1. Eckstein MK, Guerra-Carrillo B, Singley ATM, Bunge SA. Beyond eye gaze: What else can eyetracking reveal about cognition and cognitive development? Developmental cognitive neuroscience. 2017;25:69-91.
2. Yarbus AL. Eye Movements During Perception of Complex Objects. Eye Movements and Vision. New York: Plenum Press; 1967.
3. Theeuwes J, Belopolsky A, Olivers CN. Interactions between working memory, attention and eye movements. Acta Psychol (Amst). 2009;132(2):106-14.
4. Thomas LE, Lleras A. Moving eyes and moving thought: on the spatial compatibility between eye movements and cognition. Psychon Bull Rev. 2007;14(4):663-8.
5. Van der Stigchel S, Meeter M, Theeuwes J. Eye movement trajectories and what they tell us. Neurosci Biobehav Rev. 2006;30(5):666-79.
6. Just MA, Carpenter PA. Eye fixations and cognitive processes. 1975.
7. Awh E, Armstrong KM, Moore T. Visual and oculomotor selection: links, causes and implications for spatial attention. Trends Cogn Sci. 2006;10(3):124-30.
8. Grosbras MH, Laird AR, Paus T. Cortical regions involved in eye movements, shifts of attention, and gaze perception. Hum Brain Mapp. 2005;25(1):140-54.
9. Luna B, Velanova K, Geier CF. Development of eye-movement control. Brain Cogn. 2008;68(3):293-308.
10. Hoppe D, Rothkopf CA. Learning rational temporal eye movement strategies. Proc Natl Acad Sci U S A. 2016;113(29):8332-7.
11. Vullings C, Madelain L. Control of saccadic latency in a dynamic environment: allocation of saccades in time follows the matching law. J Neurophysiol. 2018;119(2):413-21.
12. Sabatinelli D, Fortune EE, Li Q, Siddiqui A, Krafft C, Oliver WT, et al. Emotional perception: meta-analyses of face and natural scene processing. Neuroimage. 2011;54(3):2524-33.
13. Yucel GH, Belger A, Bizzell J, Parlier M, Adolphs R, Piven J. Abnormal neural activation to faces in the parents of children with autism. Cereb Cortex. 2015;25(12):4653-66.
14. Dalton KM, Nacewicz BM, Johnstone T, Schaefer HS, Gernsbacher MA, Goldsmith HH, et al. Gaze fixation and the neural circuitry of face processing in autism. Nat Neurosci. 2005;8(4):519-26.
15. Adolphs R. What does the amygdala contribute to social cognition? Ann N Y Acad Sci. 2010;1191:42-61.
16. Kanwisher N, McDermott J, Chun MM. The fusiform face area: a module in human extrastriate cortex specialized for face perception. J Neurosci. 1997;17(11):4302-11.
17. Klin A, Jones W, Schultz R, Volkmar F, Cohen D. Visual fixation patterns during viewing of naturalistic social situations as predictors of social competence in individuals with autism. Arch Gen Psychiatry. 2002;59(9):809-16.
18. Pelphrey KA, Sasson NJ, Reznick JS, Paul G, Goldman BD, Piven J. Visual scanning of faces in autism. J Autism Dev Disord. 2002;32(4):249-61.
19. Klin A, Jones W, Schultz R, Volkmar F, Cohen D. Defining and quantifying the social phenotype in autism. Am J Psychiatry. 2002;159(6):895-908.
20. Chita-Tegmark M. Social attention in ASD: a review and meta-analysis of eye-tracking studies. Res Dev Disabil. 2016;48:79-93.
21. Frazier TW, Strauss M, Klingemier EW, Zetzer EE, Hardan AY, Eng C, et al. A meta-analysis of gaze differences to social and nonsocial information between individuals with and without autism. J Am Acad Child Adolesc Psychiatry. 2017;56(7):546-55.
22. Papagiannopoulou EA, Chitty KM, Hermens DF, Hickie IB, Lagopoulos J. A systematic review and meta-analysis of eye-tracking studies in children with autism spectrum disorders. Soc Neurosci. 2014;9(6):610-32.
