Interference processing in dual tasks - the functional role of the lateral prefrontal cortexChristine Stelzel112322.12.1.1345609#24862.1.272.22.2.189412#308102.2.21112132.2.32.2.414152.2.5162.3173173.1183.23.2.1193.2.2203.2.321421224.123244.225605#3154.3262728528293031AcknowledgementsReferencesSelbständigkeitserklärungenTable of contentsHelp References Abe, M., Hanakawa, T., Takayama, Y., Kuroki, C., Ogawa, S., & Fukuyama, H. (2007) . Functional Coupling of Human Prefrontal and Premotor Areas during Cognitive Manipulation. Journal of Neuroscience, 27 (13) , 3429-3438. Adcock, R. A., Constable, R. T., Gore, J. C., & Goldman-Rakic, P. S. (2000). Functional neuroanatomy of executive processes involved in dual-task performance. Proceedings of the National Academy of Sciences, 97 (7), 3567-3572. Aguirre, G. K., Zarahn, E., & D'Esposito, M . (1998). The variability of human BOLD hemodynamic responses. NeuroImage, 8 (4) , 360-9. Andersen, R.A., Essick, G.K., & Siegel, R.M. (1987 ). Neurons of area 7 are activated by both visual stimuli and oculomotor behavior. Experimental Brain Research, 67 (2), 316-322. Arnell, K. M., & Duncan, J. (2002). Separate and shared sources of dual-task cost in stimulus identification and response selection. Cognitive psychology, 44 (2), 105-47. Aron, A.R., Monsell, S., Sahakian, B.J., & Robbins, T.W. (2004). A componential analysis of task-switching deficicts associated with lesions of the left and right frontal cortex. Brain, 127 (7) , 1561-1573. Baddeley, A . (1998). Recent developments in working memory. Current Opinion in Neurobiology, 8 (2), 234-238. Badre, D., & Wagner, A. D. (2004). Selection, integration, and conflict monitoring; assessing the nature and generality of prefrontal cognitive control mechanisms. Neuron, 41 (3), 473-487. Bandettini, P. A., Wong, E. C., Hinks, R. S., Tikofsky, R. S., & Hyde, J. S. (1992). Time course EPI of human brain function during task activation. Magnetic Resonance in Medicine, 25 (2), 390-397. Banich, M. T., Milham, M. P., Jacobson, B. L., Webb, A., Wszalek, T., Cohen, N. J., & Kramer, A.F. (2001). Attentional selection and the processing of task-irrelevant information: insights from fMRI examinations of the Stroop task . Progress in brain research, 134, 459-470. Barbas, H., Ghashghaei, H.T., Rempel-Clower, N.L., & Xiao, D . (2002). Anatomic basis of functional specialization in prefrontal cortices in primates . In: Grafman, J., (ed .). Handbook of neuropsychology, 2nd edition, volume 7

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Stelzel, C., Schumacher, E.H., Schubert, T., & D’Esposito, M. (2006). The neural effect of stimulus-response modality compatibility on dual-task performance: an fMRI study. Psychological Research, 70(6), 514-525.

Stelzel, C., Kraft, A., Brandt, S.A., & Schubert, T. (in press). Dissociable neural effects of task order control and task set maintenance during dual-task processing. Journal of Cognitive Neuroscience, 20(4), 613-628.

Stelzel, C., Brandt, S.A., & Schubert, T. Neural mechanisms of attentional task setting in dual tasks. Submitted to Cerebral Cortex, October 2007.