Development During Infancy in Children Later Diagnosed with Autism Spectrum Disorder

Terje Falck-Ytter; Emily Jones

doi:10.1017/9781108351959.005

5 - Development During Infancy in Children Later Diagnosed with Autism Spectrum Disorder

from Part I - Foundations

Published online by Cambridge University Press: 26 September 2020

Terje Falck-Ytter and

Emily Jones

Edited by

Jeffrey J. Lockman and

Catherine S. Tamis-LeMonda

Show author details

Jeffrey J. Lockman: Affiliation:
Tulane University, Louisiana
Catherine S. Tamis-LeMonda: Affiliation:
New York University

Book contents

Get access

Summary

Autism spectrum disorder (ASD) is a heritable, heterogeneous, and common neurodevelopmental condition defined by impairments in social communication alongside restricted and repetitive behaviors (RRB). ASD is a moving target; its definition has changed dramatically over the years. The first comprehensive clinical descriptions of the condition were given by Leo Kanner and Hans Asperger more than 70 years ago (Asperger, 1944; Kanner, 1943), but it was not before 1980, with the publication of the third edition of the Diagnostic and Statistical Manual (DSM) of the American Psychiatric Association that the term autism was introduced as a formal category. At that time, only one criterion related to social interaction was listed (pervasive lack of responsiveness to other people).

Keywords

Autism spectrum disorder (ASD)infant sibling design in ASD social attention and ASD neurodevelopmental processes and ASD language and ASD brain development and ASD attention, executive function, and ASD social attention and ASD.

Type: Chapter
Information: The Cambridge Handbook of Infant Development
Brain, Behavior, and Cultural Context
, pp. 128 - 154

DOI: https://doi.org/10.1017/9781108351959.005 [Opens in a new window]

Publisher: Cambridge University Press

Print publication year: 2020

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Asperger, H. (1944). Die “Autistischen Psychopathen” im Kindesalter. Archiv für Psychiatrie und Nervenkrankheiten, 117, 76–136.Google Scholar

Baranek, G. T. (1999). Autism during infancy: A retrospective video analysis of sensory-motor and social behaviors at 9–12 months of age. Journal of Autism and Developmental Disorders, 29(3), 213–224.Google Scholar

Bedford, R., Elsabbagh, M., Gliga, T., Pickles, A., Senju, A., Charman, T., & Johnson, M. (2012). Precursors to social and communication difficulties in infants at-risk for autism: Gaze following and attentional engagement. Journal of Autism and Developmental Disorders, 42(10), 2208–2218. doi:10.1007/s10803-012-1450-yGoogle Scholar

Bedford, R., Jones, E. J., Johnson, M. H., Pickles, A., Charman, T., & Gliga, T. (2016). Sex differences in the association between infant markers and later autistic traits. Molecular Autism, 7(1), 21.Google Scholar

Blasi, A., Lloyd-Fox, S., Sethna, V., Brammer, M. J., Mercure, E., Murray, L., … Johnson, M. H. (2015). Atypical processing of voice sounds in infants at risk for autism spectrum disorder. Cortex, 71, 122–133.Google Scholar

Bölte, S., Tomalski, P., Marschik, P. B., Berggren, S., Norberg, J., Falck-Ytter, T., … Roeyers, H. (2016). Challenges and inequalities of opportunities in european psychiatry research. European Journal of Psychological Assessment, 34(4), 270–277.Google Scholar

Braukmann, R., Lloyd-Fox, S., Blasi, A., Johnson, M. H., Bekkering, H., Buitelaar, J. K., & Hunnius, S. (2018). Diminished socially selective neural processing in 5-month-old infants at high familial risk of autism. European Journal of Neuroscience, 47(6), 720–728.Google Scholar

Brian, J., Bryson, S. E., Garon, N., Roberts, W., Smith, I. M., Szatmari, P., & Zwaigenbaum, L. (2008). Clinical assessment of autism in high-risk 18-month-olds. Autism, 12(5), 433–456. doi:10.1177/1362361308094500Google Scholar

Brisson, J., Warreyn, P., Serres, J., Foussier, S., & Adrien-Louis, J. (2012). Motor anticipation failure in infants with autism: A retrospective analysis of feeding situations. Autism, 16(4), 420–429.Google Scholar

Bryson, S. E., Zwaigenbaum, L., Brian, J., Roberts, W., Szatmari, P., Rombough, V., & McDermott, C. (2007). A prospective case series of high-risk infants who developed autism. Journal of Autism and Developmental Disorders, 37(1), 12–24. doi:10.1007/s10803-006-0328-2Google Scholar