23. Lee M, Nayar K, Maltman N, Hamburger D, Martin GE, Gordon PC, et al. Understanding social communication differences in autism spectrum disorder and first-degree relatives: a study of looking and speaking. J Autism Dev Disord. 2019.
24. Navab A, Gillespie‐Lynch K, Johnson SP, Sigman M, Hutman T. Eye‐Tracking as a measure of responsiveness to joint attention in infants at risk for autism. Infancy. 2012;17(4):416-31.
25. Righi G, Tenenbaum EJ, McCormick C, Blossom M, Amso D, Sheinkopf SJ. Sensitivity to audio-visual synchrony and its relation to language abilities in children with and without ASD. Autism Res. 2018;11(4):645-53.
26. Speer LL, Cook AE, McMahon WM, Clark E. Face processing in children with autism: effects of stimulus contents and type. Autism. 2007;11(3):265-77.
27. Nayar K, Gordon PC, Martin GE, Hogan AL, La Valle C, McKinney W, et al. Links between looking and speaking in autism and first-degree relatives: insights into the expression of genetic liability to autism. Mol Autism. 2018;9:51.
28. Sasson NJ, Turner-Brown LM, Holtzclaw TN, Lam KS, Bodfish JW. Children with autism demonstrate circumscribed attention during passive viewing of complex social and nonsocial picture arrays. Autism Res. 2008;1(1):31-42.
29. Chawarska K, Shic F. Looking but not seeing: atypical visual scanning and recognition of faces in 2 and 4-year-old children with autism spectrum disorder. J Autism Dev Disord. 2009;39(12):1663-72.
30. Falck-Ytter T, Fernell E, Gillberg C, von Hofsten C. Face scanning distinguishes social from communication impairments in autism. Dev Sci. 2010;13(6):864-75.
31. Jones W, Carr K, Klin A. Absence of preferential looking to the eyes of approaching adults predicts level of social disability in 2-year-old toddlers with autism spectrum disorder. Arch Gen Psychiatry. 2008;65(8):946-54.
32. Nakano T, Tanaka K, Endo Y, Yamane Y, Yamamoto T, Nakano Y, et al. Atypical gaze patterns in children and adults with autism spectrum disorders dissociated from developmental changes in gaze behaviour. Proc Biol Sci. 2010;277(1696):2935-43.
33. Chawarska K, Volkmar F, Klin A. Limited attentional bias for faces in toddlers with autism spectrum disorders. Arch Gen Psychiatry. 2010;67(2):178-85.
34. Klin A, Jones W. Altered face scanning and impaired recognition of biological motion in a 15-month-old infant with autism. Dev Sci. 2008;11(1):40-6.
35. Klin A, Lin DJ, Gorrindo P, Ramsay G, Jones W. Two-year-olds with autism orient to non-social contingencies rather than biological motion. Nature. 2009;459(7244):257-61.
36. Shic F, Bradshaw J, Klin A, Scassellati B, Chawarska K. Limited activity monitoring in toddlers with autism spectrum disorder. Brain Res. 2011;1380:246-54.
37. Unruh KE, Sasson NJ, Shafer RL, Whitten A, Miller SJ, Turner-Brown L, et al. Social orienting and attention is influenced by the presence of competing nonsocial information in adolescents with autism. Front Neurosci. 2016;10:586.
38. Wang Q, Campbell DJ, Macari SL, Chawarska K, Shic F. Operationalizing atypical gaze in toddlers with autism spectrum disorders: a cohesion-based approach. Mol Autism. 2018;9:25.
39. Chevallier C, Parish-Morris J, McVey A, Rump KM, Sasson NJ, Herrington JD, et al. Measuring social attention and motivation in autism spectrum disorder using eye-tracking: Stimulus type matters. Autism Res. 2015;8(5):620-8.
40. Chawarska K, Macari S, Shic F. Context modulates attention to social scenes in toddlers with autism. J Child Psychol Psychiatry. 2012;53(8):903-13.
41. Shic F, Chawarska K, Bradshaw J, Scassellati B. Autism, Eye-Tracking, Entropy. 2008 Ieee 7th International Conference on Development and Learning2008. p. 73-8.
