In many studies, it was repeatedly shown that menopause was
related to worsening in sleep quality. Most of the studies
suggested a link between estrogen level and sleep quality in
postmenopausal period and the approval of this suggestion
was thought to be the increase in sleep quality with estrogen
replacement in those women
1.
Ventrolateral preoptic nucleus, suprachiasmatic nucleus,
lateral and posterior hypothalamus and thalamus are the brain
regions thought to be involved in sleep regulation3,4. In
rats, it was shown that ovariectomy was followed by marked
reduction in Fos expression in the ventrolateral preoptic and
suprachiasmatic nuclei, indicating that Fos expression is
highly estrogen-dependent, which has been implicated in
sleep regulation5. Also, estrogen receptors were shown in
hypothalamic neurons proving estrogen's direct effect on
brain functions 2. With these animal studies and studies with
postmenopausal women, we concluded that estrogen should
have a role in the regulation of sleep and this could not have
been restricted to postmenopausal period.
In normally cycling women, estrogen and progesterone
levels change during menstrual cycle. Women taking oral
contraceptives and therefore changing sex hormone levels
during cycle were shown to have more stage-2 non-rapid eye
movement sleep in the active phase when compared with that
in the naturally cycling women6. The naturally cycling
women, however, had more slow wave sleep in the luteal
phase when compared with that in the contraceptive group of
women. In the study of Hollander et al. in 2001, they evaluated
236 women aged 35-49 years and they stated that there was a
significant association between FSH levels and sleep
duration, and FSH levels were 20% higher in long-time sleepers than in short-time sleepers, indicating that decrease
in FSH level might have decreased sleep duration, but in their
study, only in women aged 45-49 years, estradiol level was
an important factor in poor sleep7.
In our study, our aim was to show if there was any
relationship between estrogen level and sleep quality in
healthy, normally cycling women who had no contraceptive or
any hormone use. We found that estradiol level on the third day
of cycle was significantly related to subjective sleep quality.
According to the literature about estrogen acting on nuclei that
are important in sleep regulation, this finding is not surprising.
From this point of view, we can suggest that even estradiol in
normal range has an effect on sleep so that lower levels of
estradiol in normal range cause worsening of sleep quality; this
finding is in accordance with the studies which found that
replacement therapies with estrogen increased sleep quality.
But to our knowledge, replacement therapies have been mostly
advised for postmenopausal women; with the present findings,
we suggest that estrogen replacement that will keep its level in
the highest rank of normal range may have a potential
improving effect on sleep quality.
Moreover, sleep disturbances have been related to sleep
apnea especially in men; in the study of Rowley et al. in 2006
about apnea threshold and NREM sleep, they stated that
hormone replacement improves apnea threshold in NREM
sleep, which was shown to be higher in premenopausal women
when compared with that in postmenopausal women8,9.
Thus, apart from its direct effect on sleep regulation centers in
the brain, estrogen is important in respiration during sleep,
which is an important component of a “good sleep”.
In normally cycling healthy women, estradiol level may
affect sleep quality; however, our study had no implication
about its mechanism. Thus, in our opinion, another question should be asked: Which one comes first? Does the decrease
in estradiol level precede sleep changes or changes in sleep
composition cause a decrease in estrogen level in healthy
women? In an animal study, paradoxical sleep-deprived
(PSD) adult female Wistar rats were compared with homecage
control ones on their estrous cyclicity. In this study, the
authors stated that PSD rats exhibited lower estrogen than
those in the respective control rats10. From this point of
view, sleep deprivation may be a factor for changes in
estrogen level even though there have been no studies, to our
knowledge, investigated in this issue.
Thus, we can conclude that in normally cycling healthy
women, estrogen level in normal range is also important in
determining sleep quality as in postmenopausal women, but
there is a missing point-whether estrogen decrease comes
first or not.
In our study, we selected 100 healthy women and our
aim was to define sleep-estradiol level relationship in them,
but we did not mention about any causal factor. A higher
number of women and a study intended to find any causal
relation would give more accurate and satisfying results. On
the other hand, in our study we did not consider other
hormone levels, which with a more comprehensive study
design including other hormones that might have a role in
sleep regulation may give a more coherent picture of sleep
regulation in women.
In future studies, sleep quality and regulation in healthy
women should be evaluated from sex hormones' perspective.
To clearly identify the connection between sex steroids and
sleep, studies in human and animals should focus on both the
function and effects of sex steroids on the brain and clinical
appearance of changes in sex hormone level.