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      AN INTEGRATIVE THEORY OF LOCUS COERULEUS-NOREPINEPHRINE FUNCTION: Adaptive Gain and Optimal Performance

      Author(s): 1 , 2
      Publication date Created:
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      Journal: Annual Review of Neuroscience
      Publisher: Annual Reviews

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          Abstract

          Historically, the locus coeruleus-norepinephrine (LC-NE) system has been implicated in arousal, but recent findings suggest that this system plays a more complex and specific role in the control of behavior than investigators previously thought. We review neurophysiological and modeling studies in monkey that support a new theory of LC-NE function. LC neurons exhibit two modes of activity, phasic and tonic. Phasic LC activation is driven by the outcome of task-related decision processes and is proposed to facilitate ensuing behaviors and to help optimize task performance (exploitation). When utility in the task wanes, LC neurons exhibit a tonic activity mode, associated with disengagement from the current task and a search for alternative behaviors (exploration). Monkey LC receives prominent, direct inputs from the anterior cingulate (ACC) and orbitofrontal cortices (OFC), both of which are thought to monitor task-related utility. We propose that these frontal areas produce the above patterns of LC activity to optimize utility on both short and long timescales.

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          An integrative theory of prefrontal cortex function.

          E Miller, J D Cohen (2001)
          The prefrontal cortex has long been suspected to play an important role in cognitive control, in the ability to orchestrate thought and action in accordance with internal goals. Its neural basis, however, has remained a mystery. Here, we propose that cognitive control stems from the active maintenance of patterns of activity in the prefrontal cortex that represent goals and the means to achieve them. They provide bias signals to other brain structures whose net effect is to guide the flow of activity along neural pathways that establish the proper mappings between inputs, internal states, and outputs needed to perform a given task. We review neurophysiological, neurobiological, neuroimaging, and computational studies that support this theory and discuss its implications as well as further issues to be addressed
          Article 0 comments Cited 1056 times – based on 0 reviews     Review now
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            Does rejection hurt? An FMRI study of social exclusion.

            Naomi Eisenberger, Matthew Lieberman, Kipling D Williams (2003)
            A neuroimaging study examined the neural correlates of social exclusion and tested the hypothesis that the brain bases of social pain are similar to those of physical pain. Participants were scanned while playing a virtual ball-tossing game in which they were ultimately excluded. Paralleling results from physical pain studies, the anterior cingulate cortex (ACC) was more active during exclusion than during inclusion and correlated positively with self-reported distress. Right ventral prefrontal cortex (RVPFC) was active during exclusion and correlated negatively with self-reported distress. ACC changes mediated the RVPFC-distress correlation, suggesting that RVPFC regulates the distress of social exclusion by disrupting ACC activity.
            Article 0 comments Cited 784 times – based on 0 reviews     Review now
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              Separate neural systems value immediate and delayed monetary rewards.

              Samuel M. McClure, David Laibson, George Loewenstein (2004)
              When humans are offered the choice between rewards available at different points in time, the relative values of the options are discounted according to their expected delays until delivery. Using functional magnetic resonance imaging, we examined the neural correlates of time discounting while subjects made a series of choices between monetary reward options that varied by delay to delivery. We demonstrate that two separate systems are involved in such decisions. Parts of the limbic system associated with the midbrain dopamine system, including paralimbic cortex, are preferentially activated by decisions involving immediately available rewards. In contrast, regions of the lateral prefrontal cortex and posterior parietal cortex are engaged uniformly by intertemporal choices irrespective of delay. Furthermore, the relative engagement of the two systems is directly associated with subjects' choices, with greater relative fronto-parietal activity when subjects choose longer term options.
              Article 0 comments Cited 607 times – based on 0 reviews     Review now
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                Author and article information

                Journal
                Title: Annual Review of Neuroscience
                Abbreviated Title: Annu. Rev. Neurosci.
                Publisher: Annual Reviews
                ISSN (Print): 0147-006X
                ISSN (Electronic): 1545-4126
                Publication date Created: July 21 2005
                Publication date (Print): July 21 2005
                Volume: 28
                Issue: 1
                Pages: 403-450
                Affiliations
                [1 ]Laboratory of Neuromodulation and Behavior, Department of Psychiatry, University of Pennsylvania, Philadelphia, Pennsylvania 19104;
                [2 ]Department of Psychology, Center for the Study of Brain, Mind and Behavior, Princeton University, Princeton, New Jersey 08540, and Department of Psychiatry Western Psychiatric Institute and Clinic University of Pittsburgh, Pittsburgh, Pennsylvania 15260;
                Article
                DOI: 10.1146/annurev.neuro.28.061604.135709
                PubMed ID: 16022602
                SO-VID: 18304bb3-a525-4fa9-86a7-6fad38f46a24
                Copyright © © 2005
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