The Normal Menstrual cycle

The Normal Menstrual cycle L1&2

Introduction :
The external manifestation of a normal menstrual cycle is the presence of regular vaginal bleeding . This occurs as a result of the shedding of the endometrial lining following failure of fertilization of the oocyte or failure of implantation . The cycle depends on changes occurring within the ovaries and fluctuation in ovarian hormone levels , that are themselves controlled by the pituitary and hypothalamus , the hypothalamo-pituitary-ovarian axis ( HPO ) .

Hypothalamus :

The hypothalamus in the forebrain secretes the peptide hormone gonadotrophn-releasing hormone ( GnRH ) , which in turn controls pituitary hormone secretion . GnRH must be released in a pulsatile fashion to stimulate pituitary secretion of luteinizing hormone ( LH ) and follicle stimulating hormone ( FSH ) . If GnRH is giving in a constant high dose , it desensitizes the GnRH receptor and reduces LH and FSH release .

Clinical view :

Drugs that are GnRH agonists ( e.g. buserelin and goserelin ) . Although they mimic the GnRH hormone , when administered continuously , they will downregulate the pituitary and consequently decrease LH and FSH secretion . This has effects on ovarian function such that oestrogen and progesterone levels also fall . These preparations are used as treatments for endometriosis and to shrink fibroids prior surgery .

Pituitary gland

GnRH stimulation of the basophil cells in the anterior pituitary gland causes synthesis and release of the gonadotrophic hormones , FSH and LH . This process is modulated by the ovarian sex steroid hormones oestrogen and progesterone ( see Figure 1 ) . Low levels of oestrogen have an inhibitory effect on FSH production ( negative feedback ) , whereas high levels of oestrogen will increase LH production ( positive feedback ) . The mechanism of action for the positive feedback effect of oestrogen involves an increase in GnRH receptor concentrations , while the mechanism of the negative feedback effect is uncertain .
The high levels of circulating oestrogen in the late follicular phase of the ovary act via the positive feedback mechanism to generate a periovulatory LH surge from the pituitary .
The clinical relevance of these mechanisms is seen in the use of the combined oral contraceptive pill , which artificially creates a constant serum oestrogen level in the negative feedback range , inducing a correspondingly low level of gonadotriphin hormone release .


Figure (1) Hyothalamo-pituitary-ovarian axis .

Unlike oestrogen , low levels of progresterone have a positive feedback effect on pituitary LH and FSH secretion ( as seen immediately prior to ovulation ) and contribute to the FSH surge . High levels of progesterone , as seen in the luteal phase , inhibit pituitary LH and FSH production . Positive feedback effects of preogesterone occur via increasing sensitivity to GnRH in the pituitary . Negative feedback effects are generated through both decreased GnRH production from the hypothalamus and decreased sensitivity to GnRH in the pituitary . It is known that progesterone can only have these effects on gonadotropic hormone release after priming by oestrogen ( Figure 2 ) .
There are other hormones which are involved in pituitary gonadotrophin secretion . Inhibin inhibits pituitary FSH secretion , whereas activin stimulates it .

Ovary

Ovaries with developing oocytes are present in the female fetus from an early stage of development . By the end of the second trimester in utero , the number of occytes has reached a maximum and they arrest at the first prophase step in meiotic division . No new occytes are formed during the female lifetime . With the onset of menarche , the primordial follicles containing oocytes will activate and grow in a cyclical fashion , causing ovulation and subsequent menstruation in the event of non-fertilization .
In the course of a normal menstrual cycle , the ovary will go through three phases :
Follicular phase .
Ovulation .
Luteal phase .

Follicular phase :

The initial stages of follicular development are independent of hormone stimulation . However , follicular development will fail at the preantral stage and follicular atresia will ensue if pituitary hormones LH and FSH are absent .
FSH levels rise in the first days of the menstrual cycle , when oestrogen , progesterone and inhibin levels are low . This stimulates a cohort of small antral follicles on the ovaries to grow .
Within the follicles , there are two cell types which are involved in the processing of steroids , These are the theca and the granulosa cells , which respond to LH and FSH stimulation , respectively . LH stimulation production of androgens from cholesterol within theca cells . These androgens are converted into oestrogens by the process of aromatization in granulose cells , under the influence of FSH . The roles of FSH and LH in follicular development are demonstrated by studies on women undergoing ovulation induction in whom endogenous gonadotrophin production has been suppressed . If pure FSH alone is used for ovulation induction , as ovulatory follicle can be produced , but oestrogen production is markedly reduced . Both FSH and LH are required to generate a normal cycle with adequate amounts of oestrogen .
As the follicles grow and oestrogen secretion increases , there is negative feedback on the pituitary to decrease FSH secretion . This assists in the selection of one follicle to continue in its development towards ovulation the dominant follicle . In the ovary , the follicle which has the most efficient aromatase activity and highest concentration of FSH induced LH receptors will be the most likely to survive as FSH levels drop , while smaller follicles will undergo atresia . The dominant follicle will go on producing oestrogen and also inhibin , which enhances androgen synthesis under LH control .


