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1. J. Connellan, S. Baron-Cohen, S. Wheelwright, A. Batki and J. Ahluwalia, ‘Sex Differences in Human Neonatal Social Perception’, Infant Behavior and Development 23:1 (2000), pp. 113–18. • 2. Y. Minagawa-Kawai, K. Mori, J. C. Hebden and E. Dupoux, ‘Optical Imaging of Infants’ Neurocognitive Development: Recent Advances and Perspectives’, Developmental Neurobiology 68:6 (2008), pp. 712–28. • 3. C. Clouchoux, N. Guizard, A. C. Evans, A. J. du Plessis and C. Limperopoulos, ‘Normative Fetal Brain Growth by Quantitative In Vivo Magnetic Resonance Imaging’, American Journal of Obstetrics and Gynecology 206:2 (2012), pp. 173.e1–8. • 4. J. Dubois, G. Dehaene-Lambertz, S. Kulikova, C. Poupon, P. S. Hüppi and L. Hertz-Pannier, ‘The Early Development of Brain White Matter: A Review of Imaging Studies in Fetuses, Newborns and Infants’, Neuroscience 276 (2014), pp. 48–71. • 5. M. I. van den Heuvel and M. E. Thomason, ‘Functional Connectivity of the Human Brain In Utero’, Trends in Cognitive Sciences 20:12 (2016), pp. 931–9. • 6. J. Dubois, M. Benders, C. Borradori-Tolsa, A. Cachia, F. Lazeyras, R. Ha-Vinh Leuchter, S. V. Sizonenko, S. K. Warfield, J. F. Mangin and P. S. Hüppi, ‘Primary Cortical Folding in the Human Newborn: An Early Marker of Later Functional Development’, Brain 131:8 (2008), pp. 2028–41. • 7. D. Holland, L. Chang, T. M. Ernst, M. Curran, S. D. Buchthal, D. Alicata, J. Skranes, H. Johansen, A. Hernandez, R. Yamakawa and J. M. Kuperman, ‘Structural Growth Trajectories and Rates of Change in the First 3 Months of Infant Brain Development’, JAMA Neurology 71:10 (2014), pp. 1266–74. • 8. G. M. Innocenti and D. J. Price, ‘Exuberance in the Development of Cortical Networks’, Nature Reviews Neuroscience 6:12 (2005), p. 955. • 9. Holland et al., ‘Structural Growth Trajectories’. • 10. J. Stiles and T. L. Jernigan, ‘The Basics of Brain Development’, Neuropsychology Review 20:4 (2010), pp. 327–48. • 11. S. Jessberger and F. H. Gage, ‘Adult Neurogenesis: Bridging the Gap between Mice and Humans’, Trends in Cell Biology 24:10 (2014), pp. 558–63. • 12. W. Gao, S. Alcauter, J. K. Smith, J. H. Gilmore and W. Lin, ‘Development of Human Brain Cortical Network Architecture during Infancy’, Brain Structure and Function 220:2 (2015), pp. 1173–86. • 13. Dubois et al., ‘The Early Development of Brain White Matter’. • 14. B. J. Casey, N. Tottenham, C. Liston and S. Durston, ‘Imaging the Developing Brain: What Have We Learned about Cognitive Development?’, Trends in Cognitive Sciences 9:3 (2005), pp. 104–10. • 15. Holland et al., ‘Structural Growth Trajectories’. • 16. J. H. Gilmore, W. Lin, M. W. Prastawa, C. B. Looney, Y. S. K. Vetsa, R. C. Knickmeyer, D. D. Evans, J. K. Smith, R. M. Hamer, J. A. Lieberman and G. Gerig, ‘Regional Gray Matter Growth, Sexual Dimorphism, and Cerebral Asymmetry in the Neonatal Brain’, Journal of Neuroscience 27:6 (2007), pp. 1255–60. • 17. R. C. Knickmeyer, J. Wang, H. Zhu, X. Geng, S. Woolson, R. M. Hamer, T. Konneker, M. Styner and J. H. Gilmore, ‘Impact of Sex and Gonadal Steroids on Neonatal