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Menstrual cycle

January 01, 1970

This article is about biological aspects of the reproductive cycle in humans. For information specific to monthly periods, see menstruation and menstruation (mammal).

The menstrual cycle is a series of natural changes in hormone production and the structures of the uterus and ovaries of the female reproductive system that makes pregnancy possible. The ovarian cycle controls the production and release of eggs and the cyclic release of estrogen and progesterone. The uterine cycle governs the preparation and maintenance of the lining of the uterus (womb) to receive an embryo. These cycles are concurrent and coordinated, normally last between 21 and 35 days, with a median length of 28 days, and continue for about 30–45 years.

Menstrual cycle

Naturally occurring hormones drive the cycles; the cyclical rise and fall of the follicle stimulating hormone prompts the production and growth of oocytes (immature egg cells). The hormone estrogen stimulates the uterus lining (endometrium) to thicken to accommodate an embryo should fertilization occur. The blood supply of the thickened lining provides nutrients to a successfully implanted embryo. If implantation does not occur, the lining breaks down and blood is released. Triggered by falling progesterone levels, menstruation (a "period", in common parlance) is the cyclical shedding of the lining, and is a sign that pregnancy has not occurred.

Each cycle occurs in phases based on events either in the ovary (ovarian cycle) or in the uterus (uterine cycle). The ovarian cycle consists of the follicular phase, ovulation, and the luteal phase; the uterine cycle consists of the menstrual, proliferative and secretory phases. Day one of the menstrual cycle is the first day of the period, which lasts for about five days. Around day fourteen, an egg is usually released from the ovary. Menarche (the onset of the first period) usually occurs around the age of 12 years.

The menstrual cycle can cause some women to experience premenstrual syndrome with symptoms that may include tender breasts, and tiredness. More severe symptoms that affect daily living are classed as premenstrual dysphoric disorder, and are experienced by 3–8% of women. During the first few days of menstruation some women experience period pain that can spread from the abdomen to the back and upper thighs. The menstrual cycle can be modified by hormonal birth control.

Cycles and phases edit

 
Progression of the menstrual cycle and some of the hormones contributing to it

The menstrual cycle encompasses the ovarian and uterine cycles. The ovarian cycle describes changes that occur in the follicles of the ovary,[1] whereas the uterine cycle describes changes in the endometrial lining of the uterus. Both cycles can be divided into phases. The ovarian cycle consists of alternating follicular and luteal phases, and the uterine cycle consists of menstruation, the proliferative phase, and the secretory phase.[2] The menstrual cycle is controlled by the hypothalamus in the brain, and the anterior pituitary gland at the base of the brain. The hypothalamus releases gonadotropin-releasing hormone (GnRH), which causes the nearby anterior pituitary to release follicle-stimulating hormone (FSH) and luteinizing hormone (LH). Before puberty, GnRH is released in low steady quantities and at a steady rate. After puberty, GnRH is released in large pulses, and the frequency and magnitude of these determine how much FSH and LH are produced by the pituitary.[3]

Measured from the first day of one menstruation to the first day of the next, the length of a menstrual cycle varies but has a median length of 28 days.[4] The cycle is often less regular at the beginning and end of a woman's reproductive life.[4] At puberty, a child's body begins to mature into an adult body capable of sexual reproduction; the first period (called menarche) occurs at around 12 years of age and continues for about 30–45 years.[5][6] Menstrual cycles end at menopause, which is usually between 45 and 55 years of age.[7][8]

Ovarian cycle edit

Between menarche and menopause the ovaries regularly alternate between luteal and follicular phases during the monthly menstrual cycle.[9] Stimulated by gradually increasing amounts of estrogen in the follicular phase, discharges of blood flow stop and the uterine lining thickens. Follicles in the ovary begin developing under the influence of a complex interplay of hormones, and after several days one, or occasionally two, become dominant, while non-dominant follicles shrink and die. About mid-cycle, some 10–12 hours after the increase in luteinizing hormone, known as the LH surge,[4] the dominant follicle releases an oocyte, in an event called ovulation.[10]

