., Luo X., Chang J.L.K., Li C.-S.R. Activation of the pre-supplementary motor area but not inferior prefrontal cortex in association with short stop-signal reaction time-an intra-subjects analysis. BMC Neurosci. 2009, 10:75-85.
29. Corbetta M., Shulman G.L. Control of goal-directed and stimulus-driven attention in the brain. Nat. Rev. Neurosci. 2002, 3:201-215.
30. Dale A.M., Halgren E. Spatiotemporal mapping of brain activity by integration of multiple imaging modalities. Curr. Opin. Neurobiol. 2001, 11:202-208.
31. Damasio H. Human Brain Anatomy in Computerized Images 2005, Oxford University Press, New York.
32. De Jong R. An intention-activation account of residual switch costs. Attention and Performance XVIII 2000, 357-376. MIT Press, Cambridge, MA. S. Monsell, J. Driver (Eds.).
33. Douglas R.J. The hippocampus and behavior. Psychol. Bull. 1967, 76:416-442.
34. Egner T., Hirsch J. Cognitive control mechanisms resolve conflict through cortical amplification of task-relevant information. Nat. Neurosci. 2005, 8:1784-1790.
35. Falkenstein M., Hoormann J., Hohnsbein J. Inhibition-related ERP components: variation with modality, age, and time-on-task. J. Psychophysiol. 2002, 16:167-175.
36. Fassbender C., Foxe J.J., Garavan H. Mapping the functional anatomy of task preparation: priming task-appropriate brain networks. Hum. Brain Mapp. 2006, 27:819-827.
37. Ford J.M., Gray M., Whitfield S.L., Turken A.U., Glover W.O., Faustman W.O., et al. Acquiring and inhibiting prepotent responses in schizophrenia: event related potentials and functional magnetic resonance imaging. Arch. Gen. Psychiatry 2004, 61:119-129.
38. Forstmann B.U., Brass M., Koch I., von Cramon D.Y. Internally generated and directly cued task sets: an investigation with fMRI. Neuropsychologia 2005, 43:943-952.
39. Forstmann B.U., van den Wildenberg W.P.M., Ridderinkhof K.R. Neural mechanisms, temporal dynamics, and individual differences in interference control. J. Cogn. Neurosci. 2008, 20:1854-1865.
40. Fulham W.R. EEG Display (Version 4.10) [Computer software] 2005, Newcastle, Australia.
41. Goffaux P., Phillips N.A., Sinai M., Pushkar D. Behavioural and electrophysiological measures of task switching during single and mixed-task conditions. Biol. Psychol. 2006, 72:278-290.
42. Gore J.C., Horovitz S.G., Cannistraci C.J., Skudlarski P. Integration of fMRI, NIROT and ERP for studies of human brain function. Magn. Reson. Imaging 2006, 24:507-513.
43. Goschke T. Intentional reconfiguration and involuntary persistence in task set switching. Control of Cognitive Processes 2000, 331-355. MIT Press. S. Monsell, J. Driver (Eds.).
44. Guthrie D., Buchwald J.S. Significance testing of difference potentials. Psychophysiology 1991, 28:240-244.
45. Haruno M., Kawato M. Different neuro correlates of reward expectation and reward error in the putamen and caudate nucleus during stimulus-action-reward association learning. J Neurophysiol. 2006, 95:948-959.
46. Hester R.L., Murphy K., Foxe J.J., Foxe D.M., Javitt D.C., Garavan H. Predicting success: patterns of cortical activation and deactivation prior to response inhibition. J. Cogn. Neurosci. 2004, 16:776-785.
47. Hester R., D'Esposito M., Cole M.W., Garavan H. Neural mechanisms for response selection: comparing selection of responses and items from working memory. NeuroImage 2007, 34:446-454.
48. Hoshi E., Tanji J. Distinctions between dorsal and ventral premotor areas: anatomical connectivity and functional properties. Curr. Opin. Neurobiol. 2007, 17:234-242.
49. Jamadar S., Michie P., Karayanidis F. Sequence effects in cued task-switching modulate response preparedness and repetition priming processes. Psychophysiology 2010, 47:365-386. Published Online: Dec 7 2009 6:51PM DOI: 10.1111/j.1469-8986.2009.00932.x.
