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U. Frith, F. Happé (1994)
Autism: beyond “theory of mind”Cognition, 50
(1998)
Standard progressive matrices raven manual: Section 3
A. Bertone, L. Mottron, Patricia Jelenic, J. Faubert (2005)
Enhanced and diminished visuo-spatial information processing in autism depends on stimulus complexity.Brain : a journal of neurology, 128 Pt 10
(1994)
Autism Diagnos
C. Boomen, M. Smagt, Chantal Kemner (2012)
Keep Your Eyes on Development: The Behavioral and Neurophysiological Development of Visual Mechanisms Underlying Form ProcessingFrontiers in Psychiatry, 3
S. Dakin, U. Frith (2005)
Vagaries of Visual Perception in AutismNeuron, 48
H. Leonard, D. Annaz, A. Karmiloff-Smith, Mark Johnson (2013)
Reduced Reliance on Optimal Facial Information for Identity Recognition in Autism Spectrum DisorderJournal of Cognition and Development, 14
(2009)
Vision in autism spectrum disor
H. Leonard, D. Annaz, A. Karmiloff-Smith, Mark Johnson (2011)
Brief Report: Developing Spatial Frequency Biases for Face Recognition in Autism and Williams SyndromeJournal of Autism and Developmental Disorders, 41
K. Plaisted, Michelle O'riordan, S. Baron-Cohen (1998)
Enhanced visual search for a conjunctive target in autism: a research note.Journal of child psychology and psychiatry, and allied disciplines, 39 5
(1994)
Autism Diagnostic InterviewRevised : A revised version of a diagnostic interview for caregivers of individuals with possible pervasive developmental disorders
Satoshi Tsukamoto, Taichi Hara, Atsushi Yamamoto, S. Kito, N. Minami, T. Kubota, Ken Sato, T. Kokubo (2014)
CORRIGENDUM: Fluorescence-based visualization of autophagic activity predicts mouse embryo viabilityScientific Reports, 4
H. Leonard, A. Karmiloff-Smith, Mark Johnson (2010)
The development of spatial frequency biases in face recognition.Journal of experimental child psychology, 106 4
S. Leat, Naveen Yadav, E. Irving (2009)
Development of Visual Acuity and Contrast Sensitivity in ChildrenJournal of Optometry, 2
M. Thomas, D. Annaz, D. Ansari, G. Scerif, C. Jarrold, A. Karmiloff-Smith (2009)
Using developmental trajectories to understand developmental disorders.Journal of speech, language, and hearing research : JSLHR, 52 2
J. Dickinson, Limin Han, Jason Bell, D. Badcock (2010)
Local motion effects on form in radial frequency patterns.Journal of vision, 10 3
N. Costen, D. Parker, I. Craw (1996)
Effects of high-pass and low-pass spatial filtering on face identificationPerception & Psychophysics, 58
Hwan Koh, E. Milne, K. Dobkins (2010)
Spatial Contrast Sensitivity in Adolescents with Autism Spectrum DisordersJournal of Autism and Developmental Disorders, 40
E. Barbeau, I. Soulières, Michelle Dawson, T. Zeffiro, L. Mottron (2013)
The level and nature of autistic intelligence III: Inspection time.Journal of abnormal psychology, 122 1
(2014)
Larger extrastriate population receptive
(2000)
Diagnostic and Statistical Manual Of Mental Disorders DSM-IV-TR Washington
(1980)
trast sensitivity in children and adults
Caroline Robertson, Dwight Kravitz, J. Freyberg, S. Baron-Cohen, C. Baker (2013)
Tunnel Vision: Sharper Gradient of Spatial Attention in AutismThe Journal of Neuroscience, 33
M. Bar (2004)
Visual objects in contextNature Reviews Neuroscience, 5
A. Shah, U. Frith (1983)
An islet of ability in autistic children: a research note.Journal of child psychology and psychiatry, and allied disciplines, 24 4
R. Woods, J. Wood (1995)
The role of contrast sensitivity charts and contrast letter charts in clinical practiceClinical and Experimental Optometry, 78
R. Joseph, B. Keehn, Christine Connolly, J. Wolfe, T. Horowitz (2009)
Why is visual search superior in autism spectrum disorder?Developmental science, 12 6
(2010)
Associating Neural Alterations and Genotype
M. Behrmann, Galia Avidan, G. Leonard, R. Kimchi, B. Luna, Kate Humphreys, N. Minshew (2006)
Configural processing in autism and its relationship to face processingNeuropsychologia, 44
Pinchen Yang, C. Cheng, Chen-Lin Chang, Tai-Ling Liu, Hsiu‐Yi Hsu, C. Yen (2013)
Wechsler Intelligence Scale for Children 4th edition‐Chinese version index scores in Taiwanese children with attention‐deficit/hyperactivity disorderPsychiatry and Clinical Neurosciences, 67
M. Jonge, C. Kemner, E. Haan, J. Coppens, T. Berg, H. Engeland (2007)
Visual information processing in high-functioning individuals with autism spectrum disorders and their parents.Neuropsychology, 21 1
C. Owsley, R. Sekuler, D. Siemsen (1982)
Contrast sensitivity throughout adulthoodVision Research, 23
Sae Kaneko, I. Murakami (2012)
Flashed stimulation produces strong simultaneous brightness and color contrast.Journal of vision, 12 12
