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Number of results
2014 | 8 | 1 | 5-21

Article title

fMRI as a Method of Detection of Deception: A Review of Experiences

Content

Title variants

Languages of publication

EN

Abstracts

Publisher

Year

Volume

8

Issue

1

Pages

5-21

Physical description

Dates

published
1 - 3 - 2014
online
21 - 6 - 2014

Contributors

  • University of South Carolina USA

References

  • Abe, N., Okuda, J., Suzuki, M. S., Matsuda, T., Mori, E., Tsukada, M., et al. (2008). Neural correlates of true memory, false memory, and deception. Cerebral Cortex, 18, 2811-2819. Abe, N., Suzuki, M., & Tsukiura, T. (2006). Dissociable Roles of Prefrontal and Anterior Cingulate Cortices in Deception. Cerebral Cortex, 16, 192-199. Allen, J.J., Iacono, W.G., Danielson, K.D. (1992). Th e identifi cation of concealed memories using the event-related potential and implicit behavioral measures: A methodology for prediction in the face of individual diff erences.Psychophysiology, 29, 504-522. Allen, J.J.B., Iacono, W.G. (1997). A comparison of methods for the analysis of event-related potentials in deception-detection. Psychophysiology, 34, 234-240. Basile, B., Bozzali, M., Macaluso, E., & Mancini, F. (2009). Neural correlates of altruistic and deontological guilt: An fMRI investigation in healthy individuals.Behavior Th erapy, 17, 3974. Bhatt, S., Mbwana, J., Adeyemo, A., Sawyer, A., Hailu, A., & Vanmeter, J. (2009). Lying about facial recognition : An fMRI study. Brain and Cognition, 69(2), 382-390. Christ, S. E., Van Essen, D. C., Watson, J. M., Brubaker, L. E., & McDermott, K. B. (2009). Th e contribution of prefrontal cortex and executive control to deception: Evidence from activatin likelihood estimate meta analyses. Cerebral Cortex, 19(7), 1557-1566. Farwell & Donchin, 1. (n.d.). Gamer, M., Bauermann, T., Stoeter, P., & Vossel, G. (2007). Covariations among fMRI, skin conductance, and behavioral data during processing of concealed information. Human Brain Mapping, 28(12), 1287-1301. Ganis, G., Kosslyn, S. M., Stose, S., Th ompson, W. L., & Yurgelun-Todd, D. A. (2003). Neural correlates of diff erent types of deception: an fMRI investigation.Cerebral Cortex, 13(8), 830-836. Greene, J. D., & Paxton, J. M. (2009). Patterns of neural activity associated with honest and dishonest moral decisions. Proceedings of the National Academy of Sciences of the United States of America, 106(30), 12506-12511.Iacono, A. &. (1997). Johnson, R., Barnhardt, J., & Zhu, J. (2004). Th e contribution of executive processes to deceptive responding. Neuropsychologia, 42(7), 878-901. Johnson, R., Barnhardt, J., & Zhu, J. (2005). Diff erential eff ects of practice on the executive processes used for truthful and deceptive responses: an eventrelated brain potential study. Cognitive Brain Science, 24(3), 386-404. Kozel, F. A., Johnson, K. a., Grenesko, E. L., Laken, S. J., & George, M. S. (2005). Detecting deception using functional magnetic resonance imaging.Biological Psychiatry, 58(8), 605-613. Kozel, F. A., Padgett, T. M., & George, M. S. (2004). A replication study of the neural correlates of deception. Behavioral Neuroscience, 118, 851-856. Kozel, F. A., Revell, L. J., Lorberbaum, J. P., Shastri, A., Elhai, J. D., & Horner, M. D. (2004). A pilot study of functional magnetic resonance imaging brain correlates of deception in healthy young men. Journal of Neuropsychiatry and Clinical Neuroscience, 16, 295-305. Langleben, D. D., Loughead, J. W., Bilker, W. B., Ruparel, K., & Childress, A. R. (2005). Telling truth from lie in individual subjects with fast eventrelated fMRI. Human Brain Mapping, 26, 262-272. Langleben, D. D., Schroeder, L., Maldjian, J. A., Gur, R. C., McDonald, S., & Ragland, J. D. (2002). Brain activity during simulated deception: An eventrelated functional magnetic resonance study. NeuroImage, 15, 