After ovulation, the oocyte lives for 24 hours or less without fertilization,[11] while the remains of the dominant follicle in the ovary become a corpus luteum – a body with the primary function of producing large amounts of the hormone progesterone.[12][a] Under the influence of progesterone, the uterine lining changes to prepare for potential implantation of an embryo to establish a pregnancy. The thickness of the endometrium continues to increase in response to mounting levels of estrogen, which is released by the antral follicle (a mature ovarian follicle) into the blood circulation. Peak levels of estrogen are reached at around day thirteen of the cycle and coincide with ovulation. If implantation does not occur within about two weeks, the corpus luteum degenerates into the corpus albicans, which does not produce hormones, causing a sharp drop in levels of both progesterone and estrogen. This drop causes the uterus to lose its lining in menstruation; it is around this time that the lowest levels of estrogen are reached.[14]

In an ovulatory menstrual cycle, the ovarian and uterine cycles are concurrent and coordinated and last between 21 and 35 days, with a population average of 27–29 days.[15] Although the average length of the human menstrual cycle is similar to that of the lunar cycle, there is no causal relation between the two.[16]

Follicular phase edit

Main article: Follicular phase

The ovaries contain a finite number of egg stem cells, granulosa cells and theca cells, which together form primordial follicles.[12] At around 20 weeks into gestation some 7 million immature eggs have already formed in an ovary. This decreases to around 2 million by the time a girl is born, and 300,000 by the time she has her first period. On average, one egg matures and is released during ovulation each month after menarche.[17] Beginning at puberty, these mature to primary follicles independently of the menstrual cycle.[18] The development of the egg is called oogenesis and only one cell survives the divisions to await fertilization. The other cells are discarded as polar bodies, which cannot be fertilized.[19] The follicular phase is the first part of the ovarian cycle and it ends with the completion of the antral follicles.[9] Meiosis (cell division) remains incomplete in the egg cells until the antral follicle is formed. During this phase usually only one ovarian follicle fully matures and gets ready to release an egg.[20] The follicular phase shortens significantly with age, lasting around 14 days in women aged 18–24 compared with 10 days in women aged 40–44.[14]

Through the influence of a rise in follicle stimulating hormone (FSH) during the first days of the cycle, a few ovarian follicles are stimulated. These follicles, which have been developing for the better part of a year in a process known as folliculogenesis, compete with each other for dominance. All but one of these follicles will stop growing, while one dominant follicle – the one that has the most FSH receptors – will continue to maturity. The remaining follicles die in a process called follicular atresia.[21] Luteinizing hormone (LH) stimulates further development of the ovarian follicle. The follicle that reaches maturity is called an antral follicle, and it contains the ovum (egg cell).[22]

The theca cells develop receptors that bind LH, and in response secrete large amounts of androstenedione. At the same time the granulosa cells surrounding the maturing follicle develop receptors that bind FSH, and in response start secreting androstenedione, which is converted to estrogen by the enzyme aromatase. The estrogen inhibits further production of FSH and LH by the pituitary gland. This negative feedback regulates levels of FSH and LH. The dominant follicle continues to secrete estrogen, and the rising estrogen levels make the pituitary more responsive to GnRH from the hypothalamus. As estrogen increases this becomes a positive feedback signal, which makes the pituitary secrete more FSH and LH. This surge of FSH and LH usually occurs one to two days before ovulation and is responsible for stimulating the rupture of the antral follicle and release of the oocyte.[18][23]

Ovulation edit

Main article: Ovulation
 
An ovary about to release an egg

Around day fourteen, the egg is released from the ovary.[24] Called ovulation, this occurs when a mature egg is released from the ovarian follicles into the fallopian tube, about 10–12 hours after the peak in LH surge.[4] Typically only one of the 15–20 stimulated follicles reaches full maturity, and just one egg is released.[25] Ovulation only occurs in around 10% of cycles during the first two years following menarche, and by the age of 40–50, the number of ovarian follicles is depleted.[26] LH initiates ovulation at around day 14 and stimulates the formation of the corpus luteum.[2] Following further stimulation by LH, the corpus luteum produces and releases estrogen, progesterone, relaxin (which relaxes the uterus by inhibiting contractions of the myometrium), and inhibin (which inhibits further secretion of FSH).[27]