D. Wechsler (2003)
Wechsler intelligence scale for children
D. Ellemberg, T. Lewis, C. Liu, D. Maurer (1999)
Development of spatial and temporal vision during childhoodVision Research, 39
M. Tops, Femke Buisman-Pijlman, Maarten Boksem, A. Wijers, J. Korf (2012)
Cortisol-Induced Increases of Plasma Oxytocin Levels Predict Decreased Immediate Free Recall of Unpleasant WordsFrontiers in Psychiatry, 3
C. Lord, S. Risi, Linda Lambrecht, E. Cook, B. Leventhal, Pamela DiLavore, A. Pickles, M. Rutter (2000)
The Autism Diagnostic Observation Schedule—Generic: A Standard Measure of Social and Communication Deficits Associated with the Spectrum of AutismJournal of Autism and Developmental Disorders, 30
A. Bertone, Julie Hanck, C. Kogan, A. Chaudhuri, K. Cornish (2010)
Associating Neural Alterations and Genotype in Autism and Fragile X Syndrome: Incorporating Perceptual Phenotypes in Causal ModelingJournal of Autism and Developmental Disorders, 40
Benoit Hammarrenger, F. Lepore, S. Lippé, Mélanie Labrosse, J. Guillemot, M. Roy (2003)
Magnocellular and parvocellular developmental course in infants during the first year of lifeDocumenta Ophthalmologica, 107
R. Adams, M. Courage (2002)
Using a single test to measure human contrast sensitivity from early childhood to maturityVision Research, 42
J. Badcock, Felicity Whitworth, D. Badcock, W. Lovegrove (1990)
Low-Frequency Filtering and the Processing of Local—Global StimuliPerception, 19
L. Mottron, J. Burack (2001)
Enhanced perceptual functioning in the development of autism.
(2011)
Wechsler abbreviated scale of intelligence-II
(2010)
VEP contrast sensitivity responses
Amitta Shah, U. Frith (1993)
Why do autistic individuals show superior performance on the block design task?Journal of child psychology and psychiatry, and allied disciplines, 34 8
(2009)
Why is visual search superior
C. Lord, M. Rutter, A. Couteur (1994)
Autism Diagnostic Interview-Revised: A revised version of a diagnostic interview for caregivers of individuals with possible pervasive developmental disordersJournal of Autism and Developmental Disorders, 24
A. Patel, D. Maurer, T. Lewis (2010)
The development of spatial frequency discrimination.Journal of vision, 10 14
J. Gwiazda, J. Bauer, F. Thorn, R. Held (1997)
Development of Spatial Contrast Sensitivity from Infancy to Adulthood: Psychophysical DataOptometry and Vision Science, 74
L. Kéïta, Jacalyn Guy, C. Berthiaume, L. Mottron, A. Bertone (2014)
An early origin for detailed perception in Autism Spectrum Disorder: biased sensitivity for high-spatial frequency information.Scientific Reports, 4
(2006)
The weak coherence
Petra Vlamings, L. Jonkman, E. Daalen, R. Gaag, C. Kemner (2010)
Basic Abnormalities in Visual Processing Affect Face Processing at an Early Age in Autism Spectrum DisorderBiological Psychiatry, 68
(2010)
Basic abnormalities in INSAR
C. Kemner, H. Engeland (2006)
ERPs and Eye Movements Reflect Atypical Visual Perception in Pervasive Developmental DisorderJournal of Autism and Developmental Disorders, 36
(2000)
The autism diagnostic
B. Jemel, D. Mimeault, D. Saint-Amour, Anthony Hosein, L. Mottron (2010)
VEP contrast sensitivity responses reveal reduced functional segregation of mid and high filters of visual channels in autism.Journal of vision, 10 6
L. Beazley, D. Illingworth, A. Jahn, D. Greer (1980)
Contrast sensitivity in children and adults.British Journal of Ophthalmology, 64
(2000)
Diagnostic and Statistical Manual Of Mental Disorders DSM‐IV‐TR
Julie Hanck, K. Cornish, A. Perreault, C. Kogan, A. Bertone (2012)
Using detection or identification paradigms when assessing visual development: is a shift in paradigm necessary?Journal of vision, 12 6
D. Schwarzkopf, E. Anderson, E. Anderson, B. Haas, Sarah White, G. Rees (2014)
Larger Extrastriate Population Receptive Fields in Autism Spectrum DisordersThe Journal of Neuroscience, 34
Michelle Dawson, I. Soulières, Morton Gernsbacher, L. Mottron (2007)
The Level and Nature of Autistic IntelligencePsychological Science, 18
(2005)
Vagaries of visual perception
M. Caron, L. Mottron, C. Berthiaume, Michelle Dawson (2006)
Cognitive mechanisms, specificity and neural underpinnings of visuospatial peaks in autism.Brain : a journal of neurology, 129 Pt 7
D. Simmons, Ashley Robertson, Lawrie McKay, E. Toal, P. McAleer, F. Pollick (2009)
Vision in autism spectrum disordersVision Research, 49
M. Boeschoten, C. Kemner, C. Kemner, J. Kenemans, H. Engeland (2005)
The relationship between local and global processing and the processing of high and low spatial frequencies studied by event-related potentials and source modeling.Brain research. Cognitive brain research, 24 2
