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01-01-2006 | Uitgave 1/2006

Impaired Face Processing in Autism: Fact or Artifact?

Tijdschrift:: Journal of Autism and Developmental Disorders > Uitgave 1/2006

Auteurs:: Boutheina Jemel, Laurent Mottron, Michelle Dawson

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Within the last 10 years, there has been an upsurge of interest in face processing abilities in autism which has generated a proliferation of new empirical demonstrations employing a variety of measuring techniques. Observably atypical social behaviors early in the development of children with autism have led to the contention that autism is a condition where the processing of social information, particularly faces, is impaired. While several empirical sources of evidence lend support to this hypothesis, others suggest that there are conditions under which autistic individuals do not differ from typically developing persons. The present paper reviews this bulk of empirical evidence, and concludes that the versatility and abilities of face processing in persons with autism have been underestimated.

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Meer informatie

Adolphs R., Sears L., Piven J., (2001). Abnormal processing of social information from faces in autism Journal of Cognitive Neuroscience, 13: 232–240 PubMed

Adolphs R., Tranel D., Damasio H., Damasio A. R., (1994). Impaired recognition of emotion in facial expressions following bilateral damage to the human amygdala Nature 372: 669–672 PubMed

Akhtari M., Bryant H. C., Mamelak A. N., Flynn E. R., Heller L., Shih J. J., Mandelkern M., Matlachov A., Ranken D. M., Best E. D., Di Mauro M. A., Lee R. R., Sutherling W. W., (2002). Conductivities of three layer live human skull Brain Topography 14: 151–167 PubMed

Bailey A. J., Braeutigam S., Jousmaki V., Swithenby S. J., (2005). Abnormal activation of face processing systems at early and intermediate latency in individuals with autism spectrum disorder: A magnetoencephalographic study European Journal of Neuroscience 21: 2575–2585 PubMed

Banks M., Salapatek P., (1981). Infant pattern vision: A new approach based on the contrast sensory function Journal of Experimental Child Psychology 31: 1–45 PubMed

Baron-Cohen S., Ring H. A., Bullmore E. T., Wheelwright S., Ashwin C., Williams S. C. R., (2000). The amygdala theory of autism Neuroscience and Biobehavioral Reviews 24: 355–364 PubMed

Baron-Cohen S., Ring H. A., Wheelwright S., Bullmore E. T., Brammer M. J., Simmons A., Williams S. C., (1999). Social intelligence in the normal and autistic brain: An fMRI study European Journal of Neuroscience 11: 1891–1898 PubMed

Baron-Cohen S., Spitz A., Cross P., (1993). Can children with autism recognize surprise? Cognition and Emotion 7: 507–516

Baron-Cohen S., Wheelwright S., Jolliffe T., (1997). Is there a “Language of the Eyes”? Evidence from normal adults, and adults with autism or Asperger syndrome Visual Cognition 4: 311–331

Barton J. J., Cherkasova M. V., Hefter R., Cox T. A., O’Connor M., Manoach D. S., (2004). Are patients with social developmental disorders prosopagnosic? Perceptual heterogeneity in the Asperger and socio-emotional processing disorders Brain 127: 1706–1716 PubMed

Batty M., Taylor M. J., (2003). Early processing of the six basic facial emotional expressions Cognitive Brain Research 17: 613–620 PubMed

Behrmann M., Avidan G., Leonard G. L., Kimchi R., Luna B., Humphreys K., Minshew, N. (2006). Configural processing in autism and its relationship to face processing. Neuropsychologia 44: 110–129 PubMed

Bentin S., Deouell L. Y., (2000). Structural encoding and identification in face processing: ERP evidence for separate mechanisms Cognitive Neuropsychology 17: 35–54

Bentin S., Allison T., Puce A., Perez E., McCarthy G., (1996). Electrophysiological studies of face perception in humans Journal of Cognitive Neuroscience 8: 551–565 CrossRef

Bötzel K., Schulze S., Stodieck S. R. G., (1995). Scalp topography and analysis of intracranial sources of face-evoked potentials Experimental Brain Research 104: 134–143

