Sex steroid hormones and circulating IgE levels.

The possible influence of sex steroid hormones on circulating IgE levels in general and IgE anti-Candida antibodies in particular was studied by quantification of plasma levels of progesterone, estradiol and IgE (total and anti-Candida-specific) in females during the follicular and luteal phases of the menstrual cycle, and during pregnancy. IgE levels during the follicular and luteal phases were not significantly different, although the mean values for the luteal phase were slightly lower. This trend was apparent in daily samples from two normal females during one menstrual cycle. During pregnancy, when the levels of circulating sex steroids were high, IgE levels were only slightly higher than in the follicular and luteal phases. In men and in gonadal dysgenetics, circulating progesterone levels were similar to those of women during the follicular phase (i.e., lower than in the luteal phase or in pregnancy), but the IgE levels were not different. The apparently low levels of IgE during the luteal phase may therefore be due to physiological factors other than fluctuations in the sex steroid hormones. From the present studies, it is apparent that sex steroid hormones have little or no effect on humoral IgE levels, in marked contrast to previously described correlations for other immunoglobulins, especially anti-Candida antibodies.     

Changes in peak expiratory flow and respiratory strength during the menstrual cycle

This study evaluated the spirometry and respiratory static pressures in 17 young women, twice a week for three successive ovulatory menstrual cycles to determine if such variables changed across the menstrual, follicular, periovulatory, early-to-mid luteal and late luteal phases. The factors phases of menstrual cycle and individual cycles had no significant effect on the spirometry variables except for peak expiratory flow (PEF) and respiratory static pressures. Significant weak positive correlations were found between the progesterone:estradiol ratio and PEF and between estrogen and tidal volume (r = 0.37), inspiratory time (r = 0.22), expiratory time (r = 0.19), maximal inspiratory pressure (r = 0.25) and maximal expiratory pressure (r = 0.20) and for progesterone and maximal inspiratory pressure (r = 0.32) during the early-to-mid luteal phase. Although most parameters of the spirometry results did not change during the menstrual cycle, the correlations observed between sexual hormones and respiratory control variables suggest a positive influence of sexual female hormones controlling the thoracic pump muscles in the luteal phase.     

Changes of PSA concentrations in serum and saliva of healthy women during the menstrual cycle

This study investigated the changes of prostate specific antigen (PSA) concentrations in serum and saliva of women during the menstrual cycle. Thirty healthy volunteers (age 23-35 yr) were enrolled in the study. During the menstrual cycle, serum and saliva PSA concentrations on days 9 (follicular phase) and 14 (mid-cycle) were significantly higher than on days 4 (early follicular phase) and 21 (luteal phase). The expected changes in gonadal hormones were seen, as evidenced by significantly higher serum estradiol and progesterone concentrations during the midcycle and luteal phase, compared to the other phases of the cycle. Serum PSA concentrations were positively correlated with salivary PSA concentrations at all 4 times (days 4, 9, 14, and 21) of the menstrual cycle, but not with the serum progesterone or estrogen concentrations. This study suggests that salivary PSA, rather than being produced in the salivary gland, may reflect the serum PSA during the normal menstrual cycle.     

Mechanisms underlying hemodynamic and neuroendocrine stress reactivity at different phases of the menstrual cycle

This study examined the association of menstrual cycle phase with stress reactivity as well as the hormonal and neuroendocrine mechanisms contributing to cycle effects. Fifty‐seven women underwent a modified Trier Social Stress Test during the early follicular, late follicular, and luteal phases of the menstrual cycle. Greater increases in cardiac index (CI) and greater decreases in vascular resistance index (VRI) during speech were observed in the luteal phase relative to other phases, while greater increases in epinephrine (EPI) was observed during the late follicular and luteal phases compared to the early follicular phase. Luteal phase estradiol predicted luteal EPI reactivity but not CI or VRI reactivity, while luteal phase EPI reactivity predicted luteal phase CI and VRI reactivity. Thus, cycle‐related changes in EPI reactivity may be a stronger determinant of cycle effects on hemodynamic reactivity than sex hormones per se.     

