WOBIB: 180 - Frangou, et al. (2004) Mapping IQ and gray ...
 
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Sophia Frangou; Xavier Chitins; Steven C. R. Williams. Mapping IQ and gray matter density in healty young people. NeuroImage 23(8):800-805, 2004. PMID: 15528081. DOI: 10.1016/j.neuroimage.2004.05.027. FMRIDCID: . WOBIB: 180.

Magnetic resonance imaging (MRI) studies suggest that significant changes in gray matter density occur during adolescence because of brain maturation. It has also been reported that gray matter volume correlates with measures of intellectual ability. This study examined whether the relationship between general intellectual ability (IQ) and gray matter morphometry reflects differential involvement of particular cytoarchitectonic areas. We found positive correlations between IQ and gray matter density in the orbitofrontal cortex, cingulate gyrus, the cerebellum, and thalamus and negative correlations in the caudate nucleus. These findings suggest that general intellectual ability in healthy young people is related to specific brain regions known to be involved in the executive control of attention, working memory, and response selection.

Asymmetry: -0.89062 (left: -1, right: +1)

VRML2 file (70 Kb)

1 Intelligence and gray matter volume positive correlation. Full-scale intellegence measured with either Wechsler Intelligence Scale for Children-III or Wechsler Adult Intelligence Scale-Revised correlated with gray matter volume. WOEXP: 563.
2 Intelligence and gray matter volume negative correlation. Full-scale intellegence measured with either Wechsler Intelligence Scale for Children-III or Wechsler Adult Intelligence Scale-Revised correlated inversely with gray matter volume. WOEXP: 564.


corner cube of WOBIB_180

Related - positive correlated volumes

+1: 1.00000 Sophia Frangou; Xavier Chitins; Steven C. R. Williams. Mapping IQ and gray matter density in healty young people. NeuroImage 23(8):800-805, 2004. PMID: 15528081. DOI: 10.1016/j.neuroimage.2004.05.027. FMRIDCID: . WOBIB: 180.

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+4: 0.49383 L. M. Parsons; D. Osherson. New Evidence for Distinct Right and Left Brain Systems for Deductive versus Probabilistic Reasoning. Cerebral Cortex 11(10):954-65, 2001. PMID: 11549618. WOBIB: 47.

+5: 0.47014 Andreas Bartels; Semir Zeki. The neural basis of romantic love. NeuroReport 11(17):3829-3834, 2000. PMID: 11117499. WOBIB: 54.

+6: 0.44449 K. L. Casey; S. Minoshima; T. J. Morrow; R. A. Koeppe. Comparison of human cerebral activation pattern during cutaneous warmth, heat pain, and deep cold pain. Journal of Neurophysiology 76(1):571-81, 1996. PMID: 8836245. WOBIB: 102.

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+10: 0.39773 Brent A. Vogt; Stuart Derbyshire; Anthony K. Jones. Pain processing in four regions of human cingulate cortex localized with co-registered PET and MR imaging. European Journal of Neuroscience 8(7):1461-73, 1996. PMID: 8758953. WOBIB: 100.

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+15: 0.38287 P. E. Paulson; S. Minoshima; T. J. Morrow; K. L. Casey. Gender differences in pain perception and patterns of cerebral activation during noxious heat stimulation in humans. Pain 76(1-2):223-9, 1998. PMID: 9696477. WOBIB: 118.

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+22: 0.35551 F. Lacquaniti; Daniela Perani; E. Guigon; V. Bettinardi; M. Carrozzo; F. Grassi; Yves Rossetti; F. Fazio. Visuomotor Transformations for Reaching to Memorized Targets: A PET study. NeuroImage 5(2):129-146, 1997. PMID: 9345543. DOI: 10.1006.nimg.1996.0254. FMRIDCID: . WOBIB: 182.

+23: 0.35536 Sherif Karama; Andre R. Lecours; Jean-Maxime Leroux; Pierre Bourgouin; Gilles Beaudoin; Sven Joubert; Mario Beauregard. Areas of brain activation in males and females during viewing of erotic film excerpts. Human Brain Mapping 16(1):1-13, 2002. PMID: 11870922. WOBIB: 4.

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+25: 0.35257 E. Stern; D. A. Silbersweig; K. Y. Chee; Andrew Holmes; M. M. Robertson; M. Trimble; Christopher D. Frith; Richard S. J. Frackowiak; Raymond J. Dolan. A functional neuroanatomy of tics in Tourette syndrome. Archives of General Psychiatry 57(8):741-748, 2000. PMID: 10920461. FMRIDCID: . WOBIB: 130.


Antirelated - negatively correlated volumes

-1: 0.00009 Dottie M. Clower; John M. Hoffman; John R. Votaw; Tracy L. Faber; Roger P. Woods; Garrett E. Alexander. Role of posterior parietal cortex in the recalibration of visually guided reaching. Nature 383(6601):618-21, 1996. PMID: 8857536. WOBIB: 109.

-2: 0.00079 Hans-Otto Karnath; Monika Fruhmann Berger; Wilhelm Kuker; Chris Rorden. The Anatomy of Spatial Neglect based on Voxelwise Statistical Analysis: A Study of 140 Patients. Cerebral Cortex 14(10):1164-1172, 2004. PMID: 15142954. DOI: 10.1093/cercor/bhh076. FMRIDCID: . WOBIB: 133.

-3: 0.00085 E. Grossman; M. Donnelly; R. Price; D. Pickens; V. Morgan; G. Neighbor; R. Blake. Brain areas involved in perception of biological motion. Journal of Cognitive Neuroscience 12(5):711-20, 2000. PMID: 11054914. WOBIB: 33.

-4: 0.00429 Hans-Otto Karnath; S. Ferber; M. Himmelbach. Spatial awareness is a function of the temporal not the posterior parietal lobe. Nature 411(6840):950-3, 2001. PMID: 11418859. DOI: 10.1038/35082075. WOBIB: 59.

-5: 0.00501 Semir Zeki; R. J. Perry; A. Bartels. The processing of kinetic contours in the brain. Cerebral Cortex 13(2):189-202, 2003. PMID: 12507950. WOBIB: 52.

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