The release of LH matures the egg and weakens the follicle wall in the ovary, causing the fully developed follicle to release its oocyte.[28] If it is fertilized by a sperm, the oocyte promptly matures into an ootid, which blocks the other sperm cells and becomes a mature egg. If it is not fertilized by a sperm, the oocyte degenerates. The mature egg has a diameter of about 0.1 mm (0.0039 in),[29] and is the largest human cell.[30]

Which of the two ovaries – left or right – ovulates appears random;[31] no left and right coordinating process is known.[32] Occasionally both ovaries release an egg; if both eggs are fertilized, the result is fraternal twins.[33] After release from the ovary, the egg is swept into the fallopian tube by the fimbria – a fringe of tissue at the end of each fallopian tube. After about a day, an unfertilized egg disintegrates or dissolves in the fallopian tube, and a fertilized egg reaches the uterus in three to five days.[34]

Fertilization usually takes place in the ampulla, the widest section of the fallopian tubes. A fertilized egg immediately starts the process of embryonic development. The developing embryo takes about three days to reach the uterus, and another three days to implant into the endometrium. It has reached the blastocyst stage at the time of implantation: this is when pregnancy begins.[35] The loss of the corpus luteum is prevented by fertilization of the egg. The syncytiotrophoblast (the outer layer of the resulting embryo-containing blastocyst that later becomes the outer layer of the placenta) produces human chorionic gonadotropin (hCG), which is very similar to LH and preserves the corpus luteum. During the first few months of pregnancy, the corpus luteum continues to secrete progesterone and estrogens at slightly higher levels than those at ovulation. After this and for the rest of the pregnancy, the placenta secretes high levels of these hormones – along with human chorionic gonadotropin (hCG), which stimulates the corpus luteum to secrete more progesterone and estrogens, blocking the menstrual cycle.[36] These hormones also prepare the mammary glands for milk[b] production.[36]

Luteal phase edit

Main article: Luteal phase

Lasting about 14 days,[4] the luteal phase is the final phase of the ovarian cycle and it corresponds to the secretory phase of the uterine cycle. During the luteal phase, the pituitary hormones FSH and LH cause the remaining parts of the dominant follicle to transform into the corpus luteum, which produces progesterone.[38][c] The increased progesterone starts to induce the production of estrogen. The hormones produced by the corpus luteum also suppress production of the FSH and LH that the corpus luteum needs to maintain itself. The level of FSH and LH fall quickly, and the corpus luteum atrophies.[40] Falling levels of progesterone trigger menstruation and the beginning of the next cycle. From the time of ovulation until progesterone withdrawal has caused menstruation to begin, the process typically takes about two weeks. For an individual woman, the follicular phase often varies in length from cycle to cycle; by contrast, the length of her luteal phase will be fairly consistent from cycle to cycle at 10 to 16 days (average 14 days).[14]

Uterine cycle edit

 
The anatomy of the uterus

The uterine cycle has three phases: menses, proliferative and secretory.[41]

Menstruation edit

Main article: Menstruation

Menstruation (also called menstrual bleeding, menses or a period) is the first and most evident phase of the uterine cycle and first occurs at puberty. Called menarche, the first period occurs at the age of around twelve or thirteen years.[8] The average age is generally later in the developing world and earlier in the developed world.[42] In precocious puberty, it can occur as early as age eight years,[43] and this can still be normal.[44][45]

Menstruation is initiated each month by falling levels of estrogen and progesterone and the release of prostaglandins,[20] which constrict the spiral arteries. This causes them to spasm, contract and break up.[46] The blood supply to the endometrium is cut off and the cells of the top layer of the endometrium (the stratum functionalis) become deprived of oxygen and die. Later the whole layer is lost and only the bottom layer, the stratum basalis, is left in place.[20] An enzyme called plasmin breaks up the blood clots in the menstrual fluid, which eases the flow of blood and broken down lining from the uterus.[47] The flow of blood continues for 2–6 days and around 30–60 milliliters of blood is lost,[15] and is a sign that pregnancy has not occurred.[48]

