Clinical trial NCT02840305 - References

Healthy Volunteer — Brain Bases of Natural Scenes's Visual Perception of Natural Scenes

Citation(s)

•   Bar M, Aminoff E, Schacter DL
  Scenes unseen: the parahippocampal cortex intrinsically subserves contextual associations, not scenes or places per se. J Neurosci. 2008 Aug 20;28(34):8539-44. doi: 10.1523/JNEUROSCI.0987-08.2008.
•   Epstein R, Kanwisher N
  A cortical representation of the local visual environment. Nature. 1998 Apr 9;392(6676):598-601.
•   Epstein RA, Ward EJ
  How reliable are visual context effects in the parahippocampal place area? Cereb Cortex. 2010 Feb;20(2):294-303. doi: 10.1093/cercor/bhp099.
•   Guérin-Dugué, A
  , & Oliva, A. (1999). Natural images classification from distributions of local dominant orientations, 11th Scandinavian Conference on Image Analysis SCIA'99.
•   Guérin-Dugué, A
  , & Oliva, A. (2000). Classification of scene photographs from local orientations features. Pattern Recognition Letters, 21, 1135-1140.
•   Hegdé J
  Time course of visual perception: coarse-to-fine processing and beyond. Prog Neurobiol. 2008 Apr;84(4):405-39. Review.
•   Hérault, J
  , Oliva, A., & Guérin-Dugué, A. (1997). Scene categorisation by curvilinear component analysis of low frequency spectra. Paper presented at the IANN'97, Bruges
•   Houdé O, Pineau A, Leroux G, Poirel N, Perchey G, Lanoë C, Lubin A, Turbelin MR, Rossi S, Simon G, Delcroix N, Lamberton F, Vigneau M, Wisniewski G, Vicet JR, Mazoyer B
  Functional magnetic resonance imaging study of Piaget's conservation-of-number task in preschool and school-age children: a neo-Piagetian approach. J Exp Child Psychol. 2011 Nov;110(3):332-46. doi: 10.1016/j.jecp.2011.04.008.
•   Hubel DH, Wiesel TN
  Ferrier lecture. Functional architecture of macaque monkey visual cortex. Proc R Soc Lond B Biol Sci. 1977 Jul 28;198(1130):1-59. Review.
•   Hughes HC, Nozawa G, Kitterle F
  Global precedence, spatial frequency channels, and the statistics of natural images. J Cogn Neurosci. 1996 Summer;8(3):197-230. doi: 10.1162/jocn.1996.8.3.197.
•   Kimchi R
  Primacy of wholistic processing and global/local paradigm: a critical review. Psychol Bull. 1992 Jul;112(1):24-38. Review.
•   Lamb MR, Yund EW
  The role of spatial frequency in the processing of hierarchically organized stimuli. Percept Psychophys. 1993 Dec;54(6):773-84.
•   Lux S, Marshall JC, Thimm M, Fink GR
  Differential processing of hierarchical visual stimuli in young and older healthy adults: implications for pathology. Cortex. 2008 Jan;44(1):21-8. doi: 10.1016/j.cortex.2005.08.001.
•   Monoyer, F
  (1875). Echelle typographique pour la détermination de l'acuité visuelle. (Acad. des Sciences, Comptes rendus). Gaz. Méd. De Paris, 80, 113.
•   Musel B, Chauvin A, Guyader N, Chokron S, Peyrin C
  Is coarse-to-fine strategy sensitive to normal aging? PLoS One. 2012;7(6):e38493. doi: 10.1371/journal.pone.0038493.
•   Navon, D
  (1977). Forest before trees: the precedence of global features in visual perception. Cognitive Psychology, 9, 353-383.
•   Oken BS, Kishiyama SS, Kaye JA, Jones DE
  Age-related differences in global-local processing: stability of laterality differences but disproportionate impairment in global processing. J Geriatr Psychiatry Neurol. 1999 Summer;12(2):76-81.
•   Oliva A, Schyns PG
  Coarse blobs or fine edges? Evidence that information diagnosticity changes the perception of complex visual stimuli. Cogn Psychol. 1997 Oct;34(1):72-107.
•   Oliva, A
  (1995). Perception de scènes: Traitement fréquentiel du signal visuel aspects psychophysiques et neurophysiologiques. Institut National Polytechnique, Grenoble.
•   Park S, Brady TF, Greene MR, Oliva A
  Disentangling scene content from spatial boundary: complementary roles for the parahippocampal place area and lateral occipital complex in representing real-world scenes. J Neurosci. 2011 Jan 26;31(4):1333-40. doi: 10.1523/JNEUROSCI.3885-10.2011.