Boucher J., Lewis V., (1992). Unfamiliar face recognition in relatively able autistic children Journal of Child Psychology and Psychiatry 33: 843–859 PubMed

Boucher J., Lewis V., Collis G., (1998). Familiar face and voice matching and recognition in children with autism Journal of Child Psychology and Psychiatry 39: 171–181 PubMed

Brace N. A., Hole G. J., Kemp R. I., Pike G. E., Van Duuren M., Norgate L., (2001). Developmental changes in the effect of inversion: Using a picture book to investigate face recognition Perception 30: 85–94 PubMed

Braverman M., Fein D., Lucci D., Waterhouse L., (1989). Affect comprehension in children with pervasive developmental disorders Journal of Autism and Developmental Disorders 19: 301–316 PubMed

Breiter H. C., Etcoff N. L., Whalen P. J., Kennedy W. A., Rauch S. L., Buckner R. L., Strauss M. M., Hyman S. E., Rosen B. R., (1996). Response and habituation of the human amygdala during visual processing of facial expression Neuron 17: 875–887 PubMed

Carey S., Diamond R., (1977). From piecemeal to configurational representation of faces Science 195: 312–314 PubMed

Carmel D., Bentin S., (2002). Domain specificity versus expertise: Factors influencing distinct processing of faces Cognition 83: 1–29 PubMed

Cassia V. M., Turati C., Simion F., (2004). Can a nonspecific bias toward top-heavy patterns explain newborns’ face preference? Psychological Science 15: 379–383 PubMed

Castelli F., (2005). Understanding emotions from standardized facial expressions in autism and normal development Autism 9: 428–449 PubMed

Cauquil Séverac A., Edmonds G. E., Taylor M. J., (2000). Is the face-sensitive N170 the only ERP not affected by selective attention? NeuroReport 11: 2167–2171

Celani G., Battacchi M. W., Arcidiacono L., (1999). The understanding of the emotional meaning of facial expressions in people with autism Journal of Autism and Developmental Disorders 29: 57–66 PubMed

Chauveau N., Franceries X., Doyon B., Rigaud B., Morucci J. P., Celsis P., (2004). Effects of skull thickness, anisotropy, and inhomogeneity on forward EEG/ERP computations using a spherical three-dimensional resistor mesh model Human Brain Mapping 21: 86–97 PubMed

Cosmelli D., David O., Lachaux J.-P., Martinerie J., Garnero L., Renault B., Varela F., (2004). Waves of consciousness: Ongoing cortical patterns during binocular rivalry NeuroImage 23: 128–140 PubMed

Critchley H. D., Daly E. M., Bullmore E. T., Williams S. C., Van Amelsvoort T., Robertson D. M., Rowe A., Phillips M., McAlonan G., Howlin P., Murphy D. G., (2000). The functional neuroanatomy of social behaviour: Changes in cerebral blood flow when people with autistic disorder process facial expressions Brain 123: 2203–2212 PubMed

Dalton K. M., Nacewicz B. M., Johnstone T., Schaefer H. S., Gernsbacher M. A., Goldsmith H. H., Alexander A. L., Davidson R. J., (2005). Gaze fixation and the neural circuitry of face processing in autism Nature Neuroscience 8: 519–526 PubMed

Damasio A. R., Tranel D., Damasio H., (1990). Face agnosia and the neural substrates of memory Annual Review of Neuroscience 13: 89–109 PubMed

Davies S., Bishop D., Manstead A. S. R., Tantam D., (1994). Face perception in children with autism and Asperger syndrome Journal of Child Psychology and Psychiatry 35: 1033–1057 PubMed

Dawson G., Carver L., Meltzoff A., Panagiotides H., McPartland J., Webb S., (2002). Neural correlates of face and object recognition in young children with autism spectrum disorder, developmental delay, and typical development Child Development 73: 700–717 PubMed

Dawson G., Webb S. J., McPartland J., (2005). Understanding the nature of face processing impairment in autism: Insights from behavioral and electrophysiological studies Development Neuropsychology 27: 403–424

