Transient activation of inferior prefrontal cortex during cognitive set shifting (original) (raw)

References

1. Grant, D. A. & Berg, E. A. A behavioral analysis of degree of reinforcement and ease of shifting to new responses in a Weigl-type card-sorting problem. J. Exp. Psychol. 38, 404– 411 (1948)
   Article CAS Google Scholar
2. Heaton, R. K. Wisconsin Card Sorting Test Manual (Psychological Assesment Resources, Odessa, Florida, 1993)
   Google Scholar
3. Milner, B. Effects of different brain lesions on card sorting. Arch. Neurol. 9, 90–100 (1963)
   Article Google Scholar
4. Drewe, E. A. The effect of type and area of brain lesion on Wisconsin card sorting test performance. Cortex 10, 159–170 (1974)
   Article CAS Google Scholar
5. Robinson, A. L., Heaton, R. K., Lehman, R. A. W. & Stilson, D. W. The utility of the Wisconsin Card Sorting Test in detecting and localizing frontal lobe lesions. J. Consult. Clin. Psychol. 48 , 605–614 (1980)
   Article CAS Google Scholar
6. Janowski, J. S., Shimamura, A. P., Kritchevski, M. & Squire, L. R. Cognitive impairment following frontal damage and its relevance to human amnesia . Behav. Neurosci. 103, 548– 560 (1989)
   Article Google Scholar
7. Passingham, R. E. Non-reversal shifts after selective prefrontal ablations in monkeys (Macaca Mulatta). Neuropsychologia 10, 41– 46 (1972)
   CAS Google Scholar
8. Dias, R., Robbins, T. W. & Roberts, A. C. Dissociation in prefrontal cortex of affective and attentional shifts. Nature 380, 69– 72 (1996)
   Article CAS Google Scholar
9. Milner, B. in The Frontal Granular Cortex and Behavior (eds Warren, J.M. & Akert, K.) 313–334 (McGraw-Hill, New York, 1964 )
   Google Scholar
10. Mishkin, M. in The Frontal Granular Cortex and Behavior (eds Warren, J.M. & Akert, K.) 219–241 (McGraw-Hill, New York, 1964 )
    Google Scholar
11. Goldman-Rakic, P. S. in Circuitry of primate prefrontal cortex and regulation of behavior by representational memory. Handbook of Physiology, Vol. 2, (eds Mountcastle, V.B., Plum, F. & Geiger, S.R.), 373–417 (American Physiological Society, Bethesda, 1987)
    Google Scholar
12. Petrides, M. in Handbook of Neuropsychology (eds Boller, F. & Grafman, J.) 75– 90 (Elsevier, Amsterdam, 1989)
    Google Scholar
13. Passingham, R. E. The Frontal Lobes and Voluntary Action (Oxford Univ. Press, Oxford, 1993)
    Google Scholar
14. Damasio, A. R. On some functions of the human prefrontal cortex. Ann. NY Acad. Sci. 769, 241–251 (1995)
    Article CAS Google Scholar
15. Fuster, J. M. The Prefrontal Cortex (Raven, New York, 1997)
    Google Scholar
16. Rosen, B. R., Buckner, R. L. & Dale, A. M. Event-related functional MRI: Past, present, and the future . Proc. Natl. Acad. Sci. USA 95, 773– 780 (1998)
    Article CAS Google Scholar
17. Mountain, M. A. & Snow, W. G. Wisconsin Card Sorting Test as a measure of frontal pathology: a review. Clin. Neuropsychol. 7, 108–118 (1993)
    Article Google Scholar
18. Friston, K. J., Jezzard, P. & Turner, R. Analysis of functional MRI time-series. Hum. Brain Mapp. 1, 153–171 (1994)
    Article Google Scholar
19. Buckner, R. L. et al. Detection of cortical activation during averaged single trials of a cognitive task using functional magnetic resonance imaging. Proc. Natl. Acad. Sci. USA 93, 14878–14883 (1996)
    Article CAS Google Scholar
20. Konishi, S. et al. Transient brain activity used in magnetic resonance imaging to detect functional areas . Neuroreport 8, 19–23 (1996)
    Article CAS Google Scholar
21. Kim, S. G., Richter, W. & Ugurbil, K. Limitation of temporal resolution in functional MRI. Magn. Reson. Med. 37, 631–636 (1997)
    Article CAS Google Scholar
22. Zarahn, E., Aguirre, G. & D'Esposito, M. A trial-based experimental design for fMRI. Neuroimage 6, 122–138 (1997)
    Article CAS Google Scholar
23. Blamire, A. M. et al. Dynamic mapping of the human visual cortex by high-speed magnetic resonance imaging . Proc. Natl. Acad. Sci. USA 89, 11069– 11073 (1992)
    Article CAS Google Scholar
24. Narayan, S. M., Santori, E. M. & Toga, A. W. Mapping functional activity in rodent cortex using optical intrinsic signals. Cereb. Cortex 4, 195–204 (1994)
    Article CAS Google Scholar
25. Savoy, R. L. et al. Pushing the temporal resolution of fMRI: studies of very brief visual stimuli, onset variability and asynchrony, and stimulus-correlated changes in noise. Proc SMR 3rd Annual Meeting 450 (1995)
26. Malonek, D. & Grinvald, A. Interactions between electrical activity and cortical microstimulation revealed by imaging spectroscopy: implications for functional brain mapping. Science 272, 551–554 (1996)
    Article CAS Google Scholar