50. Jamadar, S., Michie, P.T., Karayanidis, F., in press. Compensatory mechanisms underlie intact task-switching performance in schizophrenia. Neuropsychologia, doi:10.1016/j.neuropsychologia.2009.12.034.
51. Josephs O., Turner R., Friston K.J. Event-related fMRI. Hum. Brain Mapp. 1997, 5:243-248.
52. Karayanidis F., Coltheart M., Michie P.T., Murphy K. Electrophysiological correlates of anticipatory and post-stimulus components of task-switching. Psychophysiology 2003, 40:329-348.
53. Karayanidis F., Nicholson R., Meem, L., Schall U., Fulham R., Michie P.T. Switching between univalent task-sets in schizophrenia: ERP evidence of an anticipatory task-set reconfiguration deficit. Clin. Neurophysiol. 2006, 117:2172-2190.
54. Karayanidis F., Mansfield E.L., Galloway K.L., Smith J., Provost A., Heathcote A. Anticipatory reconfiguration elicited by fully and partially informative cues that validly predict a switch in task. Cogn. Affect. Behav. Neurosci. 2009, 9:202-215.
55. Kiefer M., Marzinzik F., Weisbrod M., Scherg M., Spitzer M. The time-course of brain activations during response inhibition: evidence from event-related potentials in a go/no-go task. NeuroReport 1998, 9:765-770.
56. Kieffaber P.D., Hetrick W.P. Event-related potential correlates of task switching and switch costs. Psychophysiology 2005, 42:56-71.
57. Kirscher T.T., Brammer M.J., Levelt W., Bartels M.m., McGuire P.K. Passing for thought: engagement of left temporal cortex during pauses in speech. NeuroImage 2004, 21:84-90.
58. Koch I., Philipp A.M. Effects of response selection on the task repetition benefit in task switching. Mem. Cogn. 2005, 33:624-634.
59. Koch I., Allport A. Cue-based preparation and stimulus-based priming of tasks in task switching. Mem. Cogn. 2006, 34:433-444.
60. Koch I., Ruge H., Brass M., Rubin O., Meiran N., Prinz W. Equivalence of cognitive processes in brain imaging and behavioral studies: evidence from task switching. NeuroImage 2003, 20:572-577.
61. Lancaster J.L., Woldorff M.G., Parsons L.M., Liotti M., Freitas C.S., Rainey L., et al. Automated Talairach atlas labels for functional brain mapping. Hum. Brain Mapp. 2000, 10:120-131.
62. Lavric A., Mizon G., Monsell S. Neurophysiological signature of effective anticipatory task-set control: a task-switching investigation. Eur. J. Neurosci. 2008, 28:1016-1029.
63. Liston C., Matalon S., Hare T.A., Davidson M.C., Casey B.J. Anterior cingulate and posterior parietal cortices are sensitive to dissociable forms of conflict in a task-switching paradigm. Neuron 2006, 50:643-653.
64. Logan G.D., Bundesen C. Clever homunculus: is there an endogenous act of control in the explicit task-cuing procedure?. J. Exp. Psychol. Hum. Percept. Perform. 2003, 29:575-599.
65. Loose R., Kaufman C., Tucha O., Auer D.P., Lange K.W. Neural networks of response shifting: influence of task speed and stimulus material. Brain Res. 2006, 1090:146-155.
66. Luck S. An Introduction to the Event-Related Potential Technique 2005, MIT Press.
67. Luks T.L., Simpon G.V., Feiwell R.J., Miller W.L. Evidence for anterior cingulate cortex involvement in monitoring preparatory attentional set. NeuroImage 2002, 17:792-802.
68. Mayka M.A., Corcos D.M., Leurgans S.E., Vaillancourt D.E. Three-dimensional locations and boundaries of motor and premotor cortices as defined by functional brain imaging: a meta-analysis. NeuroImage 2006, 31:1453-1474.
69. Mazaika P., Whitfield S., Cooper J.C. Detection and repair of transient artifacts in fMRI data. NeuroImage 2005, 26-S1:S36.
70. McNaughton N. The role of the subiculum within the behavioural inhibition system. Behav. Brain Res. 2006, 174:232-250.
71. Meiran N. Reconfiguration of stimulus task sets and response task sets during task switching. Attention and Performance XVIII 2000, 377-399. MIT Press, Cambridge. S. Monsell, J. Driver (Eds.).