Bussu, G., Jones, E. J., Charman, T., Johnson, M. H., Buitelaar, J., & Team, B. (2018). Prediction of autism at 3 years from behavioural and developmental measures in high-risk infants: A longitudinal cross-domain classifier analysis. Journal of Autism and Developmental Disorders, 48, 2418–2433.Google Scholar

Chawarska, K., Macari, S., & Shic, F. (2013). Decreased spontaneous attention to social scenes in 6-month-old infants later diagnosed with autism spectrum disorders. Biological Psychiatry, 74(3), 195–203. doi:10.1016/j.biopsych.2012.11.022Google Scholar

Chawarska, K., Shic, F., Macari, S., Campbell, D. J., Brian, J., Landa, R., … Bryson, S. (2014). 18-month predictors of later outcomes in younger siblings of children with autism spectrum disorder: A baby siblings research consortium study. Journal of the American Academy of Child and Adolescent Psychiatry, 53(12), 1317–1327. doi:10.1016/j.jaac.2014.09.015Google Scholar

Clifford, S. M., Hudry, K., Elsabbagh, M., Charman, T., Johnson, M. H., & Team, B. (2013). Temperament in the first 2 years of life in infants at high-risk for autism spectrum disorders. Journal of Autism and Developmental Disorders, 43(3), 673–686.CrossRef Google Scholar PubMed

Daluwatte, C., Miles, J., Sun, J., & Yao, G. (2015). Association between pupillary light reflex and sensory behaviors in children with autism spectrum disorders. Research in Developmental Disabilities, 37, 209–215.Google Scholar

Dawson, G., Osterling, J., Meltzoff, A. N., & Kuhl, P. (2000). Case study of the development of an infant with autism from birth to two years of age. Journal of Applied Developmental Psychology, 21(3), 299–313.Google Scholar

Ekberg, T. L., Falck-Ytter, T., Bölte, S., & Gredebäck, G. (2015). Reduced prospective motor control in 10-month-olds at risk for autism spectrum disorder. Clinical Psychological Science, 4(1), 129–135. https://doi.org/10.1177/2167702615576697 Google Scholar

Elison, J. T., Paterson, S. J., Wolff, J. J., Reznick, J. S., Sasson, N. J., Gu, H. B., … Network, I. (2013). White matter microstructure and atypical visual orienting in 7-month-olds at risk for autism. American Journal of Psychiatry, 170(8), 899–908. doi:10.1176/appi.ajp.2012.12091150Google Scholar

Elsabbagh, M., Fernandes, J., Webb, S. J., Dawson, G., Charman, T., Johnson, M. H., & British Autism Study of Infant Siblings Team (2013). Disengagement of visual attention in infancy is associated with emerging autism in toddlerhood. Biological Psychiatry, 74(3), 189–194. doi:10.1016/j.biopsych.2012.11.030Google Scholar

Elsabbagh, M., Gliga, T., Pickles, A., Hudry, K., Charman, T., Johnson, M. H., & Team, B. (2013). The development of face orienting mechanisms in infants at-risk for autism. Behavioural Brain Research, 251, 147–154. doi:10.1016/j.bbr.2012.07.030CrossRef Google Scholar PubMed

Elsabbagh, M., Mercure, E., Hudry, K., Chandler, S., Pasco, G., Charman, T., … Team, B. (2012). Infant neural sensitivity to dynamic eye gaze is associated with later emerging autism. Current Biology, 22(4), 338–342. doi:10.1016/j.cub.2011.12.056Google Scholar

Estes, A., Zwaigenbaum, L., Gu, H., John, T. S., Paterson, S., Elison, J. T., … Schultz, R. T. (2015). Behavioral, cognitive, and adaptive development in infants with autism spectrum disorder in the first 2 years of life. Journal of Neurodevelopmental Disorders, 7(1), 24.Google Scholar

Falck-Ytter, T., Nyström, P., Gredebäck, G., Gliga, T., Bölte, S., & Team E (2018). Reduced orienting to audiovisual synchrony in infancy predicts autism diagnosis at 3 years of age. Journal of Child Psychology and Psychiatry, 59(8), 872–880. doi:10.1111/jcpp.12863Google Scholar