Figure (2) Changes in hormone levels , endometrium and follicle development during the menstrual cycle .

Clinical view :

Administration of exogenous gonadotrophins is likely to stimulate growth of multiple follicles which continue to develop and are released at ovulation ( and can lead to multiple gestations at a rate of around 30 per cent ) .
This situation is used to advantage in patients requiring in vitro fertilization ( IVF ) , as many occytes can be harvested from ovaries which have been stimulated as described above .
There are other autocrine and paracrine mediators playing a role in the follicular phase of the menstrual cycle .
These include : Inhibin and activin . Inhibin participates in feedback to the pituitary to downregulate FSH release , and also appears to enhance ongoing androgen synthesis . Activin is structurally similar to inhibin , but has an opposite action is structurally similar to inhibin , but has an opposite action . It is produced in granulosa cells and in the pituitary , and acts to increase FSH binding on the follicles .
Insulin-like growth factors ( IGF I , IGT II ) act as paracrine regulators .
In the follicular phase , IGF-I is produced by theca cells under the action of LH. IGF-I receptors are present on both theca granulosa cells . Within theca , IGF-I augments LH-induced steroidogenesis . In granulosa cells , IGF-I augments the stimulatory effects of FSH on mitosis , aromatase activity and inhibin production .
In the preovulatory follicle , IGF-I enhances LH-induced progesterone production from granulosa cells .
Following ovulation , IGF-II is produced from luteinized granulosa cells , and acts in an autocrine manner to augment LH-induced proliferation of granulosa cells .
Kisspeptins are proteins which have more recently been found to play a role in regulation of the HPO axis , via the mediation of the metabolic hormone leptin's effect on the hypothalamus , Leptin is thought to be key in the relationship between energy production , weight and reproductive health . Mutations in the kisspeptin receptor , gpr-54 , are associated with delayed or absent puberty , probably due to a reduction in leptin-liked triggers for gonadotrophin release .


Ovulation
By the end of the follicular phase , which lasts an average of 14 days , the dominant follicle has grown to approximately 20 mm in diameter . As the follicle matures :
FSH induces LH receptors on the granulosa cells to compensate for lower FSH levels and prepare for the signal ovulation .
Production of oestrogen increases until they reach the necessary threshold to exert a positive feedback effort on the hypothalamus and pituitary to cause the LH surge .
This occurs over 24 36 hours , during which time the LH-induced luteinization of granulosa cells in the dominant follicle causes progesterone to be produced , adding further to the positive feedback for LH secretion and causing a small periovulatory rise in FSH .
Androgens , synthesized in the theca cells , also rise around the time of ovulation and this is thought to have an important role in stimulating libido , ensuring that sexual activity is likely to occur at the time of greatest fertility .

Clinical view :

The LH surge is one of the best predictors of imminent ovulation , and this is the hormone detected in urine by most over-the-counter 'ovulation predictor' tests .
The LH surge has another function in stimulating the resumption of meiosis in the occyte just prior to its release . The physical ovulation of the oocyte occurs after breakdown of the follicular was occurs under the influence of LH , FSH and progesterone-controlled proteolytic enzymes , such as plasminogen activators and protaglandins . There appears to be an inflammatory-type response within the follicle wall which may assist in extrusion of the oocyte by stimulating smooth muscle activity .
Thus , women wishing to become pregnant should be advised to avoid taking prostaglandin synthetase inhibitors .

Luteal phase :

After the release of the oocyte , the remaining granulosa and theca cells on the ovary form the corpus luteum . The granulosa cells have a vacuolated appearance with accumulated yellow pigment , hence the name corpus luteum ( ' yellow body ' )
Ongoing pituitary LH secretion and granulosa cell activity ensures a supply of progesterone which stabilizes the endometrium in preparation for pregnancy . Progesterone levels are at their highest in the cycle during the luteal phase . This also has the effect of suppressing FSH and LH secretion to a level that will not produce further follicular growth in the ovary during that cycle .
The luteal phase lasts 14 days in most women , without great variation . In the absence of beta human chorionic ganadotrophin ( BHCG ) being produced from an implanting embryo , the corpus luteum will regress in a process known as luteolysis .
The withdrawal of progesterone has the effect on the uterus of causing shedding of the endometrium and thus menstruation . Reduction in levels of progesterone , oestrogen and inhibin feeding back to the pituitary cause increased secretion of gonadotrophic hormone , particularly FSH . New preantral follicles begin to be stimulated and the cycle begins anew .

Endometrium :

The specific secondary changes in the uterine endometrium give the most obvious external sign of regular cycles .