72. Meiran N., Chorev Z., Sapir A. Component processes in task switching. Cogn. Psychol. 2000, 41:211-253.
73. Miniussi C., Marzi C.A., Nobre A.C. Modulation of brain activity by selective task sets observed using event-related potentials. Neuropsychologia 2005, 43:1514-1528.
74. Mink J.W. The basal ganglia: focused selection and inhibition of competing motor programs. Progr. Neurobiol. 1996, 50:381-425.
75. Monsell S. Task switching. Trends Cogn. Sci. 2003, 7:134-140.
76. Mueller S.C., Swainson R., Jackson G.M. Behavioural and neurophysiological correlates of bivalent and univalent responses during task-switching. Brain Res. 2007, 1157:56-65.
77. Otten L.J., Rugg M.D. Interpreting event-related brain potentials. Event-Related Potentials 2005, 3-16. The MIT Press. T.C. Handy (Ed.).
78. Nambu A., Tokuno H., Takada M. Functional significance of the cortico-subthalamo-pallidal 'hyperdirect' pathway. Neurosci. Res. 2002, 43:111-117.
79. Nicholson R., Karayanidis F., Poboka D., Heathcote A., Michie P. Electrophysiological correlates of anticipatory task-switching processes. Psychophysiology 2005, 42:540-554.
80. Nicholson R., Karayanidis F., Bumak E., Poboka D., Michie P.T. ERPs dissociate the effects of switching task sets and task cues. Brain Res. 2006, 1095:107-123.
81. Nicholson R., Karayanidis F., Davies A., Michie P.T. Components of task-set reconfiguration: differential effects of 'switch-to' and 'switch-away' cues. Brain Res. 2006, 1121:160-176.
82. Nickel J., Seitz R.J. Functional clusters in the human parietal cortex as revealed by an observer-independent meta-analysis of functional activation studies. Anat. Embryol. 2005, 210:463-472.
83. O'Shea J., Johansen-Berg H., Trief D., Gobel S., Rushworth M.F.S. Functionally specific reorganization in human premotor cortex. Neuron 2007, 54:479-490.
84. Parent A., Hazrati L. Functional anatomy of the basal ganglia: I. The cortico-basal ganglia-thalamo-cortical loop. Brain Res. Rev. 1995, 20:91-127.
85. Parent A., Hazrati L. Functional anatomy of the basal ganglia: II. The place of subthalamic nucleus and external pallidum in basal ganglia circuitry. Brain Res. Rev. 1995, 20:128-154.
86. Paulus M.P., Feinstein J.S., Leland D., Simmons A.N. Superior temporal gyrus and insula provide response and outcome-dependent information during assessment and action selection in a decision-making situation. NeuroImage 2005, 25:607-615.
87. Perianez J.A., Maetsu F., Barcelo F., Fernandez A., Amo C., Alonso T.O. Spatiotemporal brain dynamics during preparatory set shifting: MEG evidence. Neuroimaging 2004, 21:687-695.
88. Poulsen C., Luu P., Davey C., Tucker D.M. Dynamics of task sets: evidence from dense-array event-related potentials. Cogn. Brain Res. 2005, 24:133-154.
89. Price C.J. The anatomy of language: contributions from functional neuroimaging. J. Anat. 2000, 197:335-359.
90. Ridderinkhof K.R., van den Wildenberg W.P.M., Segalowitz S.J., Carter C.S. Neurocognitive mechanisms in cognitive control: the role of prefrontal cortex in action selection, response inhibition, performance monitoring, and reward-based learning. Brain Cogn. 2004, 56:129-140.
91. Rogers R.D., Monsell S. Costs of a predictable switch between simple cognitive tasks. J. Exp. Psychol. 1995, 124:207-231.
92. Rubinstein J.S., Meyer D.E., Evans E. Executive control of cognitive processes in task switching. J. Exp. Psychol. Hum. Percept. Perform. 2001, 27:763-797.
93. Ruge H., Brass M., Koch I., Rubin O., Meiran N., von Cramon D.Y. Advance preparation and stimulus-induced interference in cued task switching: further insights from BOLD fMRI. Neuropsychologia 2005, 43:340-355.
94. Rushworth M.F.S., Passingham R.E., Nobre A.C. Components of switching intentional set. J. Cogn. Neurosci. 2002, 14:1139-1150.