Falck-Ytter, T., Rehnberg, E., & Bölte, S. (2013). Lack of visual orienting to biological motion and audiovisual synchrony in 3-year-olds with autism. Plos One, 8(7). doi:e6881610.1371/journal.pone.0068816CrossRef Google Scholar PubMed

Flanagan, J. E., Landa, R., Bhat, A., & Bauman, M. (2012). Head lag in infants at risk for autism: A preliminary study. American Journal of Occupational Therapy, 66(5), 577–585.Google Scholar

Gammer, I., Bedford, R., Elsabbagh, M., Garwood, H., Pasco, G., Tucker, L., … Team, B. (2015). Behavioural markers for autism in infancy: Scores on the Autism Observational Scale for infants in a prospective study of at-risk siblings. Infant Behavior and Development, 38, 107–115.Google Scholar

Green, J., Pickles, A., Pasco, G., Bedford, R., Wan, M. W., Elsabbagh, M., … Cheung, C. (2017). Randomised trial of a parent-mediated intervention for infants at high risk for autism: Longitudinal outcomes to age 3 years. Journal of Child Psychology and Psychiatry, 58(12), 1330–1340.CrossRef Google Scholar PubMed

Hallett, V., Ronald, A., Rijsdijk, F., & Happé, F. (2012). Disentangling the associations between autistic-like and internalizing traits: A community based twin study. Journal of Abnormal Child Psychology, 40(5), 815–827.Google Scholar

Haartsen, R., Jones, E. J. H., Orekhova, E., Charman, T., & Johnson, M. H. (2019), Functional EEG connectivity in infants associates with later circumscribed interests in autism: A replication study. Translational Psychiatry, 9(1), 1–14.Google Scholar

Hazlett, H. C., Gu, H., Munsell, B. C., Kim, S. H., Styner, M., Wolff, J. J., … Botteron, K. N. (2017). Early brain development in infants at high risk for autism spectrum disorder. Nature, 542(7641), 348–351.Google Scholar

Hendry, A., Jones, E. J., Bedford, R., Gliga, T., Charman, T., & Johnson, M. H. (2018). Developmental change in look durations predicts later effortful control in toddlers at familial risk for ASD. Journal of Neurodevelopmental Disorders, 10(1), 3.Google Scholar

Hogan, A. L., Caravella, K. E., Ezell, J., Rague, L., Hills, K., & Roberts, J. E. (2017). Autism spectrum disorder symptoms in infants with fragile X syndrome: A prospective case series. Journal of Autism and Developmental Disorders, 47(6), 1628–1644.Google Scholar

Hoshino, Y., Kumashiro, H., Yashima, Y., Tachibana, R., Watanabe, M., & Furukawa, H. (1982). Early symptoms of autistic children and its diagnostic significance. Psychiatry and Clinical Neurosciences, 36(4), 367–374.Google Scholar

Hudry, K., Chandler, S., Bedford, R., Pasco, G., Gliga, T., Elsabbagh, M., … Charman, T. (2014). Early language profiles in infants at high-risk for autism spectrum disorders. Journal of Autism and Developmental Disorders, 44(1), 154–167.Google Scholar

Ibanez, L. V., Grantz, C. J., & Messinger, D. S. (2013). The development of referential communication and autism symptomatology in high-risk infants. Infancy, 18(5), 687–707. doi:10.1111/j.1532-7078.2012.00142.xGoogle Scholar

Jeste, S. S., & Geschwind, D. H. (2014). Disentangling the heterogeneity of autism spectrum disorder through genetic findings. Nature Reviews Neurology, 10(2), 74.Google Scholar

Johnson, M. H. (2005). Subcortical face processing. Nature Reviews Neuroscience, 6(10), 766–774.Google Scholar

Johnson, M. H., Gliga, T., Jones, E., & Charman, T. (2014). Annual research review: Infant development, autism, and ADHD – early pathways to emerging disorders. Journal of Child Psychology and Psychiatry, 56(3), 228–247. https://doi.org/10.1111/jcpp.12328 Google Scholar

Johnson, M. H., Jones, E. J., & Gliga, T. (2015). Brain adaptation and alternative developmental trajectories. Development and Psychopathology, 27(2), 425–442.Google Scholar

Jones, E. J. H., Dawson, G., Kelly, J., Estes, A., & Jane Webb, S. (2017). Parent-delivered early intervention in infants at risk for ASD: Effects on electrophysiological and habituation measures of social attention. Autism Research, 10(5), 961–972.Google Scholar