Dawson G., Webb S. J., Carver L., Panagiotides H., McPartland J., (2004). Young children with autism show atypical brain responses to fearful versus neutral facial expressions of emotion Development Science 7: 340–359

de Haan M., Nelson C. A., (1997). Recognition of the mother’s face by six-month-old infants: A neurobehavioral study Child Development 68: 187–210 PubMed

de Haan M., Pascalis O., Johnson M. H., (2002). Specialization of neural mechanisms underlying face recognition in human infants Journal of Cognitive Neuroscience 14: 199–209 PubMed

De Renzi E., (1986). Current issues on Prosopagnosia In H. D. Ellis, M. A. Jeeves, F. Newcombe, A. W. Young, (Eds.), Aspects of face processingMartinus Nijhoff Dordrecht (pp. 243–252)

Deruelle C., Rondan C., Gepner B., Tardif C., (2004). Spatial frequency and face processing in children with autism and Asperger syndrome Journal of Autism and Developmental Disorders 34: 199–210 PubMed

Diamond R., Carey S., (1986). Why faces are and are not special: An effect of expertise Journal of Experimental Psychology: General 115: 107–117

Eimer M., (2000). Event-related brain potentials distinguish processing stages involved in face perception and recognition Clinical Neurophysiology 111: 694–705 PubMed

Ellis H. D., Young A. W., (1998). Faces in their social and biological context In A. W. Young, (Ed.), Face and mind Oxford University Press: New York (pp. 67–95)

Farah M. J., Wilson A. F. W., Drain M., Tanaka J. N., (1998). What is “special” about face perception? Psychological Review 105: 482–498 PubMed

Farah M. J., Wilson K. D., Drain M., Tanaka J. N., (1995). The inverted face inversion effect in prosopagnosia: Evidence for mandatory, face-specific perceptual mechanisms Vision Research 35: 2089–2093 PubMed

Freire A., Lee K., Symons L. A., (2000). The face-inversion effect as a deficit in the encoding of configural information: Direct evidence Perception 29: 159–170 PubMed

Gauthier I., Tarr M. J., (2002). Unraveling mechanisms for expert object recognition: Bridging brain activity and behavior Journal of Experimental Psychology: Human Perception and Performance 28: 431–446 PubMed

Gauthier I., Skudlarski P., Gore J. C., Anderson A. W., (2000). Expertise for cars and birds recruits brain areas involved in face recognition Nature Neuroscience 3: 191–197 PubMed

Gauthier I., Tarr M. J., Anderson A. W., Skudlarski P., Gore J. C., (1999). Activation of the middle fusiform ‘face area’ increases with expertise in recognizing novel objects Nature Neuroscience 2: 568–573 PubMed

George N., Evans J., Fiori N., Davidoff J., Renault B., (1996). Brain events related to normal and moderately scrambled faces Cognitive Brain Research 4: 65–76 PubMed

Gepner B., de Gelder B., de Schonen S., (1996). Face processing in autistics: Evidence for a generalized deficit? Child Neuropsychology 2: 123–139

Gepner B., Deruelle C., Grynfeltt S., (2001). Motion and emotion: A novel approach to the study of face processing by young autistic children Journal of Autism and Developmental Disorders 31: 37–45 PubMed

Goren C., Sarty M., Wu P., (1975). Visual following and pattern discrimination of face-like stimuli by newborn infants Pediatrics 56: 544–549 PubMed

Gorno-Tempini M. L., Price C. J., (2001). Identification of famous faces and buildings: A functional neuroimaging study of semantically unique items Brain 124: 2087–2097 PubMed

Gorno-Tempini M. L., Price C. J., Josephs O., Vandenberghe R., Cappa S. F., Kapur N., Frackowiak R. S. J., (1998). The neural systems sustaining face and proper-name processing Brain 121: 2103–2118 PubMed

Gray C. M., König P., Engel A. K., Singer W., (1989). Oscillatory responses in cat visual cortex exhibit inter-columnar synchronization which reflects global stimulus properties Nature 338: 334–337 PubMed

Grelotti D. J., Gauthier I., Schultz R. T., (2002). Social interest and the development of cortical face specialization: What autism teaches us about face processing Developmental Psychobiology 40: 213–225 PubMed