•   Pelli, D
  G., Robson, J. G., & Wilkins, A. J. (1988). The design of a new letter chart for measuring contrast sensitivity. Clinical Vision Sciences, 2(3), 187-199.
•   Peyrin C, Baciu M, Segebarth C, Marendaz C
  Cerebral regions and hemispheric specialization for processing spatial frequencies during natural scene recognition. An event-related fMRI study. Neuroimage. 2004 Oct;23(2):698-707.
•   Peyrin C, Chauvin A, Chokron S, Marendaz C
  Hemispheric specialization for spatial frequency processing in the analysis of natural scenes. Brain Cogn. 2003 Nov;53(2):278-82.
•   Peyrin C, Chokron S, Guyader N, Gout O, Moret J, Marendaz C
  Neural correlates of spatial frequency processing: A neuropsychological approach. Brain Res. 2006 Feb 16;1073-1074:1-10.
•   Peyrin C, Mermillod M, Chokron S, Marendaz C
  Effect of temporal constraints on hemispheric asymmetries during spatial frequency processing. Brain Cogn. 2006 Dec;62(3):214-20.
•   Peyrin C, Michel CM, Schwartz S, Thut G, Seghier M, Landis T, Marendaz C, Vuilleumier P
  The neural substrates and timing of top-down processes during coarse-to-fine categorization of visual scenes: a combined fMRI and ERP study. J Cogn Neurosci. 2010 Dec;22(12):2768-80. doi: 10.1162/jocn.2010.21424.
•   Peyrin C, Schwartz S, Seghier M, Michel C, Landis T, Vuilleumier P
  Hemispheric specialization of human inferior temporal cortex during coarse-to-fine and fine-to-coarse analysis of natural visual scenes. Neuroimage. 2005 Nov 1;28(2):464-73.
•   Poirel N, Mellet E, Houdé O, Pineau A
  First came the trees, then the forest: developmental changes during childhood in the processing of visual local-global patterns according to the meaningfulness of the stimuli. Dev Psychol. 2008 Jan;44(1):245-53. doi: 10.1037/0012-1649.44.1.245.
•   Poirel N, Simon G, Cassotti M, Leroux G, Perchey G, Lanoë C, Lubin A, Turbelin MR, Rossi S, Pineau A, Houdé O
  The shift from local to global visual processing in 6-year-old children is associated with grey matter loss. PLoS One. 2011;6(6):e20879. doi: 10.1371/journal.pone.0020879.
•   Schyns PG, Oliva A
  Dr. Angry and Mr. Smile: when categorization flexibly modifies the perception of faces in rapid visual presentations. Cognition. 1999 Jan 1;69(3):243-65.
•   Schyns PG, Oliva A
  Flexible, diagnosticity-driven, rather than fixed, perceptually determined scale selection in scene and face recognition. Perception. 1997;26(8):1027-38. Review.
•   Schyns, P
  G., & Oliva, A. (1994). From blobs to boundary edges: Evidence for time- and spatial-scale-dependant scene recognition. American Psychological Society, 5, 195-200.
•   Shulman GL, Sullivan MA, Gish K, Sakoda WJ
  The role of spatial-frequency channels in the perception of local and global structure. Perception. 1986;15(3):259-73.
•   Shulman GL, Wilson J
  Spatial frequency and selective attention to local and global information. Perception. 1987;16(1):89-101.
•   Staudinger MR, Fink GR, Mackay CE, Lux S
  Gestalt perception and the decline of global precedence in older subjects. Cortex. 2011 Jul-Aug;47(7):854-62. doi: 10.1016/j.cortex.2010.08.001.
•   Van Essen, D
  C., & DeYoe, E. A. (1995). Concurrent processing in the primate visual cortex. In M. Gazzaniga (Ed.), The cognitive Neurosciences (pp. 383-400). Cambridge: Bradford Book.
•   Vasseur F, Delon-Martin C, Bordier C, Warnking J, Lamalle L, Segebarth C, Dojat M
  fMRI retinotopic mapping at 3 T: benefits gained from correcting the spatial distortions due to static field inhomogeneity. J Vis. 2010 Oct 26;10(12):30. doi: 10.1167/10.12.30.
•   Warnking J, Dojat M, Guérin-Dugué A, Delon-Martin C, Olympieff S, Richard N, Chéhikian A, Segebarth C
  fMRI retinotopic mapping--step by step. Neuroimage. 2002 Dec;17(4):1665-83.

Brain Bases of Visual Perceptionnatural Scenes of Natural Scenes.

Details for clinical trial NCT02840305