Brain Structure’, Cerebral Cortex 24:10 (2013), pp. 2721–31. • 18. R. K. Lenroot and J. N. Giedd, ‘Brain Development in Children and Adolescents: Insights from Anatomical Magnetic Resonance Imaging’, Neuroscience and Biobehavioral Reviews 30:6 (2006), pp. 718–29. • 19. D. F. Halpern, L. Eliot, R. S. Bigler, R. A. Fabes, L. D. Hanish, J. Hyde, L. S. Liben and C. L. Martin, ‘The Pseudoscience of Single-Sex Schooling’, Science 333:6050 (2011), pp. 1706–7. • 20. G. Dehaene-Lambertz and E. S. Spelke, ‘The Infancy of the Human Brain’, Neuron 88:1 (2015), pp. 93–109. • 21. Gilmore et al., ‘Regional Gray Matter Growth’. • 22. G. Li, J. Nie, L. Wang, F. Shi, A. E. Lyall, W. Lin, J. H. Gilmore and D. Shen, ‘Mapping Longitudinal Hemispheric Structural Asymmetries of the Human Cerebral Cortex from Birth to 2 Years of Age’, Cerebral Cortex 24:5 (2013), pp. 1289–300. • 23. Òàì æå., p. 1298. • 24. N. Geschwind and A. M. Galaburda, ‘Cerebral Lateralization: Biological Mechanisms, Associations, and Pathology – I. A Hypothesis and a Program for Research’, Archives of Neurology 42:5 (1985), pp. 428–59. • 25. Knickmeyer et al., ‘Impact of Sex and Gonadal Steroids’, p. 2721. • 26. Van den Heuvel and Thomason, ‘Functional Connectivity of the Human Brain In Utero’. • 27. Gao et al., ‘Development of Human Brain Cortical Network Architecture’. • 28. H. T. Chugani, M. E. Behen, O. Muzik, C. Juhász, F. Nagy and D. C. Chugani, ‘Local Brain Functional Activity Following Early Deprivation: A Study of Postinstitutionalized Romanian Orphans’, NeuroImage 14:6 (2001), pp. 1290–301. • 29. C. H. Zeanah, C. A. Nelson, N. A. Fox, A. T. Smyke, P. Marshall, S. W. Parker and S. Koga, ‘Designing Research to Study the Effects of Institutionalization on Brain and Behavioral Development: The Bucharest Early Intervention Project’, Development and Psychopathology 15:4 (2003), pp. 885–907. • 30. K. Chisholm, M. C. Carter, E. W. Ames and S. J. Morison, ‘Attachment Security and Indiscriminately Friendly Behavior in Children Adopted from Romanian Orphanages’, Development and Psychopathology 7:2 (1995), pp. 283–94. • 31. Chugani et al., ‘Local Brain Functional Activity’; T. J. Eluvathingal, H. T Chugani, M. E. Behen, C. Juhász, O. Muzik, M. Maqbool, D. C. Chugani and M. Makki, ‘Abnormal Brain Connectivity in Children after Early Severe Socioemotional Deprivation: A Diffusion Tensor Imaging Study’, Pediatrics 117:6 (2006), pp. 2093–100. • 32. M. A. Sheridan, N. A. Fox, C. H. Zeanah, K. A. McLaughlin and C. A. Nelson, ‘Variation in Neural Development as a Result of Exposure to Institutionalization Early in Childhood’, Proceedings of the National Academy of Sciences 109:32 (2012), pp. 12927–32. • 33. N. Tottenham, T. A. Hare, B. T. Quinn, T. W. McCarry, M. Nurse, T. Gilhooly, A. Millner, A. Galvan, M. C. Davidson, I. M. Eigsti, K. M. Thomas, P. J. Freed, E. S. Booma, M. R. Gunnar, M. Altemus, J. Aronson and B. J. Casey, ‘Prolonged Institutional Rearing Is Associated with Atypically Large Amygdala Volume and Difficulties in Emotion Regulation’, Developmental Science 13:1 (2010), pp. 46–61. • 