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Persistence and brain circuitry.

The orbitofrontal and adjacent medial prefrontal cortex may play an important role in normal social functioning and affect modulation. Recent anatomical studies of this area of the prefrontal cortex have demonstrated a striking correspondence of fine-grained architectonic partitioning schemes in hum... Full description

Journal Title: Proceedings of the National Academy of Sciences of the United States of America March 18, 2003, Vol.100(6), pp.3479-3484
Main Author: Gusnard, Debra A
Other Authors: Ollinger, John M , Shulman, Gordon L , Cloninger, C Robert , Price, Joseph L , Van Essen, David C , Raichle, Marcus E
Format: Electronic Article Electronic Article
Language: English
Subjects:
ID: ISSN: 0027-8424
Link: http://search.proquest.com/docview/73111981/?pq-origsite=primo
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recordid: proquest73111981
title: Persistence and brain circuitry.
format: Article
creator:
  • Gusnard, Debra A
  • Ollinger, John M
  • Shulman, Gordon L
  • Cloninger, C Robert
  • Price, Joseph L
  • Van Essen, David C
  • Raichle, Marcus E
subjects:
  • Adult–Physiology
  • Animals–Psychology
  • Female–Anatomy & Histology
  • Haplorhini–Physiology
  • Humans–Physiology
  • Magnetic Resonance Imaging–Physiology
  • Male–Physiology
  • Personality–Physiology
  • Prefrontal Cortex–Physiology
  • Social Behavior–Physiology
  • Species Specificity–Physiology
ispartof: Proceedings of the National Academy of Sciences of the United States of America, March 18, 2003, Vol.100(6), pp.3479-3484
description: The orbitofrontal and adjacent medial prefrontal cortex may play an important role in normal social functioning and affect modulation. Recent anatomical studies of this area of the prefrontal cortex have demonstrated a striking correspondence of fine-grained architectonic partitioning schemes in humans and nonhuman primates. This finding allows neurophysiological recording and anatomical connectivity data in animals to be considered together with functional imaging data and lesion studies in humans. In a functional MRI study, we show that individual differences in Persistence, a dimensional trait assessed with a seven-factor personality model, may be linked to specific areas in the lateral orbital and medial prefrontal cortex and the ventral striatum. These areas are part of an anatomical circuit that has been defined in nonhuman primates and has been implicated in functions related to behavioral persistence. These findings represent a fresh approach to linking normal individual differences in personality and behavior to specific neuronal structures and subsystems.
language: eng
source:
identifier: ISSN: 0027-8424
fulltext: fulltext
issn:
  • 00278424
  • 0027-8424
url: Link


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titlePersistence and brain circuitry.
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subjectAdult–Physiology ; Animals–Psychology ; Female–Anatomy & Histology ; Haplorhini–Physiology ; Humans–Physiology ; Magnetic Resonance Imaging–Physiology ; Male–Physiology ; Personality–Physiology ; Prefrontal Cortex–Physiology ; Social Behavior–Physiology ; Species Specificity–Physiology
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The orbitofrontal and adjacent medial prefrontal cortex may play an important role in normal social functioning and affect modulation. Recent anatomical studies of this area of the prefrontal cortex have demonstrated a striking correspondence of fine-grained architectonic partitioning schemes in humans and nonhuman primates. This finding allows neurophysiological recording and anatomical connectivity data in animals to be considered together with functional imaging data and lesion studies in humans. In a functional MRI study, we show that individual differences in Persistence, a dimensional trait assessed with a seven-factor personality model, may be linked to specific areas in the lateral orbital and medial prefrontal cortex and the ventral striatum. These areas are part of an anatomical circuit that has been defined in nonhuman primates and has been implicated in functions related to behavioral persistence. These findings represent a fresh approach to linking normal individual differences in personality and behavior to specific neuronal structures and subsystems.

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