Menstruation :
The endometrium is under the influence of sex steroids that circulate in females of reproductive age .
During the ovarian follicular phase , the endometrium undergoes profileration ( the ' proliferative phase ' ) ; during the ovarian luteal phase , it has its ' secretory phase ' , Decidualization , the formation of a specialized glandular endometrim , is an irreversible process and apoptosis occurs if there is no embryo implantation . Menstruation (day 1) is the shedding of the 'dead' endometrium and ceases as the endometrium regenerates ( which normally happens by day 5 6 of the cycle ) .
The endometrium is composed of two layers , the uppermost of which is shed during menstruation . A fall in circulating levels of oestrogen and progesterone approximately 14 days after ovulation leads to loss of tissue fluid , vasoconstriction of spiral arterioles and distal ischaemia . This results in tissue breakdown , and loss of the upper layer along with bleeding from fragments of the remaining arterioles is seen as menstrual bleeding . Enhanced fibrinolysis reduces clotting .

Clinical view :

The effects of oestrogen and progesterone on the endometrium can be reproduced artificially , for example in patients taking the combined oral contraceptive pill or hormone replacement therapy who experience a withdrawal bleed during their pill-free week each month . Vaginal bleeding will cease after 5 10 days as arterioles vasconstrict and the endometrium begins to regenerate .
In rare cases , the tissue breakdown and vasoconstriction does not occur correctly and the endometrium may develop scarring which goes on to inhibit its function . This is known as ' Asherman's syndrome ' . The endocrine influences in menstruation are clear . However there is also paracrine mediators influence in menstruation ,include : prostaglandin F2 a , endothelin-1 and platelet activating factor ( PAF ) are vasoconstrictors which are produced within the endometrium . They may be balanced by the effect of vasodilator agents , such as prostaglandin E2 , prostacyclin ( PGI ) and nitric oxide (NO) , which are also produced by the endometrium .
Recent research has shown that progesterone withdrawal increases endometrial prostaglandin ( PG ) synthesis and decreases PG metabolism . The COX-2 enzyme and chemokines are involved in PG synthesis and this is likely to be the target of non-steroidal anti-inflammatory agents used for the treatment of heavy and painful periods .

The proliferative phase :

Once endometrial repair is complete . After this time , the endometrium enters the proliferative phase , when glandular and stromal growth occur . The epithelium lining the endometrial glands changes from a single layer of columnar cells to a pseudostratified epithelium with frequent mitoses .
Endometrial thickness increases rapidly , from 0.5 mm at menstruation to 3.5 5 mm at the end of the proliferative phase .


Figure (3) Tissue sections of normal endometrium during proilferative and secretory phases of the menstrual cycle .

The secretory phase

After ovulation ( generally around day 14 ) , there is a period of endometrial glandular secretory activity . following the progesterone surge , the oestrogen-induced cellular proliferation is inhibited and the endometrial thickness does not increase any further . However , the endometrial glands will become more tortuous , spiral arteries will grow , and fluid is secreted into glandular cells and into the uterine lumen . Later in the secretory phase , progesterone induces the formation of a temporary layer , known as the decidua . Stromal cells show increased mitotic activity , nuclear enlargement and generation of a basement membrane .
Recent research into infertility has identified apical membrane projections of the endometrial epithelial cells known as pinopodes , which appear after day 21-22 and appear to be a progesterone-dependent stage in making the endmetrium receptive for embryo implantation ( Figure 4 ) .



Figure (4) photomicrograph of endometrial pinopodes from the implantation window .

Immediately prior to menstruation , three distinct layers of endometrium can be seen .
The basalis is the lower 25 per cent of the endomtrium , which will remain throughout menstruation and shows few changes during the menstrual cycle .
The mid-portion is the stratum spongiosum with oedematous stroma and exhausted glands .
The superficial portion ( upper 25 per cent ) is the stratum compactum with prominent decidualized stromal cells . On the withdrawal of both oestrogen and progesterone , the decidua will collapse , with vasoconstriction and relaxation of spiral arteries and shedding of the outer layers of the endometrium .

New developments :

Measurement of ovarian reserve :
Female reproductive potential is directly proportionate to the remaining number of oocytes in the ovaries . This number decreases from birth onwards .
It is desirable to be able to quantify the residual ovarian capacity of women of older age or after undergoing treatment in order to give prognostic information and management advice to patients , and also to compare different forms of treatment . Research using :
Altrasound markers has looked at measurements of ovarian volume , mean ovarian diameter and antral follicle count to calculate ovarian reserve .
Biochemical markers include FSH . oestrodiol , inhibin B , anti-Mullerian hormone ( AMH ) . AMH is produced in the granulosa cells of ovarian follicles and does not change in response to gonadotrophins during the menstrual cycle . As a result , it can be measured and compared from any point in the cycle .

Harvesting ovarian tissue :

Harvesting and cryopreservation of ovarian tissue is an emerging technique in reproductive biology . At present , its use is experimental and offered to nulliparious women or young females undergoing gonadotrophic therapy , for example to treat cancer . The theory is that strips of ovarian cortex can be removed at laparoscopy or laparotomy and preserved by freezing , in the hope that future technology will allow them to be thawed and used to generate occytes for IVF treatment .

Objective

It is important to have an understanding of the physiology of the normal menstrual cycle to understand the causes of any abnormalities , and also to tackle problems , such as infertility and the prevention of unwanted pregnancy . This lecture aims to describe the mechanisms involved in the normal menstrual cycle , with emphasis on the clinical relevance of each phase .










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