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References

  • 1
    Leal, A.M. & Moreira, A.C. (1997) Food and the circadian activity of the hypothalamic-pituitary-adrenal axis. Brazilian Journal of Medical and Biology Research, 30, 13911405.
  • 2
    Duffy, J.F. & Wright, K.P. Jr (2005) Entrainment of the human circadian system by light. Journal of Biology Rhythms, 20, 326338.
  • 3
    Mistlberger, R.E. & Skene, D.J. (2005) Nonphotic entrainment in humans? Journal of Biology Rhythms, 20, 339352.
  • 4
    Price, D.A., Close, G.C. & Fielding, B.A. (1983) Age of appearance of circadian rhythm in salivary cortisol values in infancy. Archives of Disease in Childhood, 58, 454456.
  • 5
    Santiago, L.B., Jorge, S.M. & Moreira, A.C. (1996) Longitudinal evaluation of the development of salivary cortisol rhythm in infancy. Clinical Endocrinology, 44, 157161.
  • 6
    Antonini, S.R., Jorge, S.M. & Moreira, A.C. (2000) The emergence of salivary cortisol circadian rhythm and its relationship to sleep activity in preterm infants. Clinical Endocrinology, 52, 423426.
  • 7
    De Weerth, C., Zijl, R.H. & Buitelaar, J.K. (2003) Development of cortisol circadian rhythm in infancy. Early Human Development, 73, 3952.
  • 8
    Martinelli, C.E. Jr, Sader, S.L., Oliveira, E.B., Daneluzzi, J.C. & Moreira, A.C. (1999) Salivary cortisol for screening of Cushing's syndrome in children. Clinical Endocrinology, 51, 6771.
  • 9
    Eskola, V., Lenko, H.L. & Tammela, O. (2003) Impaired adrenocortical function in very low birth weight infants after multiple pregnancies. European Journal of Endocrinology, 149, 529534.
  • 10
    Gardner, D.S., Jamall, E., Fletcher, A.J., Fowden, A.L. & Giussani, D.A. (2004) Adrenocortical responsiveness is blunted in twin relative to singleton ovine fetuses. Journal of Physiology, 557, 10211032.
  • 11
    Meikle, A.W., Stringham, J.D., Woodward, M.G. & Bishop, D.T. (1988) Heritability of variation of plasma cortisol levels. Metabolism, 37, 514517.
  • 12
    Kirschbaum, C., Wüst, S., Faig, H.G. & Hellhammer, D.H. (1992) Heritability of cortisol responses to human corticotropin-releasing hormone, ergometry, and psychological stress in humans. Journal of Clinical Endocrinology and Metabolism, 75, 15261530.
  • 13
    Linkowski, P., Van Onderbergen, A., Kerkhofs, M., Bosson, D., Mendlewicz, J. & Van Cauter, E. (1993) Twin study of the 24-h cortisol profile: evidence for genetic control of the human circadian clock. American Journal of Physiology, 264, E173E181.
  • 14
    Inglis, G.C., Ingram, M.C., Holloway, C.D., Swan, L., Birnie, D., Hillis, W.S., Davies, E., Fraser, R. & Connell, J.M. (1999) Familial pattern of corticosteroids and their metabolism in adult human subjects: The Scottish Adult Twin Study. Journal of Clinical Endocrinology and Metabolism, 84, 41324137.
  • 15
    Wüst, S., Federenko, I., Hellhammer, D.H. & Kirschbaum, C. (2000) Genetic factors, perceived chronic stress, and the free cortisol response to awakening. Psychoneuroendocrinology, 25, 707720.
  • 16
    Bartels, M., Van den Berg, M., Sluyter, F., Boomsma, D.I. & De Geus, E.J. (2003) Heritability of cortisol levels: review and simultaneous analysis of twin studies. Psychoneuroendocrinology, 28, 121137.
  • 17
    Kupper, N., De Geus, E.J., Van den Berg, M., Kirschbaum, C., Boomsma, D.I. & Willemsen, G. (2005) Familial influences on basal salivary cortisol in an adult population. Psychoneuroendocrinology, 30, 857868.
  • 18
    Capurro, H., Konichezky, S., Fonseca, D. & Caldeyro-Barcia, R. (1978) A simplified method for diagnosis of gestational age in the newborn infant. Journal of Pediatrics, 93, 120122.
  • 19
    Apgar, V. (1953) A proposal for a new method of evaluation of the newborn infant. Current Researches in Anesthesia and Analgesia, 32, 260267.
  • 20
    Whittle, M.R., Romano, N.L. & Negreiros, V.A. (2004) Updated Brazilian genetic data, together with mutation rates, on 19 STR loci, including D10S1237. Forensic Science International, 139, 207210.