Jones, E. J. H., Dawson, G., & Webb, S. (2017). Sensory hypersensitivity predicts enhanced attention capture by faces in the early development of ASD. Developmental Cognitive Neuroscience, 29, 11–20.Google Scholar

Jones, E. J. H., Gliga, T., Bedford, R., Charman, T., & Johnson, M. H. (2014). Developmental pathways to autism: A review of prospective studies of infants at risk. Neuroscience and Biobehavioral Reviews, 39, 1–33. doi:10.1016/j.neubiorev.2013.12.001Google Scholar

Jones, W., & Klin, A. (2013). Attention to eyes is present but in decline in 2–6-month-old infants later diagnosed with autism. Nature, 504(7480), 427. doi:10.1038/nature12715Google Scholar

Kanner, L. (1943). Autistic disturbances of affective contact. Nervous Child, 2, 217–250.Google Scholar

Kas, M. J., Glennon, J. C., Buitelaar, J., Ey, E., Biemans, B., Crawley, J., … Talpos, J. (2014). Assessing behavioural and cognitive domains of autism spectrum disorders in rodents: Current status and future perspectives. Psychopharmacology, 231(6), 1125–1146.Google Scholar

Keehn, B., Mueller, R. -A., & Townsend, J. (2013). Atypical attentional networks and the emergence of autism. Neuroscience and Biobehavioral Reviews, 37(2), 164–183. doi:10.1016/j.neubiorev.2012.11.014Google Scholar

Kennedy, D. P., D’Onofrio, B. M., Quinn, P. D., Bölte, S., Lichtenstein, P., & Falck-Ytter, T. (2017). Genetic influence on eye movements to complex scenes at short timescales. Current Biology, 27(22), 3554–3560.Google Scholar

Klin, A., Lin, D. J., Gorrindo, P., Ramsay, G., & Jones, W. (2009). Two-year-olds with autism orient to non-social contingencies rather than biological motion. Nature, 459(7244), 257–261.Google Scholar

Kolesnik, A. M., Jones, E. J. H., Garg, S., Green, J., Charman, T., & Johnson, M. H. (2017). Early development of infants with neurofibromatosis type 1: A case series. Molecular Autism, 8(1), 62.Google Scholar

Landa, R., & Garrett-Mayer, E. (2006). Development in infants with autism spectrum disorders: A prospective study. Journal of Child Psychology and Psychiatry, 47(6), 629–638.Google Scholar

Landa, R. J., Holman, K. C., & Garrett-Mayer, E. (2007). Social and communication development in toddlers with early and later diagnosis of autism spectrum disorders. Archives of General Psychiatry, 64(7), 853–864.Google Scholar

Lazenby, D. C., Sideridis, G. D., Huntington, N., Prante, M., Dale, P. S., Curtin, S., … Dobkins, K. (2016). Language differences at 12 months in infants who develop autism spectrum disorder. Journal of Autism and Developmental Disorders, 46(3), 899–909.Google Scholar

Leppa, V. M., Kravitz, S. N., Martin, C. L., Andrieux, J., Le Caignec, C., Martin-Coignard, D., … Cantor, R. M. (2016). Rare inherited and de novo CNVs reveal complex contributions to ASD risk in multiplex families. American Journal of Human Genetics, 99(3), 540–554.Google Scholar

Lloyd-Fox, S., Begus, K., Halliday, D., Pirazzoli, L., Blasi, A., Papademetriou, M., … Moore, S. (2017). Cortical specialisation to social stimuli from the first days to the second year of life: A rural Gambian cohort. Developmental Cognitive Neuroscience, 25, 92–104.Google Scholar

Lloyd-Fox, S., Blasi, A., Elwell, C. E., Charman, T., Murphy, D., & Johnson, M. H. (2013). Reduced neural sensitivity to social stimuli in infants at risk for autism. Proceedings of the Royal Society B: Biological Sciences, 280(1758), 9. doi:10.1098/rspb.2012.3026Google Scholar

Lloyd-Fox, S., Blasi, A., Pasco, G., Gliga, T., Jones, E., Murphy, D., … Johnson, M. (2017). Cortical responses before 6 months of life associate with later autism. European Journal of Neuroscience, 47(6), 736–749.Google Scholar

Macari, S. L., Campbell, D., Gengoux, G. W., Saulnier, C. A., Klin, A. J., & Chawarska, K. (2012). Predicting developmental status from 12 to 24 months in infants at risk for autism spectrum disorder: A preliminary report. Journal of Autism and Developmental Disorders, 42(12), 2636–2647. doi:10.1007/s10803-012-1521-0Google Scholar

