Changes in testosterone, cortisol, and estradiol levels in men becoming fathers.

OBJECTIVE To quantify longitudinally steroid hormone (testosterone, cortisol, and estradiol) concentrations in men becoming fathers for the first time ("dads"). SUBJECTS AND METHODS Volunteer study subjects were recruited from first-trimester prenatal classes in Kingston, Ontario, in February 1999. Twenty-three dads provided saliva samples from recruitment through 3 months after the birth of their children. Fourteen men who were not fathers were recruited from the general population to serve as age-matched controls for season and time of day. Estradiol, testosterone, and cortisol levels were quantified. RESULTS After controlling for effects of time of day and season, dads had lower mean +/- SE testosterone (6.5+/-0.7 vs 10.0+/-0.9 ng/dL; P<.005) and cortisol (morning values, 0.30+/-0.05 vs 0.53+/-0.05 microg/dL; P<.005) concentrations, a higher proportion of samples with detectable estradiol concentrations (68% [308/454] vs 57% [87/154]; P=.01), and higher estradiol concentrations in those detectable samples (3.81+/-0.09 pg/mL [13 dads] vs 3.26+/-0.11 pg/mL [9 controls]; P<.002) than did control men. Within 10 individual dads with frequent samples before and after the birth, the percentage of samples with detectable estradiol was lower during the month before the birth than during the month after (51% vs 71%; P=.02), and cortisol concentration was increased in the week before the birth (to a mean of 0.16 microg/dL). In each of 13 dads providing frequent samples, testosterone concentration and variance were low immediately after the birth (no change from previous levels in 5, decrease after prebirth increase in 3, and decrease relative to all other times in 5). CONCLUSIONS In this population of Canadian volunteers attending prenatal classes, expectant fathers had lower testosterone and cortisol levels and a higher proportion of samples with detectable estradiol concentrations than control subjects. Individual patterns of testosterone variance relative to the birth and estradiol and cortisol concentrations immediately before the birth may be worthy of further investigation. The physiologic importance of these hormonal changes, if any, is not known. However, they are hormones known to influence maternal behavior.

[1]  A. Volpe,et al.  Circadian rhythm of testosterone and prolactin in the ageing. , 1982, Maturitas.

[2]  N. Krasnegor,et al.  Mammalian parenting : biochemical, neurobiological, and behavioral determinants , 1990 .

[3]  R. Nelson,et al.  Prolactin and paternal behavior in the biparental California mouse, Peromyscus californicus , 1989, Hormones and Behavior.

[4]  F. Halberg,et al.  Circadian rhythm and diurnal excursion of plasma cortisol in diabetic pregnant women. , 1986, American journal of obstetrics and gynecology.

[5]  K. Wynne-Edwards,et al.  Cortisol and prolactin concentrations during repeated blood sample collection from freely moving, mouse-sized mammals (Phodopus spp.). , 2000, Comparative medicine.

[6]  C. Carter,et al.  NEUROENDOCRINE PERSPECTIVES ON SOCIAL ATTACHMENT AND LOVE , 1998, Psychoneuroendocrinology.

[7]  T. Benraad,et al.  Circannual cycle in plasma testosterone levels in man. , 1976, The Journal of clinical endocrinology and metabolism.

[8]  J. Rosenblatt,et al.  Effects of Pregnancy Hormones on Maternal Responsiveness, Responsiveness to Estrogen Stimulation of Maternal Behavior, and the Lordosis Response to Estrogen Stimulation , 1998, Hormones and Behavior.

[9]  J. D. Neill,et al.  The Physiology of reproduction , 1988 .

[10]  K. Wynne-Edwards,et al.  Behavioral endocrinology of mammalian fatherhood. , 2000, Trends in ecology & evolution.

[11]  R. Elwood,et al.  The couvade and the onset of paternal care: a biological perspective. , 1994 .

[12]  M. Leon The neurobiology of filial learning. , 1992, Annual review of psychology.