Grelotti D. J., Klin A., Gauthier I., Skudlarski P., Cohen D. J., Gore J. C., Volkmar F. R., Schultz R. T., (2005). fMRI activation of the fusiform gyrus and amygdala to cartoon characters but not to faces in a boy with autism Neuropsychologia 43: 373–385 PubMed

Grice S. J., Halit H., Farroni T., Baron-Cohen S., Bolton P., Johnson M. H., (2005). Neural correlates of eye-gaze detection in young children with autism Cortex 41: 342–353 PubMed

Grice S. J., Spratling M. W., Karmiloff-Smith A., Halit H., Csibra G., de Haan M., Johnson M. H., (2001). Disordered visual processing and oscillatory brain activity in autism and Williams Syndrome Neuroreport 12: 2697–2700 PubMed

Gross T. F., (2004). The perception of four basic emotions in human and nonhuman faces by children with autism and other developmental disabilities Journal of Abnormal Child Psychology 32: 469–480 PubMed

Grossman J. B., Klin A., Carter A. S., Volkmar F. R., (2000). Verbal bias in recognition of facial emotions in children with Asperger Syndrome Journal of Child Psychology and Psychiatry 41: 369–379 PubMed

Gruber T., Müller M. M., Keil A., (2002). Modulation of induced gamma band responses in a perceptual learning task in the human EEG Journal of Cognitive Neuroscience 14: 732–744 PubMed

Hadjikhani N., Joseph R. M., Snyder J., Chabris C. F., Clark J., Steele S., McGrath L., Vangel M., Aharon I., Feczko E., Harris G. J., Tager-Flusberg H., (2004). Activation of the fusiform gyrus when individuals with autism spectrum disorder view faces NeuroImage 22: 1141–1150 PubMed

Halgren E., Raij T., Marinkovic K., Jousmäki V., Hari R., (2000). Cognitive response profile of the human fusiform area as determined by MEG Cerebral Cortex 10: 69–81 PubMed

Halit H., de Haan M., Johnson M., (2000). Modulation of event-related potentials by prototypical and atypical faces Neuroreport 11: 1871–1875 PubMed

Hall G. B., Szechtman H., Nahmias C., (2003). Enhanced salience and emotion recognition in Autism: A PET study American Journal of Psychiatry 160: 1439–1441 PubMed

Hauck M., Fein D., Maltby N., Waterhouse L., Feinstein C. (1998). Memory for faces in children with autism. Child Neuropsychology, 4: 187–198

Haueisen J., Tuch D. S., Ramon C., Schimpf P. H., Wedeen V. J., George J. S., Belliveau J. W., (2002). The influence of brain tissue anisotropy on human EEG and MEG NeuroImage 15: 159–166 PubMed

Haxby J. V., Hoffman E. A., Gobbini M. I., (2000). The distributed human neural system for face perception Trends in Cognitive Science 4: 223–233

Haxby J. V., Hoffman E. A., Gobbini M. I., (2002). Human neural systems for face recognition and social communication Biological Psychiatry 51: 59–67 PubMed

Henson R., Shallice T., Dolan R., (2000). Neuroimaging evidence for dissociable forms of repetition priming Science 287: 1269–1272 PubMed

Hobson R. P., (1986a). The autistic child’s appraisal of expressions of emotion Journal of Child Psychology and Psychiatry 27: 321–342

Hobson R. P., (1986b). The autistic child’s appraisal of expressions of emotions: A further study Journal of Child Psychology and Psychiatry 27: 671–680

Hobson R. P., (1987). The autistic child’s recognition of age- and sex-related characteristics of people Journal of Autism and Developmental Disorders 17: 63–79 PubMed

Hobson R. P., Ouston J., Lee A., (1988). What’s in a face? The case of autism British Journal of Psychology 79: 441–453 PubMed

Homa D., Haver B., Schwartz T., (1976). Perceptibility of schematic face stimuli: Evidence for a perceptual gestalt Memory and Cognition 4: 176–185

Hubl D., Bölte S., Feineis-Matthews S., Lanfermann H., Federspiel A., Strik W., Poustka F., Dierks T., (2003). Functional imbalance of visual pathways indicates alternative face processing strategies in autism Neurology 61: 1232–1237 PubMed