27. Buckner, R. L., Raichle, M. E., Miezin, F. M. & Petersen, S. E. Functional anatomic study of memory retrieval for auditory words and visual pictures. J. Neurosci. 16, 6219– 6235 (1996)
    Article CAS Google Scholar
28. Friston, K. J., Frith, C. D., Liddle, P. F. & Frackowiak, R. S. J. Comparing functional (PET) images: The assessment of significant change. J. Cereb. Blood Flow Metab. 11, 690– 699 (1991)
    Article CAS Google Scholar
29. Talairach, J. & Tournoux, P. Co-planar stereotaxic atlas of the human brain (Stuttgart, Thieme, 1988)
30. Hinke, R. M. et al. Functional magnetic resonance imaging of Broca's area during internal speech. Neuroreport 4, 675–678 (1993)
    Article CAS Google Scholar
31. Kim, K. H. S., Relkin, N. R., Lee, K.-M. & Hirsh, J. Distinct cortical areas associated with native and second languages. Nature 388, 171–174 (1997)
    Article CAS Google Scholar
32. Jonides, J. et al. Spatial working memory in humans as revealed by PET. Nature 363, 623–625 (1993)
    Article CAS Google Scholar
33. Petrides, M., Alivisatos, B., Meyer, E. & Evans, A. C. Functional activation of the human frontal cortex during the performance of verbal working memory tasks. Proc. Natl. Acad. Sci. USA 90, 878 –882 (1993)
    Article CAS Google Scholar
34. McCarthy, G. et al. Functional magnetic resonance imaging of human prefrontal cortex activation during a spatial working memory task. Proc. Natl. Acad. Sci. USA 91, 8690–8694 (1994)
    Article CAS Google Scholar
35. D' Esposito, M. et al. The neural basis of the central executive system of working memory. Nature 378, 279–281 (1995)
    Article Google Scholar
36. Baker, S. C., Frith, C. D., Frackowiak, R. S. J. & Dolan, R. J. Active representation of shape and spatial location in man. Cereb. Cortex 6, 612–619 (1996)
    Article CAS Google Scholar
37. Courtney, S. M., Ungerleider, L. G., Keil, K. & Haxby, J. V. Object and spatial visual working memory activate separate neural systems in human cortex. Cereb. Cortex 6, 39– 49 (1996)
    Article CAS Google Scholar
38. Fiez, J. A. et al. A positron emission tomography study of the short-term maintenance of verbal information . J. Neurosci. 16, 808– 822 (1996)
    Article CAS Google Scholar
39. Dehaene, S. et al. Cerebral activations during number multiplication and comparison: a PET study. Neuropsychologia 34, 1097–1106 (1996)
    Article CAS Google Scholar
40. Cohen, D. C. et al. Temporal dynamics of brain activation during a working memory task. Nature 386, 604–608 (1997)
    Article CAS Google Scholar
41. Courtney, S. M., Ungerleider, L. G., Keil, K. & Haxby, J. V. Transient and sustained activity in a distributed neural system for human working memory. Nature 386, 608– 611 (1997)
    Article CAS Google Scholar
42. Klingberg, T., O'Sullivan, B. T. & Roland, P. E. Bilateral activation of fronto-parietal networks by incrementing demand in a working memory task. Cereb. Cortex 7, 465–471 (1997)
    Article CAS Google Scholar
43. Prabhakaran, V., Smith, J. A., Desmond, J. E., Glover, G. H. & Gabrieli, J. D. Neural substrates of fluid reasoning: an fMR study of neocortical activation during performance of the Raven's Progressive Matrices Test. Cog. Psychol. 33, 43– 63 (1997)
    Article CAS Google Scholar
44. Miyashita, Y. Inferior temporal cortex: Where visual perception meets memory. Ann. Rev. Neurosci. 16, 245–263 (1993)
    Article CAS Google Scholar
45. Konishi, S., Nakajima, K., Uchida, I., Sekihara, K. & Miyashita, Y. No-go dominant brain activity in human inferior prefrontal cortex revealed by functional magnetic resonance imaging. Eur. J. Neurosci. 10, 1209–1213 (1998)
    Article CAS Google Scholar
46. Berman, K. F. et al. Physiological activation of a cortical network during performance of the Wisconsin Card Sorting Test: a positron emission tomography study. Neuropsychologia 33, 1027–1046 (1995)
    Article CAS Google Scholar
47. Nagahama, Y. et al. Cerebral activation during performance of a card sorting test. Brain 119, 1667–1675 (1996)
    Article Google Scholar
48. Oldfield, R. C. The assessment and analysis of handedness: the Edinburgh inventory. Neuropsychologia 9, 97–113 (1971)
    Article CAS Google Scholar
49. Sakai, K. et al. Functional mapping of the human somatosensory cortex with echo-planar magnetic resonance imaging. Magn. Reson. Med. 33, 736– 743 (1995)
    Article CAS Google Scholar
50. Sakai, K. et al. Functional mapping of the human colour centre with echo-planar magnetic resonance imaging . Proc. R. Soc. Lond. B 261, 89– 98 (1995)
    Article CAS Google Scholar

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