Strength training effects on urinary steroid profile across the menstrual cycle in healthy women

Some studies suggest that performing strength training may cause alterations on the hypothalamic pituitary axis, resulting in steroid hormone variations. Intense training has been associated to slow the concentrations of estrogens and progesterone in women. The main purpose of this study was to evaluate the effects of strength training on the urinary steroid concentrations across the menstrual cycle phases. Twenty healthy women, regularly menstruating and not using pharmacologic contraceptives, performed a strength training during 8 weeks. Participants worked out 3 sets × 10 repetitions, with 2 min recovery time between sets, at 70–75 % of one maximum strength repetition. Urine samples were taken in three different phases of the menstrual cycle (menstrual, follicular and luteal) and they were collected both before and after training. Testosterone, DHEA, cortisol, cortisone, estradiol and progesterone concentrations were determined by gas chromatography-mass spectrometry. The results showed a significant decline after training in the urinary excretion of estradiol, during the menstrual and follicular phase, and progesterone, during the menstrual and luteal phase. No significant difference was observed for other steroid hormones. These data demonstrated that strength training can play an important role in the estrogen and progesterone metabolism in women, decreasing their levels across the menstrual cycle.     

Alterations in the insulin-like growth factor system during the menstrual cycle in normal women

Objectives: To evaluate the effects of endogenous estrogens and progestins on the IGF-system during the normal menstrual cycle in healthy premenopausal women not using contraceptive drugs. Methods: Nine women had fasting blood samples obtained at 2–3 days intervals during a 5 week study period. Plasma levels of IGF-I, IGF-II, IGFBP-1, IGFBP-3, estradiol and progesterone were measured by radioimmunoassay (RIA) in each sample. IGFBP-3 was also evaluated by Western ligand blot (WLB) and immunoblot. Any differences between the menstrual phase (defined as day 1–5), follicular and luteal phases (separation based on plasma estradiol and progesterone values) were evaluated by the Friedman test. Results: A small but significant difference in plasma levels of IGF-I (P<0.01) and IGFBP-3 (P<0.05) measured by RIA between the three phases were seen with the highest levels found during the follicular phase. No change in plasma levels of IGFBP-1 and IGF-II was found and immunoblots did not reveal any alteration in the ratio of fragmented to intact IGFBP-3 during the menstrual cycle. A positive correlation between plasma levels of IGF-I and estradiol was seen in 8 out of 9 patients (P=0.012). Conclusions: The finding of a slight but significant higher level of plasma IGF-I in the follicular and luteal phases compared with the menstrual phase suggests plasma estradiol may influence the level of this growth factor. This hypothesis is further supported by the finding of a correlation between plasma levels of IGF-I and estradiol but not progesterone in individual patients at different times during the menstrual cycle.     

Morphometric analysis of fibroblasts of the mammary lobular stroma during the follicular and luteal phases of the menstrual cycle

We determined the nuclear volume of fibroblasts of the normal mammary lobular stroma during the follicular and luteal phases of the menstrual cycle. Twenty patients aged 15 to 35 years and eumenorrheic for at least 6 months were randomly assigned to 2 groups, i.e., 10 women in the follicular phase and 10 in the luteal phase. The nuclear volume was 34.4 micron 3 and 98.8 micron 3 for the follicular and luteal phases, respectively, with the difference being statistically significant (p < 0.05). These data suggest a higher metabolic activity in the mammary intralobular stroma during the luteal phase of the menstrual cycle, probably due to a synergistic action of estradiol and progesterone.     