Itier R. J., Taylor M. J., (2002). Inversion and contrast polarity reversal affect both encoding and recognition processes of unfamiliar faces: A repetition study using ERPs NeuroImage 15: 353–372 PubMed

Jeffreys D. A., (1989). A face-responsive potential recorded from the human scalp Experimental Brain Research 78: 193–202

Jemel B., Pisani M., Calabria M., Crommelinck M., Bruyer R., (2003a). Is the N170 for faces cognitively penetrable? Evidence from repetition priming of Mooney faces of familiar and unfamiliar persons Cognitive Brain Research 17: 431–446

Jemel B., Schuller A. M., Cheref-Khan Y., Goffaux V., Crommelinck M., Bruyer R., (2003b). Stepwise emergence of the face-sensitive N170 event-related potential component Neuroreport 14: 2035–2039

Jemel B., Pisani M., Rousselle L., Crommelinck M., Bruyer R. (2005). Exploring the functional architecture of person recognition system with event-related potentials in a within- and cross-domain priming of faces. Neuropsychologia 43: 2024–2240 PubMed

Joseph R. M., Tanaka J., (2003). Holistic and part-based face recognition in children with autism Journal of Child Psychology and Psychiatry 44: 529–542 PubMed

Kanwisher N., McDermott J., Chun M. M., (1997). The fusiform face area: A module in human extrastriate cortex specialized for face perception Journal of Neuroscience 17: 4302–4311 PubMed

Katanoda K., Yoshikawa K., Sugishita M., (2000). Neural substrates for the recognition of newly learned faces: A functional MRI study Neuropsychologia 38: 1616–1625 PubMed

Kleiner K. A., (1987). Amplitude and phase spectra as indices of infants’ pattern preferences in human infants Journal of Experimental Child Psychology 7: 339–354

Klin A., Jones W., Schultz R., Volkmar F., Cohen D., (2002). Visual fixation patterns during viewing of naturalistic social situations as predictors of social competence in individuals with autism Archives of General Psychiatry 59: 809–816 PubMed

Lachaux J. P., Rodriguez E., Martinerie J., Adam C., Hasboun D., Varela F. J., (2000). A quantitative study of gamma-band activity in human intracranial recordings triggered by visual stimuli European Journal of Neuroscience, 12: 2608–2622 PubMed

Lahaie, A., Mottron, L., Arguin, M., Berthiaume, C., Jemel, B., & Saumier, D. (2006). An investigation of configural and part-based face processing in high-functioning autism. Journal of Neuropsychology, in press

Langdell T., (1978). Recognition of faces: An approach to the study of autism Journal of Child Psychology and Psychiatry 19: 255–268 PubMed

Leder H., Bruce V., (2000). When inverted faces are recognized: The role of configural information in face recognition Quarterly Journal of Experimental Psychology 53A: 513–536

LeDoux J. E., (2000). Emotion circuits in the brain Annual Review of Neuroscience 23: 155–184 PubMed

Levine D. N., Calvanio R., (1989). Prosopagnosia: A defect in visual configural processing Brain and Cognition 10: 149–170 PubMed

Linkenkaer-Hansen K., Palva J. M., Sams M., Hietanen J. K., Aronen H. J., Ilmoniemi R., (1998). Face-selective processing in human extrastriate cortex around 120 ms after stimulus onset revealed by magneto- and electroencephalography Neuroscience Letters 253: 147–150 PubMed

Liu J., Harris A., Kanwisher N., (2002). Stages of processing in face perception: An MEG study Nature Neuroscience 5: 910–916 PubMed

Lopez B., Donnelly N., Hadwin J. A., (2004). Face processing in high-functioning adolescents with autism: Evidence for weak central coherence Visual Cognition 11: 673–688

Maurer D., Young R., (1983). Newborns’ following of natural and distorted arrangements of facial features Infant Behavior and Development 6: 127–131

Maurer D., Le Grand R., Mondloch C. J., (2002). The many faces of configural processing Trends in Cognitive Sciences 6: 255–260 PubMed

McPartland J., Dawson G., Webb S. J., Panagiotides H., Carver L. J., (2004). Event-related brain potentials reveal anomalies in temporal processing of faces in autism spectrum disorder Journal of Child Psychology and Psychiatry 45: 1235–1245 PubMed