[13]  K. Wynne-Edwards,et al.  Evolutionary change in the endocrinology of behavioral receptivity: divergent roles for progesterone and prolactin within the genus Phodopus. , 1998, Biology of reproduction.

[14]  A. Dixson,et al.  Prolactin and parental behaviour in a male New World primate , 1982, Nature.

[15]  James M. Dabbs,et al.  Salivary testosterone measurements: Collecting, storing, and mailing saliva samples , 1991, Physiology & Behavior.

[16]  J. Rosenblatt,et al.  Parental care : evolution, mechanisms, and adaptive significance , 1996 .

[17]  K. Wynne-Edwards,et al.  Hormonal Changes in Males of a Naturally Biparental and a Uniparental Mammal , 1999, Hormones and Behavior.

[18]  S. Jeffcoate,et al.  Multicenter evaluation of assays for estradiol and progesterone in saliva. , 1985, Clinical chemistry.

[19]  K. Matt,et al.  The Importance of Social Condition in the Hormonal and Behavioral Responses to an Acute Social Stressor in the Male Siberian Dwarf Hamster (Phodopus sungorus) , 1997, Hormones and Behavior.

[20]  C. Snowdon,et al.  Hormonal Responses to Parental and Nonparental Conditions in Male Cotton-Top Tamarins,Saguinus oedipus,a New World Primate , 1996, Hormones and Behavior.

[21]  K. Wynne-Edwards Low testosterone in new fathers , 2001 .

[22]  James M. Dabbs,et al.  Salivary testosterone measurements: Reliability across hours, days, and weeks , 1990, Physiology & Behavior.

[23]  L. Getz,et al.  Peptides, Steroids, and Pair Bonding a , 1997, Annals of the New York Academy of Sciences.

[24]  C. Pryce Socialization, Hormones, and the Regulation of Maternal Behavior in Nonhuman Simian Primates , 1996 .

[25]  J. Rosenblatt,et al.  Maternal Behavior in Rabbits: A Historical and Multidisciplinary Perspective , 1996 .

[26]  J. M. Dabbs,et al.  Age and seasonal variation in serum testosterone concentration among men. , 1990, Chronobiology international.

[27]  B. Richardson,et al.  Circadian rhythms in maternal plasma cortisol, estrone, estradiol, and estriol at 34 to 35 weeks' gestation. , 1979, American journal of obstetrics and gynecology.

[28]  J. Rosenblatt,et al.  Estrogen-induced maternal behavior in hysterectomized-ovariectomized virgin rats , 1975, Physiology & Behavior.

[29]  A. Reinberg,et al.  Circannual and circadian rhythms in plasma testosterone in five healthy young Parisian males. , 1975, Acta endocrinologica.

[30]  T. Sheehan,et al.  Neuroanatomical Circuitry for Mammalian Maternal Behavior a , 1997, Annals of the New York Academy of Sciences.

[31]  C. Kirschbaum,et al.  The cortisol response to awakening in relation to different challenge tests and a 12-hour cortisol rhythm. , 1999, Life sciences.

[32]  Storey,et al.  Hormonal correlates of paternal responsiveness in new and expectant fathers. , 2000, Evolution and human behavior : official journal of the Human Behavior and Evolution Society.

[33]  Diane Ruble,et al.  Hormonal and Experiential Correlates of Maternal Responsiveness during Pregnancy and the Puerperium in Human Mothers , 1997, Hormones and Behavior.

[34]  P. Murphy,et al.  Hormonal Responses of Male Gerbils to Stimuli from Their Mate and Pups , 1995, Hormones and Behavior.

[35]  A. Fleming,et al.  Neurobiology of mother–infant interactions: experience and central nervous system plasticity across development and generations , 1999, Neuroscience & Biobehavioral Reviews.

[36]  F. Hucklebridge,et al.  The awakening cortisol response and blood glucose levels. , 1999, Life sciences.