Progesterone and Cortisol Levels in Blood and Hair of Wild Pregnant Red Deer ( Cervus Elaphus) Hinds

There is a daily rhythm in the production of the pineal hormone melatonin in all mammalian species. Production is stimulated by darkness and inhibited by light. This provides a signal reflecting the changing environmental lighting cycle. In seasonally breeding mammals that use changes in the photoperiod to time their reproductive cycles, temporal signals to the reproductive system are controlled by the daily rhythm in melatonin production.

Psychosocial stress during pregnancy has been proposed as a major contributor of glucocorticoid-mediated programming of the fetal hypothalamic-pituitary adrenal (HPA) axis, with later adverse health consequences. However, evidence linking maternal stress to maternal cortisol values during pregnancy is inconclusive. A possible explanation for this is that other maternal factors overshadow any potential effects of stress on cortisol levels. We studied a large cohort of pregnant women with extensive data on pregnancy characteristics to determine the respective contributions of biological, environmental and psychosocial stress factors to cortisol levels in pregnancy.

Hair analysis has been proposed as a minimally invasive technique capable of furnishing information regarding the stress response during medium- and long-term periods. Bristle samples were collected from the rump region of sows at three key physiological phases (before delivery - BD; weaning time - WT; pregnancy diagnosis - PD) during consecutive reproductive cycles in order to test swine hair as a reliable matrix of cortisol evaluation. Cortisol was extracted from the bristles and assayed using radioimmunoassay. The highest mean hair cortisol concentrations were demonstrated (p<0.001) at the PD time points (20.1±.95 and 16.29±2.15 pg/mg). Moreover, cortisol was significantly higher (p<0.001) at BD2 (10.48±0.96 pg/mg) as compared to BD1 (5.17±0.51 pg/mg) and WT1 (6.01±0.47 pg/mg). The various physiological phases had a significant effect on cortisol concentration (p<0.00001) with a higher cortisol concentration found during late pregnancy and lactation than in early-mid pregnancy. This could be due not only to the physiological hormonal status, but also to the different housing conditions (single crates vs. group housing). The season of the year was also observed to have an effect (p<0.005), with the lowest cortisol concentration recorded during the hot season.