Meadows J. C., (1974). The anatomical basis of prosopagnosia Journal of Neurology Neurosurgery and Psychiatry 37: 489–501

Morris J. S., Frith C. D., Perrett D. I., Rowland D., Young A. W., Calder A. J., Dolan R. J., (1996). A differential neural response in the human amygdala to fearful and happy facial expressions Nature 383: 812–815 PubMed

Morton J., Johnson M. H., (1991). CONSPEC and CONLERN: A two-process theory of infant face recognition Psychological Review 2: 164–181

Moscovitch M., Winocur G., Behrmann M., (1997). What is special about face recognition? Nineteen experiments on a person with visual object agnosia and dyslexia but normal face recognition Journal of Cognitive Neuroscience 9: 555–604 CrossRef

Nakamura K., Kawashima R., Sato N., Nakamura A., Sugiura M., Kato T., Hatano K., Ito K., Fukuda H., Schormann T., Zilles K., (2000). Functional delineation of the human occipito-temporal areas related to face and scene processing. A PET study Brain 123: 1903–1912 PubMed

Nelson C. A., de Haan M., (1996). Neural correlates of infants’ visual responsiveness to facial expressions of emotion Developmental Psychobiology 29: 577–595 PubMed

O’Connor K., Hamm J. P., Kirk, I. J. (2005). The neurophysiological correlates of face processing in adults and children with Asperger’s syndrome. Brain and Cognition 59: 89–95 PubMed

Ozonoff S., Pennington B., Rogers S., (1990). Are there specific emotion perception deficits in young autistic children? Journal of Child Psychology and Psychiatry 31: 343–361 PubMed

Pascalis O., de Schonen S., Morton J., Deruelle C., (1995). Mother’s face recognition by neonates: A replication and extension Infant Behavior and Development 18: 79–95

Pascalis O., Demont E., de Haan M., Campbell R., (2001). Recognition of faces of different species: A developmental study between 5 and 8 years of age Infant and Child Development 10: 39–45

Pelphrey K. A., Sasson N. J., Reznick J. S., Paul G., Goldman B. D., Piven J., (2002). Visual scanning of faces in autism Journal of Autism and Developmental Disorders 32: 249–261 PubMed

Picton T. W., Bentin S., Berg P., Donchin E., Hillyard S. A., Johnson J. R. R., Miller G. A., Ritter W., Ruschkin D. S., Rugg M. D., Taylor M. J., (2000). Guidelines for using human event-related potentials to study cognition: Recording standards and publication criteria Psychophysiology 37: 127–152 PubMed

Pierce K., Haist F., Sedaghat F., Courchesne E., (2004). The brain response to personally familiar faces in autism: Findings of fusiform activity and beyond Brain 127: 2703–2716 PubMed

Pierce K., Müller R.-A., Ambrose B. J., Allen G., Courchesne E., (2001). Face processing occurs outside the fusiform face area in autism: Evidence from functional fMRI Brain 124: 2059–2073 PubMed

Piggot J., Kwon H., Mobbs D., Blasey C., Lotspeich L., Menon V., Bookheimer S., Reiss A. L., (2004). Emotional attribution in high-functioning individuals with autistic spectrum disorder: A functional imaging study Journal of the American Academy of Child and Adolescent Psychiatry 43: 473–480 PubMed

Pizzagalli D., Regard M., Lehmann D., (1999). Rapid emotional face processing in the human right and left brain hemispheres: An ERP study Neuroreport 10: 2691–2698 PubMed

Prior M. R., Dahlstrom B., Squires T., (1990). Autistic children’s knowledge of thinking and feeling states in other people Journal of Child Psychology and Psychiatry 31: 587–601 PubMed

Puce A., Allison T., Asgari M., Gore J. C., McCarthy G., (1996). Differential sensitivity of human visual cortex to faces, letterstrings, and texture: A functional magnetic resonance imaging study Journal of Neuroscience 16: 5205–5215 PubMed