727-732. Lee, T. M., Liu, H., Tan, L., Chan, C. C., Mahankali, S., Feng, C., et al. (2002). Lie Detection by Functional Magnetic Resonance Imaging. Human Brain Mapping, 15, 157-164. Lee, T., Liu, H., Chetwyn, C., Ng, Y., Fox, P., & Gao, J. (2005). Neural correlates of feigned memory impairment. NeuroImage, 28, 305-313. Meek, S. W., Phillips, M. C., Boswell, C. P., & Vendemia, J. M. (2013). Deception and the misinformation eff ect: An event-related potential study. International Journal of Psychophysiology, 87 (1), 81-87. Mohamed, F., Faro, S., Gordon, N., Platek, S., Ahmad, H., & Williams, J. (2006). Brain mapping of deception and truth telling about an ecologically valid situation: Functional MR imaging and polygraph invstigation-initial experience. Radiology, 238, 679-688. Nunez, J. M., Casey, B. J., Egner, T., Hare, T., & Hirsch, J. (2005). Intentional false responding shares neural substrates with response confl ict and cognitive control. NeuroImage, 25, 267-277. Phan, K. L., Magalhaes, A., Ziemlewicz, T. J., Fitzgerald, D. A., Green, C., & Smith, W. (2005). Neural correlates of telling lies: A functional magnetic resonance imaging study at 4 Tesla. Academic Radiology, 12, 164-172. Phillips, M. C., & Vendemia, J. M. (2008). Individual diff erences in comparison question anxiety. European Polygraph, 2, 5-6. Phillips, M. C., Meek, S. W., & Vendemia, J. M. (2011). Understanding the underlying structure of deceptive behaviors. Personality and Individual Differences, 50(6), 783-799. Ramnani, N., & Owen, A. M. (2004). Anterior prefrontal cortex: Insights into function from anatomy and neuroimaging. Nature, 5, 184-194. Rosenfeld, J. P., Ellwanger, J., Nolan K., Wu, S., Bermann, R. G., Sweet, J. P300 scalp amplitude distribution as an index of deception in a simulated cognitive defi cit model. International Journal of Psychophysiology, 33, 3-19. Sanchez, C., Meek, S., Phillips, M., Craig, A., & Vendemia, J. (2007). Anterior Cingulate and Prefrontal Activity as Correlates of Attention Switching and Consideration of Multiple Relations during Truthful and Deceptive Responses: A BOLD Imaging Study. Th e 12th annual meeting of the Cognitive Neuroscience Society. New York, NY. Schillaci, M., & Vendemia, J. M. (2014). ERP Energy and Cognitive Activity Correlates. Bulletin of the American Physical Society. Schoenbaum, G., Takahashi, Y., Liu, T., & McDannald, M. (2011). Does the orbitofrontal cortex signal value. Annals of the New York Academy of Sciences, 1239, 87-99. Smith, S. W., Jenkinson, M., Woolrich, M. W., Beckmann, C. F., Behrens, T. E., & Johansen-Berg, H. (2004). Advances in functional and structural MR image analysis and implementation as FSL. NeuroImage, 23(S!), 208-219. Spence, S. A., Farrow, T. F., Green, R. D., Leung, D. H., Hughes, C. J., & Ganeson, V. (2004). A cognitive neurobiological account of deception; Evidence from function neuroimaging. Philosophical Transaction of the Royal Society B: Biological Sciences, 359, 1755-1752. Spence, S. A., Farrow, T. F., Herford, A. E., Wilkinson, I. D., Zheng, Y., & Woodruff , P. W. (2001). Behavioural and functional anatomical correlates of deception in humans. Neuroreport, 12, 2849-2853. Vendemia, J. M., Schillaci, M. J., Buzan, R. F., Green, E. P., & Meek, S. W. (2009). Alternate technologies for the Detection of Deception. In D. Wilcox (Ed.), Th e Use of the Polygraph in Assessing, Treating and Supervising Sex Offenders: A Practitioner’s Gude (267-296). West Sussex, UK: Wiley & Sons, Ltd. Yokota, S., Taki, Y., Hashizume, H., Sassa, Y., Th yreau, B., Tanaka, M., et al. (2013). Neural correlates of deception in social contexts in normally developing children. Frontiers in Human Neuroscience, 7, 1-8.

Document Type

Publication order reference

Identifiers

YADDA identifier

bwmeta1.element.-psjd-doi-10_2478_ep-2014-0001
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