Changes in nociceptive flexion reflex threshold across the menstrual cycle in healthy women

OBJECTIVE: We assessed the influence of changes in steroid hormones across the menstrual cycle on the spinal nociceptive reflex. METHOD: We studied in 14 healthy women during the follicular and luteal phase the nociceptive flexion reflex (RIII reflex), an objective neurophysiological method that allows exploring possible abnormal functioning of the pain-control system. The basal body temperature (BBT) was used to evaluate the different phases of the ovarian cycle. The menstrual distress questionnaire (MDQ) was also applied for monitoring somatic and psychological symptoms during the cycle. RESULTS: During the luteal phase, the threshold of the RIII reflex (Tr) and the psychophysical threshold for pain (Tp) were both significantly reduced compared with the follicular phase. Moreover, the reflex threshold in the luteal phase was negatively correlated to the total MDQ score of the recording day. CONCLUSIONS: A higher sensitivity to pain stimuli was observed during the luteal phase of the menstrual cycle, which probably results from a reduction in the inhibitory descending control on spinal nociceptive flexion reflex. Complex neuromodulatory interactions of ovarian steroids with other systems of neurotransmission (especially serotonergic) may account for these observations.     

Preferential transfer of endogenous ovarian steroid hormones to the uterus during both the follicular and luteal phases

BACKGROUND: Ovarian steroids are thought to be released into the systemic circulation and reach the uterus via the uterine arteries. However, results of experimental and clinical studies suggest the existence of local transfer of steroids from the ovary to the uterus. This study aimed to verify the existence of preferential distribution of ovarian steroids to the uterus in the two phases of the menstrual cycle. METHODS: We performed parallel measurements of serum levels of estradiol and progesterone in the systemic circulation (arterial and venous) and in the uterine vessels in two groups of cycling women; one group were in the follicular phase (six women) and the other group were in the luteal phase (10 women) of the menstrual cycle. RESULTS: Both in the follicular phase and in the luteal phase groups, mean estradiol levels in the uterine blood were significantly higher than in both sides of the systemic circulation (F = 7.30, df = 15, P < 0.006; and F = 4.70, df = 27, P < 0.02). Similar results were obtained in the luteal phase group for progesterone (F = 9.38, df = 27, P < 0.0001). Both estradiol and progesterone levels in arterial and venous systemic blood were similar. CONCLUSIONS: The results of this study demonstrate that ovarian steroid levels are significantly higher in the uterine vessels than in both sides of the systemic blood circulation, and strongly suggest the existence in the female pelvis of mechanisms of local distribution of ovarian hormones.     

Influence of endogenous and exogenous sex hormones on plasma brain-derived neurotrophic factor

BACKGROUND: Brain-derived neurotrophic factor (BDNF) is a mediator of neuronal plasticity and influences learning, memory and cognitive behaviour. The aim of this study is to assess plasma BDNF variations according to hormonal status. METHODS: A total of 60 subjects were included: 20 fertile ovulatory women, 15 amenorrhoeic women and 25 postmenopausal women. Blood samples were collected after overnight fasting. For 5 out of the 20 fertile women, samples were collected every 2 days throughout the whole menstrual cycle. Following basal evaluation, 10 out of 25 postmenopausal women were administered a hormone replacement therapy (HRT) and reevaluated after 6 months of treatment. Plasma BDNF concentrations were measured by enzyme-linked immunosorbent assay. In fertile women, estradiol (E(2)), progesterone and gonadotrophins were also assessed. RESULTS: In fertile women, luteal phase levels of plasma BDNF were significantly higher than follicular phase levels (P < 0.001). BDNF increased from early follicular phase up to Day 14 of the cycle, reaching a pre-ovulatory peak, similar to E(2). A second rise took place during mid-luteal phase, with a peak on Day 24. Amenorrhoeic subjects, as well as postmenopausal women, showed significantly lower plasma BDNF levels compared with fertile females (P < 0.001). BDNF was positively correlated with E(2) and progesterone and negatively correlated with menopausal age. HRT restored BDNF levels to those present in fertile women during the follicular phase. CONCLUSIONS: Plasma BDNF levels are influenced by hormonal status. Modifications in BDNF circulating levels during the menstrual cycle suggest a potential role for gonadal sex hormones (E(2) and progesterone) in regulating neurotrophin expression.     