Puce A., Allison T., Bentin S., Gore J. C., McCarthy G. T., (1998). Temporal cortex activation in humans viewing eye and mouth movements Journal of Neuroscience 18: 2188–2199 PubMed

Rakover S. S., (2002). Featural vs. configurational information in faces: A conceptual and empirical analysis British Journal of Psychology 93: 1–30 PubMed

Rhodes G., Brake S., Atkinson A. P., (1993). What’s lost in inverted faces? Cognition 47: 25–57 PubMed

Robson M. D., Dorosz J. L., Gore J. C., (1998). Measurements of the temporal fMRI response of the human auditory cortex to trains of tones NeuroImage 7: 185–198 PubMed

Rodriguez E., George N., Lachaux J.-P., Martinerie J., Renault B., Varela F. J., (1999). Perception’s shadow: Long-distance synchronization of human brain activity Nature 397: 430–433 PubMed

Rossion B., Gauthier I., Tarr M. J., Despland P., Bruyer R., Linotte S., Crommelinck M., (2000). The N170 occipito-temporal component is delayed and enhanced to inverted faces but not to inverted objects: An electrophysiological account of face-specific processes in the human brain Neuroreport 11: 69–74 PubMed

Rouse H., Donnelly N., Hadwin J. A., Brown T., (2004). Do children with autism perceive second-order relational features? The case of the Thatcher illusion Journal of Child Psychology and Psychiatry 45: 1246–1257 PubMed

Rush S., Driscoll D. A., (1968). Current distribution in the brain from surface electrodes Anesthesia and Analgesia 47: 717–723 PubMed

Sagiv N., Bentin S., (2001). Structural encoding of human and schematic faces: Holistic and part-based processes Journal of Cognitive Neuroscience 13: 937–951 PubMed

Sams M., Hietanen J. K., Hari R., Ilmoniemi R. J., Lounasmaa O. V., (1997). Face-specific responses from the human inferior occipito-temporal cortex Neuroscience 77: 49–55 PubMed

Schultz R. T., (2005). Developmental deficits in social perception in autism: The role of the amygdala and fusiform face area International Journal of Developmental Neuroscience 23: 125–141 PubMed

Schultz R. T., Gauthier I., Klin A., Fulbright R. K., Anderson A. W., Volkmar F., Skudlarski P., Lacadie C., Cohen D. J., Gore J. C., (2000). Abnormal ventral temporal cortical activity during face discrimination among individuals with autism and Asperger syndrome Archives of General Psychiatry 57: 331–340 PubMed

Schultz, R. T., Win, L., Jackowski, A., Klin, A., Staib, L., Papademetris, X., Babitz, T., Carter, E., Klaiman, C., Fieler, A., & Volkmar, F. (2005). Brain morphology in autism spectrum disorders: An MRI study. Proceedings of International meeting for Autism Research, p. 70

Schweinberger S. R., Pickering E. C., Burton A. M., Kaufmann J. M., (2002). Human brain potential correlates of repetition priming in face and name recognition Neuropsychologia 40: 2057–2073 PubMed

Searcy J. H., Barlett J. C., (1996). Inversion and processing of component and spatial-relational information in faces Journal of Experimental Psychology: Human Perception and Performance 22: 904–915 PubMed

Senju A., Tojo Y., Yaguchi K., Hasegawa T., (2005). Deviant gaze processing in children with autism: An ERP study Neuropsychologia 43: 1297–1306 PubMed

Sergent J., Ohta S., MacDonald B., (1992). Functional neuroanatomy of face and object processing: A positron emission tomography study Brain 115: 15–36 PubMed

Simion F., Cassia V. M., Turati C., Valenza E., (2001). The origins of face perception: Specific versus non-specific mechanisms Infant and Child Development 10: 59–65

Simion F., Valenza E., Umiltà C., Dalla Barba B., (1998). Preferential orienting to faces in newborns: A temporal–nasal asymmetry Journal of Experimental Psychology: Human Perception and Performance 24: 1399–1405 PubMed

Tallon-Baudry C., Bertrand O., Delpuech C., Pernier J., (1997). Oscillatory gamma-band (30–70 Hz) activity induced by a visual search task in human Journal of Neuroscience 17: 722–734 PubMed