42. Constantino JN, Kennon-McGill S, Weichselbaum C, Marrus N, Haider A, Glowinski AL, et al. Infant viewing of social scenes is under genetic control and is atypical in autism. Nature. 2017;547(7663):340-4.
43. Ettinger U, Kumari V, Crawford TJ, Corr PJ, Das M, Zachariah E, et al. Smooth pursuit and antisaccade eye movements in siblings discordant for schizophrenia. J Psychiatr Res. 2004;38(2):177-84.
44. Gottesman II, Gould TD. The endophenotype concept in psychiatry: etymology and strategic intentions. Am J Psychiatry. 2003;160(4):636-45.
45. Bradshaw J, Shic F, Holden AN, Horowitz EJ, Barrett AC, German TC, et al. The use of eye tracking as a biomarker of treatment outcome in a pilot randomized clinical trial for young children with autism. Autism Res. 2019;12(5):779-93.
46. Murias M, Major S, Davlantis K, Franz L, Harris A, Rardin B, et al. Validation of eye-tracking measures of social attention as a potential biomarker for autism clinical trials. Autism Res. 2018;11(1):166-74.
47. Pierce K, Marinero S, Hazin R, McKenna B, Barnes CC, Malige A. Eye tracking reveals abnormal visual preference for geometric images as an early biomarker of an autism spectrum disorder subtype associated with increased symptom severity. Biol Psychiatry. 2016;79(8):657-66.
48. Adolphs R, Spezio ML, Parlier M, Piven J. Distinct face-processing strategies in parents of autistic children. Curr Biol. 2008;18(14):1090-3.
49. Losh M, Childress D, Lam K, Piven J. Defining key features of the broad autism phenotype: a comparison across parents of multiple- and single-incidence autism families. Am J Med Genet B Neuropsychiatr Genet. 2008;147B(4):424-33.
50. Losh M, Piven J. Social-cognition and the broad autism phenotype: identifying genetically meaningful phenotypes. J Child Psychol Psychiatry. 2007;48(1):105-12.
51. Groen WB, Rommelse N, de Wit T, Zwiers MP, van Meerendonck D, van der Gaag RJ, et al. Visual scanning in very young children with autism and their unaffected parents. Autism Res Treat. 2012;2012:748467.
52. Wass SV, Forssman L, Leppänen J. Robustness and precision: How data quality may influence key dependent variables in infant eye‐tracker analyses. Infancy. 2014;19(5):427-60.
53. Wass SV, Smith TJ, Johnson MH. Parsing eye-tracking data of variable quality to provide accurate fixation duration estimates in infants and adults. Behav Res Methods. 2013;45(1):229-50.
54. Shic F, Chawarska K, Scassellati B. The Incomplete Fixation Measure. 2008.
55. Hughes C, Russell J. Autistic children's difficulty with mental disengagement from an object: Its implications for theories of autism. Developmental psychology. 1993;29(3):498.
56. Booth RW, Weger UW. The function of regressions in reading: backward eye movements allow rereading. Mem Cognit. 2013;41(1):82-97.
57. Perea M, Carreiras M. Regressions and eye movements: where and when. Behavioral and Brain Sciences. 2003;26(4):497-.
58. Rayner K. Eye movements in reading and information processing: 20 years of research. Psychol Bull. 1998;124(3):372-422.
59. Rayner K, Slattery TJ, Belanger NN. Eye movements, the perceptual span, and reading speed. Psychon Bull Rev. 2010;17(6):834-9.
60. Shic F, Chawarska K, Scassellati B. The Amorphous Fixation Measure Revisited: with Applications to Autism. 2008.
61. Jones W, Klin A. Attention to eyes is present but in decline in 2-6-month-old infants later diagnosed with autism. Nature. 2013;504(7480):427-31.
62. Lord C, Rutter M, DiLavore P, Risi S, Gotham K, Bishop S. Autism diagnostic observation schedule–2nd edition (ADOS-2). Los Angeles, CA: Western Psychological Corporation. 2012.