Do sex hormones influence emotional modulation of pain and nociception in healthy women?

Sex hormones may contribute to inter- and intra-individual differences in pain by influencing emotional modulation of pain and nociception. To study this, a well-validated picture-viewing paradigm was used to assess emotional modulation of pain and the nociceptive flexion reflex (NFR; physiologic measure of nociception) during mid-follicular, ovulatory, and late-luteal phases of the menstrual cycle in healthy normally cycling women (n = 40). Salivary estradiol, progesterone, and testosterone were assessed at each testing session. Emotional modulation of pain/NFR did not differ across menstrual phases, but low estradiol was associated with weaker emotional modulation of NFR (during all phases) and emotional modulation of pain (ovulatory and late-luteal phases). Given evidence that a failure to emotionally modulate pain might be a risk factor for chronic pain, low estradiol may promote chronic pain via this mechanism. However, future research is needed to extend these findings to women with disturbances of pain, emotion, and/or sex hormones.     

Endogenous overnight creatinine clearance, serum beta 2-microglobulin and serum water during the menstrual cycle

Endogenous overnight (22.00-08.00 hours) creatinine clearance and serum concentrations of beta 2-microglobulin and water were measured three times a week during 11 ovulatory menstrual cycles. In some of the women creatinine clearance changed more than 100% within a week from values below reference range to high normal levels. In all the women the creatinine clearance was higher during the luteal than during the follicular phase and correlated with the production of ovarian hormones. The urinary excretion rate of creatinine was highest during the luteal phase. Urinary volume, serum creatinine and serum water were not significantly influenced by the menstrual phases. An unexplained finding was a parallel change in the individual creatinine clearance and serum beta 2-microglobulin during the luteal, but not during the follicular phase. Our results suggest that ovarian hormones influence creatinine clearance during the menstrual cycle. One must therefore accept even considerable short-time variations in creatinine clearance in fertile women. It remains to be settled if these changes reflect true alterations in glomerular filtration rate or mainly changes in the urinary (tubular) excretion rate of creatinine.     

Estrogen, menstrual cycle phases, and psychopathology in women suffering from schizophrenia

BACKGROUND: Estrogen has been hypothesized to have a protective and antipsychotic-like effect in women at risk for schizophrenia. The aim of the present study was to evaluate the association between menstrual cycle and/or estrogen levels and psychotic symptoms in a sample of women with schizophrenia. METHOD: One hundred and twenty-five premenopausal women with schizophrenia and regular menses were examined. The levels of 17beta-estradiol and other hormones of the gonadal axis were assessed in the follicular, peri-ovulatory, and luteal phases of the menstrual cycle. The effects of the menstrual cycle phase and/or the estradiol level on the Positive and Negative Syndrome Scale (PANSS) and the Brief Psychiatric Rating Scale (BPRS) scores were calculated by means of regression analyses. RESULTS: Significant improvement in psychotic, but not depressive, symptoms was observed during the luteal phase, compared with other days of the menstrual cycle. CONCLUSIONS: The present findings indicate that estradiol may have specific antipsychotic-like effects on the symptoms of schizophrenia. Thus further investigation into the therapeutic effect of estrogen may be worthwhile.     

Dietary and metabolic differences in pre- versus postmenopausal women taking or not taking hormone replacement therapy

