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Task-negative

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In neuroscience, a task-negative (TN) mode, also known as the default mode network, is inversely correlated to the task-positive mode.[1] Its main function is to reorient attention towards salient stimuli.[citation needed] TN is considered to be involved mostly, if not entirely, in involuntary actions. The neural network is right hemisphere lateralized and includes the right temporal-parietal junction and the right ventral frontal cortex.[2] This system shows activity increases upon detection of salient targets, especially when they appear in unexpected locations.[3][4][5][6][7] Activity increases also are observed in the ventral system after abrupt changes in sensory stimuli,[8] at the onset and offset of task blocks,[9] and at the end of a completed trial.[10]

Role in disease

Studies have reported a hyper-connectivity of TN brain regions in depression during rest.[11][12]

See also

References

  1. ^ Spreng, R. Nathan (2012). "The Fallacy of a "Task-Negative" Network". Frontiers in Psychology. 3: 145. doi:10.3389/fpsyg.2012.00145. PMC 3349953. PMID 22593750.{{cite journal}}: CS1 maint: unflagged free DOI (link)
  2. ^ Fox, M.D.; Corbetta, M.; Snyder, A.Z.; Vincent, J.L.; Raichle, M.E. (2006). "Spontaneous neuronal activity distinguishes human dorsal and ventral attention systems". PNAS. 103 (26): 10046–10051. doi:10.1073/pnas.0604187103. PMC 1480402. PMID 16788060.
  3. ^ Posner, M. I.; Petersen, S. E. (1990). "The Attention System Of The Human Brain". Annual Review of Neuroscience. 13: 25–42. doi:10.1146/annurev.ne.13.030190.000325. PMID 2183676.
  4. ^ Corbetta, M.; Kincade, J. M.; Ollinger, J. M.; McAvoy, M. P.; Shulman, G. L. (2000). "Voluntary orienting is dissociated from target detection in human posterior parietal cortex". Nature Neuroscience. 3 (3): 292–297. doi:10.1038/73009. PMID 10700263. S2CID 52807698.
  5. ^ Astafiev, S. V.; Shulman, G. I.; Stanley, C. M.; Snyder, A. Z.; Van Essen, D. C.; Corbetta, M. (2003). "Functional organization of human intraparietal and frontal cortex for attending, looking, and pointing". Journal of Neuroscience. 23 (11): 4689–4699. doi:10.1523/JNEUROSCI.23-11-04689.2003. PMC 6740811. PMID 12805308.
  6. ^ Astafiev, S. V.; Stanley, C. M.; Shulman, G. L.; Corbetta, M. (2004). "Extrastriate body area in human occipital cortex responds to the performance of motor actions". Nature Neuroscience. 7 (5): 542–548. doi:10.1038/nn1241. PMID 15107859. S2CID 205430406.
  7. ^ Kincade, J. M.; Abrams, R. A.; Astafiev, S. V.; Shulman, G. I.; Corbetta, M. (2005). "An Event-Related Functional Magnetic Resonance Imaging Study of Voluntary and Stimulus-Driven Orienting of Attention". Journal of Neuroscience. 25 (18): 4593–4604. doi:10.1523/jneurosci.0236-05.2005. PMC 6725019. PMID 15872107.
  8. ^ Downar, J.; Crawley, A. P.; Mikulis, D. J.; Davis, K. D. (2000). "A multimodal cortical network for the detection of changes in the sensory environment". Nature Neuroscience. 3 (3): 277–283. doi:10.1038/72991. PMID 10700261. S2CID 8807081.
  9. ^ Fox, M. D.; Snyder, A. Z.; Barch, D. M.; Gusnard, D. A.; Raichle, M. E. (2005). "Transient BOLD responses at block transitions". NeuroImage. 28 (4): 956–966. doi:10.1016/j.neuroimage.2005.06.025. PMID 16043368. S2CID 8552739.
  10. ^ Shulman, G. I.; Tansy, A. P.; Kincade, M.; Petersen, S. E.; McAvoy, M. P.; Corbetta, M. (2002). "Reactivation of Networks Involved in Preparatory States". Cerebral Cortex. 12 (6): 590–600. doi:10.1093/cercor/12.6.590. PMID 12003859.
  11. ^ Zhou, Yuan; Yu, Chunshui; Zheng, Hua; Liu, Yong; Song, Ming; Qin, Wen; Li, Kuncheng; Jiang, Tianzi (2010). "Increased neural resources recruitment in the intrinsic organization in major depression". Journal of Affective Disorders. 121 (3): 220–230. doi:10.1016/j.jad.2009.05.029. PMID 19541369.
  12. ^ Berman, M. G.; Peltier, S.; Nee, D. E.; Kross, E.; Deldin, P. J.; Jonides, J. (19 September 2010). "Depression, rumination and the default network". Social Cognitive and Affective Neuroscience. 6 (5): 548–555. doi:10.1093/scan/nsq080. PMC 3190207. PMID 20855296.