63. Lord C, Rutter M, Le Couteur A. Autism Diagnostic Interview-Revised: a revised version of a diagnostic interview for caregivers of individuals with possible pervasive developmental disorders. Journal of autism and developmental disorders. 1994;24(5):659-85.
64. Piven J, Palmer P, Landa R, Santangelo S, Jacobi D, Childress D. Personality and language characteristics in parents from multiple-incidence autism families. Am J Med Genet. 1997;74(4):398-411.
65. Sasson NJ, Lam KS, Childress D, Parlier M, Daniels JL, Piven J. The broad autism phenotype questionnaire: prevalence and diagnostic classification. Autism Res. 2013;6(2):134-43.
66. Murray HA. Thematic apperception test. Cambridge, MA: Harvard University Press; 1943.
67. Hiraishi H, Haida M, Matsumoto M, Hayakawa N, Inomata S, Matsumoto H. Differences of prefrontal cortex activity between picture-based personality tests: a near-infrared spectroscopy study. J Pers Assess. 2012;94(4):366-71.
68. Turk AA, Brown WS, Symington M, Paul LK. Social narratives in agenesis of the corpus callosum: linguistic analysis of the Thematic Apperception Test. Neuropsychologia. 2010;48(1):43-50.
69. Beaumont R, Newcombe P. Theory of mind and central coherence in adults with high-functioning autism or Asperger syndrome. Autism. 2006;10(4):365-82.
70. Lee M, Martin GE, Hogan A, Hano D, Gordon PC, Losh M. What's the story? A computational analysis of narrative competence in autism. Autism. 2018;22(3):335-44.
71. Anderson CJ, Colombo J, Jill Shaddy D. Visual scanning and pupillary responses in young children with Autism Spectrum Disorder. J Clin Exp Neuropsychol. 2006;28(7):1238-56.
72. Dink JW, Ferguson B. eyetrackingR: An R Library for Eye-tracking Data Analysis. 2015 [Available from: http://www.eyetrackingr.com.
73. Demarais AM, Cohen BH. Evidence for image-scanning eye movements during transitive inference. Biol Psychol. 1998;49(3):229-47.
74. Thibaut JP, French RM. Analogical reasoning, control and executive functions: a developmental investigation with eye-tracking. Cognitive Development. 2016;38:10-26.
75. Vigneau F, Caissie AF, Bors DA. Eye-movement analysis demonstrates strategic influences on intelligence. Intelligence. 2006;34(3):261-72.
76. Kimchi R. Primacy of wholistic processing and global/local paradigm: a critical review. Psychol Bull. 1992;112(1):24-38.
77. Zagermann J, Pfeil U, Reiterer H, editors. Studying eye movements as a basis for measuring cognitive load. Extended Abstracts of the 2018 CHI Conference on Human Factors in Computing Systems; 2018.
78. Hessels RS, Kemner C, van den Boomen C, Hooge IT. The area-of-interest problem in eyetracking research: A noise-robust solution for face and sparse stimuli. Behav Res Methods. 2016;48(4):1694-712.
79. Olson CL. Comparative robustness of six tests in multivariate analysis of variance. Journal of the American Statistical Association. 1974;69(348):894-908.
80. Winston M, Nayar K, Hogan AL, Barstein J, La Valle C, Sharp K, et al. Physiological regulation and social-emotional processing in female carriers of the FMR1 premutation. Physiology & behavior. 2020;214:112746.
81. Lever J, Krzywinski M., Altman N. Principal component analysis. Nature Methods. 2017;14:641–2.
82. Van der Hallen R, Evers K, Brewaeys K, Van den Noortgate W, Wagemans J. Global processing takes time: a meta-analysis on local-global visual processing in ASD. Psychol Bull. 2015;141(3):549-73.
83. McPartland JC, Webb SJ, Keehn B, Dawson G. Patterns of visual attention to faces and objects in autism spectrum disorder. J Autism Dev Disord. 2011;41(2):148-57.
84. McPartland J, Dawson G, Webb SJ, Panagiotides H, Carver LJ. Event-related brain potentials reveal anomalies in temporal processing of faces in autism spectrum disorder. J Child Psychol Psychiatry. 2004;45(7):1235-45.