While hormonal fluctuations during the menstrual cycle are known to affect energy intake, changes in dietary intake at menopause and specifically with hormone replacement therapy (HRT) are less well understood. Our objective was to assess dietary macro- and micronutrient intakes in premenopausal women (PEMW) in the luteal and follicular phases and postmenopausal women (PSMW) taking or not taking HRT. Serum estradiol and progesterone as well as resting energy expenditure (REE) and respiratory exchange ratio (RER) were measured. In the 9 PEMW, daily energy intake was 19% higher during the luteal versus follicular phase (2089+/-178 vs. 1752+/-158 kcal/day, p<0.05). The luteal phase was characterized by higher intake of total and saturated fat and a lower micronutrient density. In the 7 PSMW not taking HRT and 6 women taking HRT, there was no significant difference in total energy or macronutrient intake. Neither PEMW nor PSMW met national nutritional recommendations for folate, vitamin D, vitamin E and calcium. Serum progesterone levels were positively correlated with protein intake and negatively correlated with percent carbohydrate in the diet. REE was lower (p<0.05) in PSMW not taking HRT, but not in those taking HRT compared to young women. We confirm increased energy intake in the luteal phase in PEMW but found no difference in energy intake between PSMW taking or not taking HRT. While the quality of the diet in PSMW women was closer to national nutritional recommendations, several at risk nutrients that have been linked to health and disease were found in both groups.     

Auditory brainstem response in premenopausal women taking oral contraceptives

BACKGROUND: The aim of this prospective study was to evaluate the effects of the new monophasic oral contraceptives on the audiological system in premenopausal women. METHODS: The auditory brainstem response (ABR) was measured in 94 women during the follicular, periovular and luteal phases of one menstrual cycle in which ovulation was confirmed using sonography and serum progesterone concentration. The latencies for waves I, III and V were determined, and the inter-peak intervals were calculated for waves I-III, I-V and III-V. All 94 women began taking oral contraceptives: 23 women used 20 microg ethinyl estradiol (EE) plus 150 microg desogestrel, 24 women used 30 microg EE plus 75 microg gestodene, and 47 women used 15 microg EE plus 60 microg gestodene. During the third month of contraceptive intake, each subject was again tested for ABR, as above. RESULTS: The wave latencies and inter-peak intervals showed shorter values during the periovular phase with respect to the luteal phase (P < 0.05), the follicular phase for wave I and for inter-peak interval I-V (P < 0.05) of the menstrual cycle. All of the ABR results in pill users were statistically different from those of the periovular phase (P < 0.05), though similar to those of both the luteal and follicular phases (P = NS). CONCLUSIONS: ABR seems to depend on the variations of ovarian steroids during the menstrual cycle and during oral contraceptive intake.     

Menstrual cycle phase effects on prepulse inhibition of acoustic startle

Prepulse inhibition (PPI) represents an attenuation of the startle reflex following the presentation of a weak prepulse at brief intervals prior to the startle eliciting pulse. It has been shown that increases in striatal dopamine levels decrease PPI; because dopamine release is sensitive to estrogen, it is likely that PPI varies across the menstrual cycle. Cross-sectional studies looking at estrogen effects suggest that this may be true. In this study, we compare effects of menstrual phase on PPI in a between-group design (men, follicular phase women, and luteal phase women) as well as a within-subjects design (women across the two phases). The study found a between-group as well as a within-subjects effect of phase on PPI. PPI in follicular phase women did not differ significantly from PPI in men. However, PPI was reduced in luteal women compared to follicular women. These data provide evidence that ovarian hormones affect sensorimotor gating.     

Dietary restraint and menstrual cycle phase modulated L-phenylalanine-induced satiety

l-phenylalanine (Phe) has been shown to elicit release of the gut hormone cholecystokinin (CCK) and reduce energy intake. Furthermore, studies in some animal models demonstrate potentiation of CCK-induced satiety by estradiol (E(2)). As E(2) is elevated in the follicular phase, we expected greater satiety effects than in the luteal phase when the effects may be antagonized by concomitant elevations in progesterone (P). Women with low dietary restraint were tested over two cycles and received encapsulated Phe or dextrose (control) during both phases within each cycle. Data from 20 women and 32 menstrual cycles were analyzed. Daily energy intake was suppressed by 9% for Phe compared to control and 8% in the follicular versus luteal phase of the menstrual cycle. Significant three-way interactions showed that the effects of condition and phase differed as a function of status on the rigid dietary restraint subscale. Phe suppressed daily energy intake by 15% relative to control in the follicular phase for women in the lower 50th percentile of rigid restraint, whereas for women in the higher 50th percentile group, Phe reduced energy intake by 15% in the luteal phase. The results replicate previous findings showing effects of cycle phase and Phe on food intake. The interaction between variables suggests that rigid restraint status modulates the satiety response to Phe, possibly through effects of reproductive hormones. Further studies are needed to replicate these findings and examine other aspects of satiety that may be altered by rigid restraint status.     