  • 21
    Vieira, J.G.H., Noguti, K.O., Hidal, J.T., Russo, E.M.K. & Maciel, R.M.B. (1984) Measurement of saliva cortisol as a method for the evaluation of free serum fraction. Arquivos Brasileiros de Endocrinologia e Metabolismo, 28, 810.
  • 22
    Beiguelman, B. (1977) The twin method. In: B.Beiguelman ed. Medical Genetics. Edart São Paulo Livraria Editora Ltda, São Paulo, Brazil, 431450.
  • 23
    Mantagos, S., Moustogiannis, A. & Vagenakis, A.G. (1998) Diurnal variation of plasma cortisol levels in infancy. Journal of Pediatric Endocrinology and Metabolism., 11, 549553.
  • 24
    Spangler, G. (1991) The emergence of adrenocortical circadian function in newborns and infants and its relationship to sleep, feeding and maternal adrenocortical activity. Early Human Development, 25, 197208.
  • 25
    Kiess, W., Meidert, A., Dressendorfer, R.A., Schriever, K., Kessler, U., Konig, A., Schwarz, H.P. & Strasburger, C.J. (1995) Salivary cortisol levels throughout childhood and adolescence: relation with age, pubertal stage, and weight. Pediatric Research, 37, 502506.
  • 26
    Watamura, S.E., Donzella, B., Kertes, D.A. & Gunnar, M.R. (2004) Developmental changes in baseline cortisol activity in early childhood: relations with napping and effortful control. Developmental Psychobiology, 45, 125133.
  • 27
    Hng, T.M., Cheung, N.W. & McLean, M. (2005) Growth hormone and cortisol dynamic function in relation to birth weight: a study in adult twins. Journal of Clinical Endocrinology and Metabolism, 90, 27812786.
  • 28
    Hulshoff Pol, H.E., Posthuma, D., Baare, W.F., De Geus, E.J., Schnack, H.G., Van Haren, N.E., Van Oel, C.J., Kahn, R.S. & Boomsma, D.I. (2002) Twin-singleton differences in brain structure using structural equation modelling. Brain, 125, 384390.
  • 29
    Lowrey, P.L. & Takahashi, J.S. (2004) Mammalian circadian biology: elucidating genome-wide levels of temporal organization. Annual Review of Genomics and Human Genetics, 5, 407441.
  • 30
    Kurina, L.M., Weiss, L.A., Graves, S.W., Parry, R., Williams, G.H., Abney, M. & Ober, C. (2005) Sex differences in the genetic basis of morning serum cortisol levels: genome-wide screen identifies two novel loci specific to women. Journal of Clinical Endocrinology and Metabolism, 90, 47474752.
  • 31
    Seron-Ferre, M., Torres-Farfan, C., Forcelledo, M.L. & Valenzuela, G.J. (2001) The development of circadian rhythms in the fetus and neonate. Seminars in Perinatology, 25, 363370.
  • 32
    Reppert, S.M. & Schwartz, W.J. (1986) Maternal suprachiasmatic nuclei are necessary for maternal coordination of the developing circadian system. Journal of Neuroscience, 6, 27242729.
  • 33
    Seron-Ferre, M., Ducsay, C.A. & Valenzuela, G.J. (1993) Circadian rhythms during pregnancy. Endocrine Reviews, 14, 594609.
  • 34
    Sherer, D.M., D’Amico, M.L., Cox, C., Metlay, L.A. & Woods, J.R. Jr (1994) Association of in utero behavioral patterns of twins with each other as indicated by fetal heart rate reactivity and nonreactivity. American Journal of Perinatology, 11, 208212.
  • 35
    Kennaway, D.J., Stamp, G.E. & Goble, F.C. (1992) Development of melatonin production in infants and the impact of prematurity. Journal of Clinical Endocrinology and Metabolism, 75, 367369.
  • 36
    McGraw, K., Hoffmann, R., Harker, C. & Herman, J.H. (1999) The development of circadian rhythms in a human infant. Sleep, 22, 303310.
  • 37
    Mirmiran, M., Maas, Y.G. & Ariagno, R.L. (2003) Development of fetal and neonatal sleep and circadian rhythms. Sleep Medicine Reviews, 7, 321334.
  • 38
    Nishihara, K., Horiuchi, S., Eto, H. & Uchida, S. (2002) The development of infants’ circadian rest-activity rhythm and mothers’ rhythm. Physiology and Behavior, 77, 9198.
  • 39
    Illnerova, H., Buresova, M. & Presl, J. (1993) Melatonin rhythm in human milk. Journal of Clinical Endocrinology and Metabolism, 77, 838841.