85. O'Connor K, Kirk I. Brief Report: Atypical Social Cognition and Social Behaviours in Autism Spectrum Disorder: A Different Way of Processing Rather than an Impairment. Journal of Autism and Developmental Disorders. 2008;38(10):1989-97.
86. Swanson MR, Serlin GC, Siller M. Broad autism phenotype in typically developing children predicts performance on an eye-tracking measure of joint attention. J Autism Dev Disord. 2013;43(3):707-18.
87. Au-Yeung SK, Benson V, Castelhano M, Rayner K. Eye movement sequences during simple versus complex information processing of scenes in autism spectrum disorder. Autism Res Treat. 2011;2011:657383.
88. Nayar K, Kang X, Xing J, Gordon PC, Wong PCM, Losh M. A cross-cultural study showing deficits in gaze-language coordination during rapid automatized naming among individuals with ASD. Sci Rep. 2021;11(1):13401.
89. Cuccaro ML, Shao Y, Grubber J, Slifer M, Wolpert CM, Donnelly SL, et al. Factor analysis of restricted and repetitive behaviors in autism using the Autism Diagnostic Interview-R. Child psychiatry and human development. 2003;34(1):3-17.
90. Lam KSL, Bodfish JW, Piven J. Evidence for three subtypes of repetitive behavior in autism that differ in familiality and association with other symptoms. Journal of Child Psychology and Psychiatry. 2008;49(11):1193-200.
91. Richler J, Bishop SL, Kleinke JR, Lord C. Restricted and repetitive behaviors in young children with autism spectrum disorders. J Autism Dev Disord. 2007;37(1):73-85.
92. Losh M, Adolphs R, Piven J. The broad autism phenotype. Autism spectrum disorders: Oxford University Press; 2011.
93. Losh M, Klusek J, Martin GE, Sideris J, Parlier M, Piven J. Defining genetically meaningful language and personality traits in relatives of individuals with fragile X syndrome and relatives of individuals with autism. Am J Med Genet B Neuropsychiatr Genet. 2012;159B(6):660-8.
94. Losh M, Adolphs R, Poe MD, Couture S, Penn D, Baranek GT, et al. Neuropsychological profile of autism and the broad autism phenotype. Arch Gen Psychiatry. 2009;66(5):518-26.
95. Piven J, Wzorek M, Landa R, Lainhart J, Bolton P, Chase GA, et al. Personality characteristics of the parents of autistic individuals. Psychol Med. 1994;24(3):783-95.
96. Van Eylen L, Boets B, Steyaert J, Wagemans J, Noens I. Local and Global Visual Processing in Autism Spectrum Disorders: Influence of Task and Sample Characteristics and Relation to Symptom Severity. J Autism Dev Disord. 2018;48(4):1359-81.
97. Plaisted K, Swettenham J, Rees L. Children with autism show local precedence in a divided attention task and global precedence in a selective attention task. J Child Psychol Psychiatry. 1999;40(5):733-42.
98. Rinehart NJ, Bradshaw JL, Moss SA, Brereton AV, Tonge BJ. Atypical interference of local detail on global processing in high-functioning autism and Asperger's disorder. J Child Psychol Psychiatry. 2000;41(6):769-78.
99. Grandin T. Thinking in pictures and other reports from my life with autism1995.
100. Franchini M, Glaser B, de Wilde HW, Gentaz E, Eliez S, Schaer M. Social orienting and joint attention in preschoolers with autism spectrum disorders. Plos One. 2017;12(6).
101. Harrop C, Jones D, Zheng S, Nowell S, Boyd BA, Sasson N. Circumscribed interests and attention in autism: the role of biological sex. J Autism Dev Disord. 2018;48(10):3449-59.
102. Fischer J, Koldewyn K, Jiang YV, Kanwisher N. Unimpaired Attentional Disengagement and Social Orienting in Children with Autism. Clin Psychol Sci. 2014;2(2):214-23.
103. Holmqvist K, Nyström M, Andersson R, Dewhurst R, Jarodzka H, Weijer JVD. A comprehensive guide to methods and measure. Oxford, U: Oxford University Press; 2011.