The influence of the menstrual cycle on upper airway resistance and breathing during sleep

STUDY OBJECTIVE: Female hormones, specifically progesterone, that peak in the luteal phase may play a significant role in protecting premenopausal women from sleep-disordered breathing. The influence of female hormones on upper airway resistance during sleep was investigated during the follicular and luteal phases of normal menstrual cycles. SETTING: Hospital-based sleep laboratory. DESIGN AND PARTICIPANTS: Healthy women with verified ovulatory cycles and without sleep complaints were recruited into the study. Sleep and upper airway resistance data (mean +/- SD) were collected on 2 nights from 11 women (21-49 years of age [28 +/- 9 years], body mass index of 22.8 +/- 3.6 kg/m2), once during the follicular phase (day 6-11) and once in the luteal phase (day 19-23) in random order. MEASUREMENTS AND RESULTS: Nasal resistance, standardized to a flow rate of 0.3 L/second, measured using posterior active rhinomanometry immediately prior to the sleep study, did not differ between the 2 phases. The respiratory disturbance index tended to be higher in the follicular phase than in the luteal phase and was above 5 per hour for 3 women in the follicular phase. Upper airway resistance, controlled for flow rate and body position, was calculated for 50 random breaths during wakefulness, stage 1, stage 2, slow-wave, and rapid eye movement sleep. During wake and stage 2 sleep, upper airway resistance was significantly higher in the follicular phase than in the luteal phase, as was the overall upper airway resistance combined for wake and across all sleep stages. Combining data from the 2 nights, compared to wake, upper airway resistance increased in stage 2, slow-wave, and rapid eye movement sleep. CONCLUSIONS: Within the menstrual cycle, upper airway resistance is lower in the luteal compared with the follicular phase.     

Estrogen modulates inhibitory control in healthy human females: evidence from the stop-signal paradigm

Animal studies point to a role of estrogen in explaining gender differences in striatal dopaminergic functioning, but evidence from human studies is still lacking. Given that dopamine is crucial for controlling and organizing goal-directed behavior, estrogen may have a specific impact on cognitive control functions, such as the inhibition of prepotent responses. We compared the efficiency of inhibitory control (as measured by the stop-signal task) in young women across the three phases of their menstrual cycle (salivary estradiol and progesterone concentrations were assessed) and in young men. Women were less efficient in inhibiting prepotent responses in their follicular phase, which is associated with higher estradiol levels and with higher dopamine turnover rates, than in their luteal or menstruation phase. Likewise, women showed less efficient inhibitory control than men in their follicular phase but not in their luteal or menstruation phase. Our results are consistent with models assuming that the over-supply of striatal dopamine in the follicular phase weakens inhibitory pathways, thus leading to enhanced competition between responses. We conclude that gender differences in response inhibition are variable and state dependent but not structural.     

Food intake,body weight,and sweetness preferences over the menstrual cycle in humans

The body weight and reported food intake of 34 women were measured at the midpoint of the follicular and luteal phases of the menstrual cycle. Both body weight and reported food intake were significantly higher during the luteal phase than during the follicular phase. In addition, sweetness (sucrose) preferences were measured on both occasions before and after a glucose load. Examination of the pre- to post-load changes revealed a significant decline during the luteal phase and the absence of such a decline in the follicular phase. The results were discussed in terms of the influence of ovarian hormones on food regulation and carohydrate metabolism.