Mitchell, S., Brian, J., Zwaigenbaum, L., Roberts, W., Szatmari, P., Smith, I., & Bryson, S. (2006). Early language and communication development of infants later diagnosed with autism spectrum disorder. Journal of Developmental and Behavioral Pediatrics, 27(2), S69–S78.Google Scholar

Molenhuis, R. T., de Visser, L., Bruining, H., & Kas, M. J. (2014). Enhancing the value of psychiatric mouse models: Differential expression of developmental behavioral and cognitive profiles in four inbred strains of mice. European Neuropsychopharmacology, 24(6), 945–954.Google Scholar

Nyström, P., Gliga, T., Nilsson Jobs, E., Gredebäck, G., Charman, T., Johnson, M., … Falck-Ytter, T. (2018). Enhanced pupillary light reflex in infancy is associated with autism diagnosis in toddlerhood. Nature Communications, 9(1). doi:10.1038/s41467-018-03985-4Google Scholar

Orekhova, E. V., Elsabbagh, M., Jones, E. J., Dawson, G., Charman, T., & Johnson, M. H. (2014). EEG hyper-connectivity in high-risk infants is associated with later autism. Journal of Neurodevelopmental Disorders, 6(1), 40.Google Scholar

Ornitz, E. M., Guthrie, D., & Farley, A. H. (1977). The early development of autistic children. Journal of Autism and Childhood Schizophrenia, 7(3), 207–229.Google Scholar

Ozonoff, S., Iosif, A. M., Baguio, F., Cook, I. C., Hill, M. M., Hutman, T., … Young, G. S. (2010). A prospective study of the emergence of early behavioral signs of autism. Journal of the American Academy of Child and Adolescent Psychiatry, 49(3), 256–266. doi:10.1016/j.jaac.2009.11.009Google Scholar

Paul, R., Fuerst, Y., Ramsay, G., Chawarska, K., & Klin, A. (2011). Out of the mouths of babes: Vocal production in infant siblings of children with ASD. Journal of Child Psychology and Psychiatry, 52(5), 588–598.Google Scholar

Ronald, A., Edelson, L. R., Asherson, P., & Saudino, K. J. (2010). Exploring the relationship between autistic-like traits and ADHD behaviors in early childhood: Findings from a community twin study of 2-year-olds. Journal of Abnormal Child Psychology, 38(2), 185–196. doi:10.1007/s10802-009-9366-5Google Scholar

Ross, R. G., Hunter, S. K., Hoffman, M. C., McCarthy, L., Chambers, B. M., Law, A. J., … Freedman, R. (2016). Perinatal phosphatidylcholine supplementation and early childhood behavior problems: Evidence for CHRNA7 moderation. American Journal of Psychiatry, 173(5), 509–516.Google Scholar

Rozga, A., Hutman, T., Young, G. S., Rogers, S. J., Ozonoff, S., Dapretto, M., & Sigman, M. (2011). Behavioral profiles of affected and unaffected siblings of children with autism: Contribution of measures of mother–infant interaction and nonverbal communication. Journal of Autism and Developmental Disorders, 41(3), 287–301.Google Scholar

Sacrey, L. -A. R., Zwaigenbaum, L., Bryson, S., Brian, J., Smith, I. M., Roberts, W., … Novak, C. (2015). Can parents’ concerns predict autism spectrum disorder? A prospective study of high-risk siblings from 6 to 36 months of age. Journal of the American Academy of Child and Adolescent Psychiatry, 54(6), 470–478.CrossRef Google Scholar PubMed

Shen, M. D., Kim, S. H., McKinstry, R. C., Gu, H., Hazlett, H. C., Nordahl, C. W., … Swanson, M. R. (2017). Increased extra-axial cerebrospinal fluid in high-risk infants who later develop autism. Biological Psychiatry, 82(3), 186–193.Google Scholar

Shen, M. D., Nordahl, C. W., Young, G. S., Wootton-Gorges, S. L., Lee, A., Liston, S. E., … Amaral, D. G. (2013). Early brain enlargement and elevated extra-axial fluid in infants who develop autism spectrum disorder. Brain, 136(9), 2825–2835.Google Scholar

