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Journal Abstract Search

310 related items for PubMed ID: 17561849

  • 1. The effects of selective amygdala, orbital frontal cortex or hippocampal formation lesions on reward assessment in nonhuman primates.
    Machado CJ, Bachevalier J.
    Eur J Neurosci; 2007 May; 25(9):2885-904. PubMed ID: 17561849
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  • 2. Measuring reward assessment in a semi-naturalistic context: the effects of selective amygdala, orbital frontal or hippocampal lesions.
    Machado CJ, Bachevalier J.
    Neuroscience; 2007 Sep 07; 148(3):599-611. PubMed ID: 17693034
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  • 3. Functional interaction of medial mediodorsal thalamic nucleus but not nucleus accumbens with amygdala and orbital prefrontal cortex is essential for adaptive response selection after reinforcer devaluation.
    Izquierdo A, Murray EA.
    J Neurosci; 2010 Jan 13; 30(2):661-9. PubMed ID: 20071531
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  • 5. The Role of Orbitofrontal-Amygdala Interactions in Updating Action-Outcome Valuations in Macaques.
    Fiuzat EC, Rhodes SE, Murray EA.
    J Neurosci; 2017 Mar 01; 37(9):2463-2470. PubMed ID: 28148725
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  • 9. Evidence for Mediodorsal Thalamus and Prefrontal Cortex Interactions during Cognition in Macaques.
    Browning PG, Chakraborty S, Mitchell AS.
    Cereb Cortex; 2015 Nov 01; 25(11):4519-34. PubMed ID: 25979086
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  • 10. Dissociated effects of perirhinal cortex ablation, fornix transection and amygdalectomy: evidence for multiple memory systems in the primate temporal lobe.
    Gaffan D.
    Exp Brain Res; 1994 Nov 01; 99(3):411-22. PubMed ID: 7957720
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  • 11. Control of response selection by reinforcer value requires interaction of amygdala and orbital prefrontal cortex.
    Baxter MG, Parker A, Lindner CC, Izquierdo AD, Murray EA.
    J Neurosci; 2000 Jun 01; 20(11):4311-9. PubMed ID: 10818166
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  • 12. Excitotoxic lesions of the amygdala fail to produce impairment in visual learning for auditory secondary reinforcement but interfere with reinforcer devaluation effects in rhesus monkeys.
    Málková L, Gaffan D, Murray EA.
    J Neurosci; 1997 Aug 01; 17(15):6011-20. PubMed ID: 9221797
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  • 13. Amygdala Contributions to Stimulus-Reward Encoding in the Macaque Medial and Orbital Frontal Cortex during Learning.
    Rudebeck PH, Ripple JA, Mitz AR, Averbeck BB, Murray EA.
    J Neurosci; 2017 Feb 22; 37(8):2186-2202. PubMed ID: 28123082
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  • 14. Amygdalectomy and ventromedial prefrontal ablation produce similar deficits in food choice and in simple object discrimination learning for an unseen reward.
    Baylis LL, Gaffan D.
    Exp Brain Res; 1991 Feb 22; 86(3):617-22. PubMed ID: 1761095
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  • 15. Differential effects of amygdala, orbital prefrontal cortex, and prelimbic cortex lesions on goal-directed behavior in rhesus macaques.
    Rhodes SE, Murray EA.
    J Neurosci; 2013 Feb 20; 33(8):3380-9. PubMed ID: 23426666
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  • 16. Monkeys can associate visual stimuli with reward delayed by 1 s even after perirhinal cortex ablation, uncinate fascicle section or amygdalectomy.
    Gutnikov SA, Ma YY, Buckley MJ, Gaffan D.
    Behav Brain Res; 1997 Aug 20; 87(1):85-96. PubMed ID: 9331476
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  • 17. Reward-related reversal learning after surgical excisions in orbito-frontal or dorsolateral prefrontal cortex in humans.
    Hornak J, O'Doherty J, Bramham J, Rolls ET, Morris RG, Bullock PR, Polkey CE.
    J Cogn Neurosci; 2004 Apr 20; 16(3):463-78. PubMed ID: 15072681
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  • 18. Rhinal cortex ablations fail to disrupt reinforcer devaluation effects in rhesus monkeys (Macaca mulatta).
    Thornton JA, Malkova L, Murray EA.
    Behav Neurosci; 1998 Aug 20; 112(4):1020-5. PubMed ID: 9733208
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  • 19. Interactions between orbital prefrontal cortex and amygdala: advanced cognition, learned responses and instinctive behaviors.
    Murray EA, Wise SP.
    Curr Opin Neurobiol; 2010 Apr 20; 20(2):212-20. PubMed ID: 20181474
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  • 20. Behavioral and hormonal reactivity to threat: effects of selective amygdala, hippocampal or orbital frontal lesions in monkeys.
    Machado CJ, Bachevalier J.
    Psychoneuroendocrinology; 2008 Aug 20; 33(7):926-41. PubMed ID: 18650022
    [Abstract] [Full Text] [Related]

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