95. Rushworth M.F.S., Passingham R.E., Nobre A.C. Components of attentional set-switching. Exp. Psychol. 2005, 52:83-98.
96. Salzmann E., Vidvasagar T.R., Creutzfeldt O.D. Functional comparison of neuronal properties in the primate posterior hippocampus and parahippocampus (area TF/TH) during different behavioural paradigms involving memory and selective attention. Behav. Brain Res. 1993, 53:133-149.
97. Schuch S., Koch I. The role of response selection for inhibition of task sets in task shifting. J. Exp. Psychol. Hum. Percept. Perform. 2003, 29:92-105.
98. Schumacher E.H., Elston P.A., D'Esposito M. Neural evidence for representation-specific response selection. J. Cogn. Neurosci. 2003, 15:1111-1121.
99. Semlitsch H.V., Anderer P., Schuster P., Presslich O. A solution for reliable and valid reduction of ocular artefacts. Psychophysiology 1986, 23:695-703.
100. Serrien D.J., Ivry R.B., Swinnen S.P. The missing link between action and cognition. Progr. Neurobiol. 2007, 95-107.
101. Small D.M., Gitelman D.R., Gregory M.D., Nobre A.C., Parrish T.B., Mesulam M.-M. The posterior cingulate and medial prefrontal cortex mediate the anticipatory allocation of spatial attention. NeuroImage 2003, 18:633-641.
102. Smith J.L., Johnstone S.J., Barry R.J. Response priming in the go/nogo task: the N2 reflects neither inhibition nor conflict. Clin. Neurophysiol. 2006, 118:343-355.
103. Smith J.L., Johnstone S.J., Barry R.J. Movement-related potentials in the go/no-go task: the P3 reflects both cognitive and motor inhibition. Clin. Neurophysiol. 2008, 119:704-714.
104. Sohn M., Ursu S., Anderson J.R., Stenger V.A., Carter C.S. The role of prefrontal cortex and posterior parietal cortex in task-switching. Proc. Natl. Acad. Sci. 2000, 97:13448-13453.
105. Swainson R., Jackson S.R., Jackson G.M. Using advance information in dynamic cognitive control: an ERP study of task-switching. Brain Res. 2006, 1105:61-72.
106. Talairach J., Tournox P. Co-planar Stereotaxic Atlas of the Human Brain 1988, Thieme Medical Publishers, New York.
107. Temel Y., Blokland A., Steinbusch H.W.M., Visser-Vanderwalle V. The functional role of the subthalamic nucleus in cognitive and limbic circuits. Prog. Neurobiol. 2005, 76:292-413.
108. Thobois S., Hotton G.R., Pinto S., Wilkinson L., Limousin-Dowsey P., et al. STN stimulation alters pallidal-frontal coupling during response selection under competition. J. Cereb. Blood Flow Metab. 2007, 27:1173-1184.
109. Tieges Z., Snel J., Kok A., Wijnen J.G., Lorist M.M., Ridderinkhof K.R. Caffeine improves anticipatory processes in task switching. Biol. Psychol. 2006, 73:101-113.
110. Vasey M.W., Thayer J.F. The continuing problem of false positives in repeated measures ANOVA in psychophysiology: a multivariate solution. Psychophysiology 1987, 24:479-486.
111. Verbruggen F., Liefooghe B., Vandierendonck A., Demanet J. Short cue presentations encourage advance task preparation: a recipe to diminish the residual switch cost. J. Exp. Psychol. Learn. Mem. Cogn. 2007, 33:342-356.
112. Verleger R., Paehge T., Kolev V., Yordanova J., Jaskowski P. On the relation of movement-related potentials to the go/no-go effect on P3. Biol. Psychol. 2006, 298-313.
113. Waszak F., Hommel B., Allport A. Task-switching and long term priming: role of episodic stimulus-task bindings in task-shift costs. Cogn. Psychol. 2003, 46:361-413.
114. Winocur G., Mills J.A. Hippocampus and septum in response inhibition. J. Comp. Physiol. Psychol. 1969, 67:352-357.
115. Wylie G., Allport A. Task switching and the measurement of 'switch costs'. Psychol. Res. 2000, 63:212-233.
116. Wylie G.R., Javitt D.C., Foxe J.J. Jumping the gun: is effective preparation contingent upon anticipatory activation in task-relevant neural circuitry?. Cereb. Cortex 2006, 16:394-404.