34. N. D. Walsh, T. Dalgleish, M. V. Lombardo, V. J. Dunn, A. L. Van Harmelen, M. Ban and I. M. Goodyer, ‘General and Specific Effects of Early-Life Psychosocial Adversities on Adolescent Grey Matter Volume’, NeuroImage: Clinical 4 (2014), pp. 308–18; P. Tomalski and M. H. Johnson, ‘The Effects of Early Adversity on the Adult and Developing Brain’, Current Opinion in Psychiatry 23:3 (2010), pp. 233–8. • 35. M. H. Johnson and M. de Haan, Developmental Cognitive Neuroscience: An Introduction, 4th edn (Chichester, Wiley-Blackwell, 2015). • 36. G. A. Ferrari, Y. Nicolini, E. Demuru, C. Tosato, M. Hussain, E. Scesa, L. Romei, M. Boerci, E. Iappini, G. Dalla Rosa Prati and E. Palagi, ‘Ultrasonographic Investigation of Human Fetus Responses to Maternal Communicative and Non-communicative Stimuli’, Frontiers in Psychology 7 (2016), p. 354. • 37. M. Huotilainen, A. Kujala, M. Hotakainen, A. Shestakova, E. Kushnerenko, L. Parkkonen, V. Fellman and R. Näätänen, ‘Auditory Magnetic Responses of Healthy Newborns’, Neuroreport 14:14 (2003), pp. 1871–5. • 38. A. R. Webb, H. T. Heller, C. B. Benson and A. Lahav, ‘Mother’s Voice and Heartbeat Sounds Elicit Auditory Plasticity in the Human Brain before Full Gestation’, Proceedings of the National Academy of Sciences 112:10 (2015), 201414924. • 39. A. J. DeCasper and W. P. Fifer, ‘Of Human Bonding: Newborns Prefer Their Mothers’ Voices’, Science 208:4448 (1980), pp. 1174–6. • 40. M. Mahmoudzadeh, F. Wallois, G. Kongolo, S. Goudjil and G. Dehaene-Lambertz, ‘Functional Maps at the Onset of Auditory Inputs in Very Early Preterm Human Neonates’, Cerebral Cortex 27:4 (2017), pp. 2500–12. • 41. P. Vannasing, O. Florea, B. González-Frankenberger, J. Tremblay, N. Paquette, D. Safi, F. Wallois, F. Lepore, R. Béland, M. Lassonde and A. Gallagher, ‘Distinct Hemispheric Specializations for Native and Non-native Languages in One-Day-Old Newborns Identified by fNIRS’, Neuropsychologia 84 (2016), pp. 63–9. • 42. Y. Cheng, S. Y. Lee, H. Y. Chen, P. Y. Wang and J. Decety, ‘Voice and Emotion Processing in the Human Neonatal Brain’, Journal of Cognitive Neuroscience 24:6 (2012), pp. 1411–19. • 43. A. Schirmer and S. A. Kotz, ‘Beyond the Right Hemisphere: Brain Mechanisms Mediating Vocal Emotional Processing’, Trends in Cognitive Sciences 10:1 (2006), pp. 24–30. • 44. E. V. Kushnerenko, B. R. Van den Bergh and I. Winkler, ‘Separating Acoustic Deviance from Novelty during the First Year of Life: A Review of Event-Related Potential Evidence’, Frontiers in Psychology 4 (2013), p. 595. • 45. M. Rivera-Gaxiola, G. Csibra, M. H. Johnson and A. Karmiloff-Smith, ‘Electrophysiological Correlates of Cross-linguistic Speech Perception in Native English Speakers’, Behavioural Brain Research 111:1–2 (2000), pp. 13–23. • 46. M. Rivera-Gaxiola, J. Silva-Pereyra and P. K. Kuhl, ‘Brain Potentials to Native and Non-native Speech Contrasts in 7- and 11-Month-Old American Infants’, Developmental Science 8:2 (2005), pp. 162–72. • 47. K. R. Dobkins, R. G. Bosworth and J. P. McCleery, ‘Effects of Gestational Length, Gender, Postnatal Age, and Birth Order on Visual Contrast Sensitivity in Infants’, Journal