B. Casey, N. Tottenham, C. Liston, and S. Durston, Imaging the developing brain: what have we learned about cognitive development?, Trends Cogn Sci, vol.9, pp.104-110, 2005.

P. Shaw, N. J. Kabani, J. P. Lerch, K. Eckstrand, and R. Lenroot, Neurodevelopmental trajectories of the human cerebral cortex, The Journal of Neuroscience: The Official Journal of the Society for Neuroscience, vol.28, pp.3586-3594, 2008.

E. O'hare and E. Sowell, Imaging Developmental Changes in Gray and White Matter in the Human Brain, Handbook of Developmental Cognitive Neuroscience, pp.23-38, 2008.

G. M. Edelman, Neural Darwinism: selection and reentrant signaling in higher brain function, Neuron, vol.10, pp.115-125, 1993.

R. Kimchi, Primacy of wholistic processing and global/local paradigm: a critical review, Psychol Bull, vol.112, pp.24-38, 1992.

D. Dukette and J. Stiles, The effects of stimulus density on children's analysis of hierarchical patterns, Developmental Science, vol.4, pp.233-251, 2001.

R. Kimchi, B. Hadad, M. Behrmann, and S. Palmer, Microgenesis and ontogenesis of perceptual organization, Psychol Sci, vol.16, pp.282-290, 2005.

N. Poirel, E. Mellet, O. Houdé, and A. Pineau, First came the trees, then the forest: developmental changes during childhood in the processing of visual localglobal patterns according to the meaningfulness of the stimuli, Developmental Psychology, vol.44, pp.245-253, 2008.

E. Vurpillot, The development of scanning strategies and their relation to visual differentiation, Journal of Experimental Child Psychology, vol.6, pp.632-650, 1968.

D. Delis, L. Robertson, and R. Efron, Hemispheric specialization of memory for visual hierarchical stimuli, Neuropsychologia, vol.24, pp.205-214, 1986.

L. Robertson and M. Lamb, Neuropsychological contributions to theories of part/whole organization, Cognit Psychol, vol.23, pp.299-330, 1991.

G. Fink, P. Halligan, J. Marshall, C. Frith, and R. Frackowiak, Where in the brain does visual attention select the forest and the trees?, Nature, vol.382, pp.626-628, 1996.

A. Martinez, P. Moses, L. Frank, R. Buxton, and E. Wong, Hemispheric asymmetries in global and local processing: evidence from fMRI, Neuroreport, vol.8, pp.1685-1689, 1997.

P. Moses, K. Roe, R. Buxton, E. Wong, and L. Frank, Functional MRI of global and local processing in children, Neuroimage, vol.16, pp.415-424, 2002.

J. Stiles, J. Reilly, B. Paul, and P. Moses, Cognitive development following early brain injury: evidence for neural adaptation, Trends Cogn Sci, vol.9, pp.136-143, 2005.

S. Han, J. Weaver, S. Murray, X. Kang, and E. Yund, Hemispheric asymmetry in global/local processing: effects of stimulus position and spatial frequency, Neuroimage, vol.17, pp.1290-1299, 2002.

D. H. Weissman and M. G. Woldorff, Hemispheric asymmetries for different components of global/local attention occur in distinct temporo-parietal loci, Cerebral Cortex, vol.15, pp.870-876, 2005.

C. Lemaire, G. R. Moran, and H. Swan, Impact of audio/visual systems on pediatric sedation in magnetic resonance imaging, Journal of Magnetic Resonance Imaging, vol.30, pp.649-655, 2009.

J. Ashburner and K. J. Friston, Voxel-based morphometry-the methods, Neuroimage, vol.11, pp.805-821, 2000.

R. Kimchi and S. Palmer, Form and texture in hierarchically constructed patterns, Journal of Experimental Psychology : Human Perception and Performance, vol.8, pp.521-535, 1982.

C. Peyrin, M. Baciu, C. Segebarth, and C. Marendaz, Cerebral regions and hemispheric specialization for processing spatial frequencies during natural scene recognition. An event-related fMRI study, Neuroimage, vol.23, pp.698-707, 2004.
URL : https://hal.archives-ouvertes.fr/hal-00798639

V. Beaucousin, M. Cassotti, G. Simon, A. Pineau, and M. Kotsova, ERP evidence of a meaningfulness impact on visual global/local processing: When meaning captures attention, Neuropsychologia, vol.49, pp.1258-1266, 2011.

L. Robertson, Attentional persistence for features of hierarchical patterns, journal of Experimantal Psychology: General, vol.125, pp.227-249, 1996.

M. Himmelbach, M. Erb, T. Klockgether, S. Moskau, and H. Karnath, fMRI of global visual perception in simultanagnosia, Neuropsychologia, vol.47, pp.1173-1177, 2009.

W. H. Jung, B. Gu, D. Kang, J. Park, and S. Y. Yoo, BOLD response during visual perception of biological motion in obsessive-compulsive disorder: an fMRI study using the dynamic point-light animation paradigm, European Archives of Psychiatry and Clinical Neuroscience, vol.259, pp.46-54, 2009.

C. Mevorach, G. Humphreys, and L. Shalev, Opposite biases in salience-based selection for the left and right posterior parietal cortex, Nature Neuroscience, vol.9, pp.740-742, 2006.

D. Mobbs, M. A. Eckert, V. Menon, D. Mills, and J. Korenberg, Reduced parietal and visual cortical activation during global processing in Williams syndrome, Developmental Medicine and Child Neurology, vol.49, pp.433-438, 2007.

, Figure 2. 3D rendering (left) and sagittal views (right) show the loss of gray matter volume between the local bias group and global bias group of children. L: left; R: right. For illustrative purposes, the maps were thresholded at p = 0, p.1

J. Pani, C. Mervis, and B. Robinson, Global spatial organization by individuals with Williams syndrome, Psychol Sci, vol.10, pp.453-458, 1999.

N. Poirel, P. Brazo, M. R. Turbelin, L. Lecardeur, and G. Simon, Meaningfulness and global-local processing in schizophrenia, Neuropsychologia, vol.48, pp.3062-3068, 2010.

G. Doniger, J. Foxe, M. Murray, B. Higgins, and D. Javitt, Impaired visual object recognition and dorsal/ventral stream interaction in schizophrenia, Archives of General Psychiatry, vol.59, pp.1011-1020, 2002.

J. L. Rapoport and N. Gogtay, Childhood onset schizophrenia: support for a progressive neurodevelopmental disorder, International Journal of Developmental Neuroscience, vol.29, pp.251-258, 2011.

K. Koffka, Principles of Gestalt psychology, 1935.