Shephard, E., Bedford, R., Milosavljevic, B., Gliga, T., Jones, E. J. H., Pickles, A., … Bolton, P. (2019). Early developmental pathways to childhood symptoms of attention-deficit hyperactivity disorder, anxiety and autism spectrum disorder. Journal of Child Psychology and Psychiatry, 60(9), 963–974.Google Scholar

St. John, T., Estes, A. M., Dager, S. R., Kostopoulos, P., Wolff, J. J., Pandey, J., … Botteron, K. (2016). Emerging executive functioning and motor development in infants at high and low risk for autism spectrum disorder. Frontiers in Psychology, 7, 1016.Google Scholar

Sullivan, M., Finelli, J., Marvin, A., Garrett-Mayer, E., Bauman, M., & Landa, R. (2007). Response to joint attention in toddlers at risk for autism spectrum disorder: A prospective study. Journal of Autism And Developmental Disorders, 37(1), 37.Google Scholar

Swanson, M. R., Shen, M. D., Wolff, J. J., Elison, J. T., Emerson, R. W., Styner, M. A., … Paterson, S. (2017). Subcortical brain and behavior phenotypes differentiate infants with autism versus language delay. Biological Psychiatry: Cognitive Neuroscience and Neuroimaging, 2(8), 664–672.Google Scholar

Thorup, E., Nystrom, P., Gredeback, G., Bölte, S., Falck-Ytter, T., & EASE Team (2018). Reduced alternating gaze during social interaction in infancy is associated with elevated symptoms of autism in toddlerhood. Journal of Abnormal Child Psychology, 46(7), 1547–1561.Google Scholar

Varcin, K. J., & Jeste, S. S. (2017). The emergence of autism spectrum disorder: Insights gained from studies of brain and behaviour in high-risk infants. Current Opinion in Psychiatry, 30(2), 85–91.Google Scholar

Wan, M. W., Green, J., Elsabbagh, M., Johnson, M., Charman, T., & Plummer, F. (2013). Quality of interaction between at-risk infants and caregiver at 12–15 months is associated with 3-year autism outcome. Journal of Child Psychology and Psychiatry, 54(7), 763–771.Google Scholar

Wass, S. V., Jones, E. J. H., Gliga, T., Smith, T. J., Charman, T., & Johnson, M. H. (2015). Shorter spontaneous fixation durations in infants with later emerging autism. Scientific Reports, 5, 8284. doi:10.1038/srep08284Google Scholar

Webb, S. J., Nalty, T., Munson, J., Brock, C., Abbott, R., & Dawson, G. (2007). Rate of head circumference growth as a function of autism diagnosis and history of autistic regression. Journal of Child Neurology, 22(10), 1182–1190.Google Scholar

West, K. L., Leezenbaum, N. B., Northrup, J. B., & Iverson, J. M. (2019). The relation between walking and language in infant siblings of children with autism spectrum disorder. Child Development, 90(3), e356–e372.Google Scholar

Wolff, J. J., Jacob, S., & Elison, J. T. (2018). The journey to autism: Insights from neuroimaging studies of infants and toddlers. Development And Psychopathology, 30(2), 479–495.Google Scholar

Wolff, J. J., Swanson, M. R., Elison, J. T., Gerig, G., Pruett, J. R., Styner, M. A., … Estes, A. M. (2017). Neural circuitry at age 6 months associated with later repetitive behavior and sensory responsiveness in autism. Molecular Autism, 8(1), 8.Google Scholar

Yoder, P., Stone, W. L., Walden, T., & Malesa, E. (2009). Predicting social impairment and ASD diagnosis in younger siblings of children with autism spectrum disorder. Journal of Autism and Developmental Disorders, 39(10), 1381–1391. doi:10.1007/s10803-009-0753-0Google Scholar

Zwaigenbaum, L., Bryson, S., Rogers, T., Roberts, W., Brian, J., & Szatmari, P. (2005). Behavioral manifestations of autism in the first year of life. International Journal Of Developmental Neuroscience, 23(2–3), 143–152.Google Scholar

Zwaigenbaum, L., Thurm, A., Stone, W., Baranek, G., Bryson, S., Iverson, J., … Sigman, M. (2007). Studying the emergence of autism spectrum disorders in high-risk infants: Methodological and practical issues. Journal of Autism and Developmental Disorders, 37(3), 466–480.Google Scholar

Book contents

5 - Development During Infancy in Children Later Diagnosed with Autism Spectrum Disorder

Summary

Keywords

Access options

References

Save book to Kindle

Save book to Dropbox

Save book to Google Drive