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Items: 1 to 20 of 94

1.

Brain activity in advantageous and disadvantageous situations: implications for reward/punishment sensitivity in different situations.

Dong G, Lin X, Hu Y, Lu Q.

PLoS One. 2013 Nov 12;8(11):e80232. doi: 10.1371/journal.pone.0080232.

2.

How the win-lose balance situation affects subsequent decision-making: functional magnetic resonance imaging evidence from a gambling task.

Dong G, Lin X, Zhou H, Lu Q.

Neuroscience. 2014 Jul 11;272:131-40. doi: 10.1016/j.neuroscience.2014.04.058.

PMID:
24814016
3.

Reward/punishment sensitivities among internet addicts: Implications for their addictive behaviors.

Dong G, Hu Y, Lin X.

Prog Neuropsychopharmacol Biol Psychiatry. 2013 Oct 1;46:139-45. doi: 10.1016/j.pnpbp.2013.07.007.

PMID:
23876789
4.

Context-dependent cortical activation in response to financial reward and penalty: an event-related fMRI study.

Akitsuki Y, Sugiura M, Watanabe J, Yamashita K, Sassa Y, Awata S, Matsuoka H, Maeda Y, Matsue Y, Fukuda H, Kawashima R.

Neuroimage. 2003 Aug;19(4):1674-85.

PMID:
12948722
5.

The role of the dorsolateral prefrontal cortex in the inhibition of stereotyped responses.

Kadota H, Sekiguchi H, Takeuchi S, Miyazaki M, Kohno Y, Nakajima Y.

Exp Brain Res. 2010 Jun;203(3):593-600. doi: 10.1007/s00221-010-2269-4.

PMID:
20454786
6.

Differential amygdala responses to winning and losing: a functional magnetic resonance imaging study in humans.

Zalla T, Koechlin E, Pietrini P, Basso G, Aquino P, Sirigu A, Grafman J.

Eur J Neurosci. 2000 May;12(5):1764-70.

PMID:
10792453
7.

Motivational orientation modulates the neural response to reward.

Linke J, Kirsch P, King AV, Gass A, Hennerici MG, Bongers A, Wessa M.

Neuroimage. 2010 Feb 1;49(3):2618-25. doi: 10.1016/j.neuroimage.2009.09.013.

PMID:
19770058
8.

Perceived ownership impacts reward evaluation within medial-frontal cortex.

Krigolson OE, Hassall CD, Balcom L, Turk D.

Cogn Affect Behav Neurosci. 2013 Jun;13(2):262-9. doi: 10.3758/s13415-012-0144-4.

PMID:
23283801
9.
10.

Segregated and integrated coding of reward and punishment in the cingulate cortex.

Fujiwara J, Tobler PN, Taira M, Iijima T, Tsutsui K.

J Neurophysiol. 2009 Jun;101(6):3284-93. doi: 10.1152/jn.90909.2008.

11.

Enhanced reward sensitivity and decreased loss sensitivity in Internet addicts: an fMRI study during a guessing task.

Dong G, Huang J, Du X.

J Psychiatr Res. 2011 Nov;45(11):1525-9. doi: 10.1016/j.jpsychires.2011.06.017.

PMID:
21764067
12.

Brain regions involved in the learning and application of reward rules in a two-deck gambling task.

Hartstra E, Oldenburg JF, Van Leijenhorst L, Rombouts SA, Crone EA.

Neuropsychologia. 2010 Apr;48(5):1438-46. doi: 10.1016/j.neuropsychologia.2010.01.012.

PMID:
20105435
13.

Age, sex and individual differences in punishment sensitivity: factors influencing the feedback-related negativity.

Santesso DL, Dzyundzyak A, Segalowitz SJ.

Psychophysiology. 2011 Nov;48(11):1481-9. doi: 10.1111/j.1469-8986.2011.01229.x.

PMID:
21711354
14.

Different neural systems adjust motor behavior in response to reward and punishment.

Wrase J, Kahnt T, Schlagenhauf F, Beck A, Cohen MX, Knutson B, Heinz A.

Neuroimage. 2007 Jul 15;36(4):1253-62.

PMID:
17521924
15.

Decision making in the Balloon Analogue Risk Task (BART): anterior cingulate cortex signals loss aversion but not the infrequency of risky choices.

Fukunaga R, Brown JW, Bogg T.

Cogn Affect Behav Neurosci. 2012 Sep;12(3):479-90. doi: 10.3758/s13415-012-0102-1. Erratum in: Cogn Affect Behav Neurosci. 2012 Dec;12(4):826.

16.

Overlapping and distinct representations of advantageous and disadvantageous inequality.

Yu R, Calder AJ, Mobbs D.

Hum Brain Mapp. 2014 Jul;35(7):3290-301.

17.

Activity in human reward-sensitive brain areas is strongly context dependent.

Nieuwenhuis S, Heslenfeld DJ, von Geusau NJ, Mars RB, Holroyd CB, Yeung N.

Neuroimage. 2005 May 1;25(4):1302-9.

PMID:
15945130
18.

Abstract reward and punishment representations in the human orbitofrontal cortex.

O'Doherty J, Kringelbach ML, Rolls ET, Hornak J, Andrews C.

Nat Neurosci. 2001 Jan;4(1):95-102.

PMID:
11135651
19.

Neuronal substrates participating in attentional set-shifting of rules for visually guided motor selection: a functional magnetic resonance imaging investigation.

Omori M, Yamada H, Murata T, Sadato N, Tanaka M, Ishii Y, Isaki K, Yonekura Y.

Neurosci Res. 1999 Apr;33(4):317-23.

PMID:
10401985
20.

Problem gamblers exhibit reward hypersensitivity in medial frontal cortex during gambling.

Oberg SA, Christie GJ, Tata MS.

Neuropsychologia. 2011 Nov;49(13):3768-75. doi: 10.1016/j.neuropsychologia.2011.09.037.

PMID:
21982697
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