A. Bertone, L. Mottron, Patricia Jelenic, J. Faubert (2003)
Motion Perception in Autism: A Complex IssueJournal of Cognitive Neuroscience, 15
G. Benedek, K. Benedek, S. Kéri, M. Janáky (2003)
The scotopic low-frequency spatial contrast sensitivity develops in children between the ages of 5 and 14 yearsNeuroscience Letters, 345
Heidi Ham, A. Bartolo, M. Corley, Gnanathusharan Rajendran, A. Szabo, S. Swanson (2011)
Exploring the Relationship Between Gestural Recognition and Imitation: Evidence of Dyspraxia in Autism Spectrum DisordersJournal of Autism and Developmental Disorders, 41
J. Constantino, C. Gruber (2005)
The Social Responsiveness Scale
E. Milne, A. Scope, O. Pascalis, D. Buckley, S. Makeig (2009)
Independent Component Analysis Reveals Atypical Electroencephalographic Activity During Visual Perception in Individuals with AutismBiological Psychiatry, 65
V. Goffaux, Barbara Hault, C. Michel, Q. Vuong, B. Rossion (2005)
The Respective Role of Low and High Spatial Frequencies in Supporting Configural and Featural Processing of FacesPerception, 34
F. Pei, S. Baldassi, A. Norcia (2014)
Electrophysiological measures of low-level vision reveal spatial processing deficits and hemispheric asymmetry in autism spectrum disorder.Journal of vision, 14 11
Lewis Harvey (1997)
Efficient estimation of sensory thresholds with ML-PEST.Spatial vision, 11 1
D. Annaz, A. Karmiloff-Smith, Mark Johnson, M. Thomas (2009)
A cross-syndrome study of the development of holistic face recognition in children with autism, Down syndrome, and Williams syndrome.Journal of experimental child psychology, 102 4
(2006)
ERPs and eye
M. Boeschoten, J. Kenemans, H. Engeland, C. Kemner, C. Kemner (2007)
Abnormal spatial frequency processing in high-functioning children with pervasive developmental disorder (PDD)Clinical Neurophysiology, 118
T. Lewis, Andrea Kingdon, D. Ellemberg, D. Maurer (2007)
Orientation discrimination in 5-year-olds and adults tested with luminance-modulated and contrast-modulated gratings.Journal of vision, 7 4
(2007)
Visual information processing in high-functioning individuals with autism spectrum disorders
F. Happé, U. Frith (2006)
The Weak Coherence Account: Detail-focused Cognitive Style in Autism Spectrum DisordersJournal of Autism and Developmental Disorders, 36
L. Mottron, J. Burack (2001)
The development of autism: Perspectives from theory and research
M. Behrmann, Cibu Thomas, Kate Humphreys (2006)
Seeing it differently: visual processing in autismTrends in Cognitive Sciences, 10
L. Mottron, Michelle Dawson, I. Soulières, B. Hubert, J. Burack (2006)
Enhanced Perceptual Functioning in Autism: An Update, and Eight Principles of Autistic PerceptionJournal of Autism and Developmental Disorders, 36
Autism Spectrum Disorder (ASD) is characterized by a detail‐driven visual processing strategy, evidence for which has been based largely on cross‐sectional studies in small participant groups of limited age ranges. It is therefore unknown when sensitivity to detailed information emerges and develops in ASD. Contrast sensitivity to sinusoidal gratings of different spatial frequencies (0.5, 1, 2, 4, and 8 cycles per degree (cpd)) was measured for 34 participants with ASD and 55 typically developing participants (aged 6–16 years). Cross‐sectional, developmental trajectories were constructed to examine within and between group differences across the range of spatial frequencies tested. Developmental trajectories indicated that sensitivity across low (i.e., 0.5 and 1 cpd) and mid (2 and 4 cpd) spatial frequencies varied by chronological age within each group, with mid frequencies developing at a more significant rate than low frequencies. There was no overall difference between groups in terms of the relationship of sensitivity and age across spatial frequencies, yet the ASD group had an overall lower level of sensitivity. Closer examination revealed that the youngest participants with ASD had a reduced sensitivity for mid frequencies. Moreover, the ASD group showed a statistically significant developmental relationship at 8 cpd, which suggests that a trend for increased sensitivity to early detailed information may manifest beyond the ages tested. These findings demonstrate a differential development of contrast sensitivity for spatial frequencies in ASD and underscore the need to better identify what drives such differences in the “building blocks” of visual perception. Autism Res 2016, 9: 866–878. © 2015 International Society for Autism Research, Wiley Periodicals, Inc.
Autism Research – Wiley
Published: Aug 1, 2016
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