Tanaka J. W., (2001). The entry point of face recognition: Evidence for face expertise Journal of Experimental Psychology: General 130: 534–543

Tanaka J. W., Farah M. J., (1993). Parts and wholes in face recognition Quarterly Journal of Experimental Psychology 46A: 225–245

Tanskanen T., Nasanen R., Montez T., Paallysaho J., Hari R., (2005). Face recognition and cortical responses show similar sensitivity to noise spatial frequency Cerebral Cortex 15: 526–534 PubMed

Tantam D., Monagham L., Nicholson H., Stirling J., (1989). Autistic children’s ability to interpret faces: A research note Journal of Child Psychology and Psychiatry 30: 623–630 PubMed

Tarr M. J., Cheng Y. D., (2003). Learning to see faces and objects Trends in Cogitive Sciences 7: 23–30

Taylor M. J., Batty M., Itier R. J., (2004). The faces of development: A review of early face processing over childhood Journal of Cognitive Neuroscience 16: 1426–1442 PubMed

Taylor M. J., McCarthy G., Saliba E., Degiovanni E., (1999). ERP evidence of developmental changes in processing of faces Clinical Neurophysiology 110: 910–915 PubMed

Teunisse J.-P., de Gelder B., (2003). Face processing in adolescents with autistic disorder: The inversion and composite effects Brain and Cognition 52: 285–294 PubMed

Teunisse J.-P., de Gelder B., (1994). Do autistics have a generalized face processing deficit? International Journal of Neuroscience 77: 1–10 PubMedCrossRef

Thompson M. C., (1980). Margaret Thatcher: A new illusion Perception 9: 483–484 PubMed

Valentine T., (1988). Upside-down faces: A review of the effects of inversion upon face recognition British Journal of Psychology 79: 471–491 PubMed

Valenza E., Simion F., Macchi Cassia V., Umiltà C., (1996). Face preference at birth Journal of Experimental Psychology: Human Perception and Performance 22: 892–903 PubMed

van der Geest J. N., Kemner C., Camfferman G., Verbaten M. N., van Engeland H., (2002). Looking at images with human figures: Comparison between autistic and normal children Journal of Autism and Developmental Disorders 32: 69–75 PubMed

Volkmar F., Chawarska K., Klin A., (2005). Autism in infancy and early childhood Annual Review of Psychology 56: 315–336 PubMed

Volkmar F. R., Sparrow S. S., Rende R. D., Cohen D. J., (1989). Facial perception in autism Journal of Child Psychology and Psychiatry 30: 591–598 PubMed

Vuilleumier P., Armony J. L., Driver J., Dolan R. J., (2001). Effects of attention and emotion on face processing in the human brain: An event-related fMRI study Neuron 30: 829–841 PubMed

Waiter G. D., Williams J. H., Murray A. D., Gilchrist A., Perrett D. I., Whiten A., (2004). A voxel-based investigation of brain structure in male adolescents with autistic spectrum disorder NeuroImage 22: 619–625 PubMed

Wang A. T., Dapretto M., Hariri A. R., Sigman M., Bookheimer S. Y., (2004). Neural correlates of facial affect processing in children and adolescents with autism spectrum disorder Journal of the American Academy of Child and Adolescent Psychiatry 43: 481–490 PubMed

Weeks S. J., Hobson R. P., (1987). The salience of facial expression for autistic children Journal of Child Psychology and Psychiatry 28: 137–151 PubMed

Wicker B., Michel F., Henaff M. A., Decety J., (1998). Cerebral structures involved in the perception of gaze: A PET study NeuroImage 8: 221–227 PubMed

Yin R., (1969). Looking at upside-down faces Journal of Experimental Psychology: General 81: 141–145

Titel: Impaired Face Processing in Autism: Fact or Artifact?
Auteurs:: Boutheina Jemel
Laurent Mottron
Michelle Dawson
Publicatiedatum: 01-01-2006
DOI: https://doi.org/10.1007/s10803-005-0050-5
Uitgeverij: Springer US
Tijdschrift: Journal of Autism and Developmental Disorders
Uitgave 1/2006
Print ISSN: 0162-3257
Elektronisch ISSN: 1573-3432

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