of Vision 9:10 (2009), art. 19. • 48. F. Thorn, J. Gwiazda, A. A. Cruz, J. A. Bauer and R. Held, ‘The Development of Eye Alignment, Convergence, and Sensory Binocularity in Young Infants’, Investigative Ophthalmology and Visual Science 35:2 (1994), pp. 544–53. • 49. Dobkins et al., ‘Effects of Gestational Length’. • 50. T. Farroni, E. Valenza, F. Simion and C. Umiltà, ‘Configural Processing at Birth: Evidence for Perceptual Organisation’, Perception 29:3 (2000), pp. 355–72; Thorn et al., ‘The Development of Eye Alignment’. • 51. Thorn et al., ‘The Development of Eye Alignment’. • 52. R. Held, F. Thorn, J. Gwiazda and J. Bauer, ‘Development of Binocularity and Its Sexual Differentiation’, in F. Vital-Durand, J. Atkinson and O. J. Braddick (eds), Infant Vision (Oxford, Oxford University Press, 1996), pp. 265–74. • 53. M. C. Morrone, C. D. Burr and A. Fiorentini, ‘Development of Contrast Sensitivity and Acuity of the Infant Colour System’, Proceedings of the Royal Society B: Biological Sciences 242:1304 (1990), pp. 134–9. • 54. T. Farroni, G. Csibra, F. Simion and M. H. Johnson, ‘Eye Contact Detection in Humans from Birth’, Proceedings of the National Academy of Sciences 99:14 (2002), pp. 9602–5. • 55. A. Frischen, A. P. Bayliss and S. P. Tipper, ‘Gaze Cueing of Attention: Visual Attention, Social Cognition, and Individual Differences’, Psychological Bulletin 133:4 (2007), p. 694. • 56. S. Hoehl and T. Striano, ‘Neural Processing of Eye Gaze and Threat-Related Emotional Facial Expressions in Infancy’, Child Development 79:6 (2008), pp. 1752–60. • 57. T. Grossmann and M. H. Johnson, ‘Selective Prefrontal Cortex Responses to Joint Attention in Early Infancy’, Biology Letters 6:4 (2010), pp. 540–43. • 58. T. Grossmann, ‘The Role of Medial Prefrontal Cortex in Early Social Cognition’, Frontiers in Human Neuroscience 7 (2013), p. 340. • 59. E. Nagy, ‘The Newborn Infant: A Missing Stage in Developmental Psychology’, Infant and Child Development, 20:1 (2011) pp. 3–19. • 60. J. N. Constantino, S. Kennon-McGill, C. Weichselbaum, N. Marrus, A. Haider, A. L. Glowinski, S. Gillespie, C. Klaiman, A. Klin and W. Jones, ‘Infant Viewing of Social Scenes Is under Genetic Control and Is Atypical in Autism’, Nature 547:7663 (2017), p. 340. • 61. J. H. Hittelman and R. Dickes, ‘Sex Differences in Neonatal Eye Contact Time’, Merrill-Palmer Quarterly of Behavior and Development 25:3 (1979), pp. 171–84. • 62. R. T. Leeb and F. G. Rejskind, ‘Here’s Looking at You, Kid! A Longitudinal Study of Perceived Gender Differences in Mutual Gaze Behavior in Young Infants’, Sex Roles 50:1–2 (2004), pp. 1–14. • 63. S. Lutchmaya, S. Baron-Cohen and P. Raggatt, ‘Foetal Testosterone and Eye Contact in 12-Month-Old Human Infants’, Infant Behavior and Development 25:3 (2002), pp. 327–35. • 64. A. Fausto-Sterling, D. Crews, J. Sung, C. García-Coll and R. Seifer, ‘Multimodal Sex-Related Differences in Infant and in Infant-Directed Maternal Behaviors during Months Three through Twelve of Development’, Developmental Psychology 51:10 (2015), p. 1351.

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