Bibian van der Voorn

187 GENDER-SPECIFIC HPA AXIS REACTIVITY IN CHILDHOOD 53 Martin, A. et al. Effective prevention of stress-induced sweating and axillary malodour formation in teenagers. Int J Cosmet Sci 33 , 90-97(2011). 54 Ji, J., Negriff, S., Kim, H. & Susman, E. J. A study of cortisol reactivity and recovery among young adolescents: Heterogeneity and longitudinal stability and change. Dev Psychobiol 58 , 283-302(2016). 55 Raikkonen, K. et al. Poor sleep and altered hypothalamic- pituitary-adrenocortical and sympatho-adrenal- medullary system activity in children. J Clin Endocrinol Metab 95 , 2254-2261(2010). 56 de Veld, D. M., Riksen-Walraven, J. M. & de Weerth, C. The relation between emotion regulation strategies and physiological stress responses in middle childhood. Psychoneuroendocrinology 37 , 1309-1319(2012). 57 Hostinar, C. E., Johnson, A. E. & Gunnar, M. R. Parent support is less effective in buffering cortisol stress reactivity for adolescents compared to children. Dev Sci 18 , 281-297(2015). 58 Gunnar, M. R., Wewerka, S., Frenn, K., Long, J. D. & Griggs, C. Developmental changes in hypothalamus-pituitary- adrenal activity over the transition to adolescence: normative changes and associations with puberty. Dev Psychopathol 21 , 69-85(2009). 59 Mrug, S., Tyson, A., Turan, B. & Granger, D. A. Sleep problems predict cortisol reactivity to stress in urban adolescents. Physiol Behav 155 , 95-101(2016). 60 Lu, Q. et al. Cortisol reactivity, delay discounting and percent body fat in Chinese urban young adolescents. Appetite 72 , 13-20(2014). 61 Trickett, P. K., Gordis, E., Peckins, M. K. & Susman, E. J. Stress reactivity in maltreated and comparison male and female young adolescents. Child Maltreat 19 , 27-37(2014). 62 Dorn, L. D. et al. Response to oCRH in depressed and nondepressedadolescents:doesgendermakeadifference? J Am Acad Child Adolesc Psychiatry 35 , 764-773(1996). 63 Forest, M. G. Age-related response of plasma testosterone, delta 4-androstenedione, and cortisol to adrenocorticotropin in infants, children, and adults. J Clin Endocrinol Metab 47 , 931-937(1978). 64 Lashansky, G. et al. Normative data for adrenal steroidogenesis in a healthy pediatric population: age- and sex-related changes after adrenocorticotropin stimulation. J Clin Endocrinol Metab 73 , 674-686 (1991). 65 Ross, J. L. et al. Ovine corticotropin-releasing hormone stimulation test in normal children. J Clin Endocrinol Metab 62 , 390-392(1986). 66 Tsvetkova, V. Adrenocortical function after stimulation with synthetic ACTH. Curr Med Res Opin 4 , 635-639(1977). 67 Stroud, L. R., Papandonatos, G. D., Williamson, D. E. & Dahl, R. E. Sex differences in cortisol response to corticotropin releasing hormone challenge over puberty: Pittsburgh Pediatric Neurobehavioral Studies. Psychoneuroendocrinology 36 , 1226-1238(2011). 68 Dahl, R. E. et al. Corticotropin releasing hormone stimulation test and nocturnal cortisol levels in normal children. Pediatr Res 32 , 64-68(1992). 69 Davis, M. & Emory, E. Sex differences in neonatal stress reactivity. Child Dev 66 , 14-27 (1995). 70 Eiden, R. D. et al. Prenatal tobacco exposure and infant stress reactivity: role of child sex and maternal behavior. Dev Psychobiol 57 , 212-225 (2015). 71 Grunau, R. E. et al. Cortisol, behavior, and heart rate reactivity to immunization pain at 4 months corrected age in infants born very preterm. Clin J Pain 26 , 698-704(2010). 72 Gunnar, M. R., Kryzer, E., Van Ryzin, M. J. & Phillips, D. A. The rise in cortisol in family day care: associations with aspects of care quality, child behavior, and child sex. Child Dev 81 , 851-869(2010). 73 Plusquellec, P. et al. Salivary cortisol levels are associated with resource control in a competitive situation in 19 month-old boys. Horm Behav 60 , 159-164 (2011). 74 Spinrad, T. L. et al. Individual differences in preschoolers’ salivary cortisol and alpha-amylase reactivity: relations to temperament and maladjustment. Horm Behav 56 , 133- 139(2009). 75 De Weerth, C., Zijlmans, M. A., Mack, S. & Beijers, R. Cortisol reactions to a social evaluative paradigm in 5- and 6-year-old children. Stress 16 , 65-72(2013). 76 Kryski, K. R., Smith, H. J., Sheikh, H. I., Singh, S. M. & Hayden, E. P. HPA axis reactivity in early childhood: associations with symptoms and moderation by sex. Psychoneuroendocrinology 38 , 2327-2336(2013). 77 Yong Ping, E. et al. Prenatal maternal stress predicts stress reactivity at 2(1/2) years of age: the Iowa Flood Study. Psychoneuroendocrinology 56 , 62-78 (2015). 78 Mills, R. S., Imm, G. P., Walling, B. R. & Weiler, H. A. Cortisol reactivity and regulation associated with shame responding in early childhood. Dev Psychol 44 , 1369- 1380(2008). 79 Hackman, D. A., Betancourt, L. M., Brodsky, N. L., Hurt, H. & Farah, M. J. Neighborhood disadvantage and adolescent stress reactivity. Front Hum Neurosci 6 , 277(2012). 80 Zijlmans, M. A., Beijers, R., Mack, S., Pruessner, J. C. & de Weerth, C. Cortisol responses to social evaluation in 10- to 15-year-old boys and girls. Stress 16 , 393-401(2013). 81 Kang, H. J. et al. Spatio-temporal transcriptome of the human brain. Nature 478 , 483-489(2011).