The flow of blood normally serves as a sign that a woman has not become pregnant, but this cannot be taken as certainty, as several factors can cause bleeding during pregnancy.[49] Menstruation occurs on average once a month from menarche to menopause, which corresponds with a woman's fertile years. The average age of menopause in women is 52 years, and it typically occurs between 45 and 55 years of age.[50] Menopause is preceded by a stage of hormonal changes called perimenopause.[7]

Eumenorrhea denotes normal, regular menstruation that lasts for around the first 5 days of the cycle.[24] Women who experience menorrhagia (heavy menstrual bleeding) are more susceptible to iron deficiency than the average person.[51]

Proliferative phase edit

 
During the menstrual cycle, levels of estradiol (an estrogen) vary by 200 percent. Levels of progesterone vary by over 1200 percent.[52]

The proliferative phase is the second phase of the uterine cycle when estrogen causes the lining of the uterus to grow and proliferate.[40] The latter part of the follicular phase overlaps with the proliferative phase of the uterine cycle.[31] As they mature, the ovarian follicles secrete increasing amounts of estradiol, an estrogen. The estrogens initiate the formation of a new layer of endometrium in the uterus with the spiral arterioles.[2]

As estrogen levels increase, cells in the cervix produce a type of cervical mucus[53] that has a higher pH and is less viscous than usual, rendering it more friendly to sperm.[54] This increases the chances of fertilization, which occurs around day 11 to day 14.[11] This cervical mucus can be detected as a vaginal discharge that is copious and resembles raw egg whites.[55] For women who are practicing fertility awareness, it is a sign that ovulation may be about to take place,[55] but it does not mean ovulation will definitely occur.[15]

Secretory phase edit

The secretory phase is the final phase of the uterine cycle and it corresponds to the luteal phase of the ovarian cycle. During the secretory phase, the corpus luteum produces progesterone, which plays a vital role in making the endometrium receptive to the implantation of a blastocyst (a fertilized egg, which has begun to grow).[56] Glycogen, lipids, and proteins are secreted into the uterus[57] and the cervical mucus thickens.[58] In early pregnancy, progesterone also increases blood flow and reduces the contractility of the smooth muscle in the uterus[22] and raises basal body temperature.[59]

If pregnancy does not occur the ovarian and uterine cycles start over again.[47]

Anovulatory cycles and short luteal phases edit

Main article: Anovulation

Only two-thirds of overtly normal menstrual cycles are ovulatory, that is, cycles in which ovulation occurs.[15] The other third lack ovulation or have a short luteal phase (less than ten days[60]) in which progesterone production is insufficient for normal physiology and fertility.[61] Cycles in which ovulation does not occur (anovulation) are common in girls who have just begun menstruating and in women around menopause. During the first two years following menarche, ovulation is absent in around half of cycles. Five years after menarche, ovulation occurs in around 75% of cycles and this reaches 80% in the following years.[62] Anovulatory cycles are often overtly identical to normally ovulatory cycles.[63] Any alteration to balance of hormones can lead to anovulation. Stress, anxiety and eating disorders can cause a fall in GnRH, and a disruption of the menstrual cycle. Chronic anovulation occurs in 6–15% of women during their reproductive years. Around menopause, hormone feedback dysregulation leads to anovulatory cycles. Although anovulation is not considered a disease, it can be a sign of an underlying condition such as polycystic ovary syndrome.[64] Anovulatory cycles or short luteal phases are normal when women are under stress or athletes increasing the intensity of training. These changes are reversible as the stressors decrease or, in the case of the athlete, as she adapts to the training.[60]

Menstrual health edit

 
A human primary ovarian follicle viewed by microscopy. The round oocyte stained red in the center is surrounded by a layer of granulosa cells, which are enveloped by the basement membrane and theca cells. The magnification is around 1000 times. (H&E stain)

Although a normal and natural process,[65] some women experience premenstrual syndrome with symptoms that may include acne, tender breasts, and tiredness.[66] More severe symptoms that affect daily living are classed as premenstrual dysphoric disorder and are experienced by 3 to 8% of women.[4][67][66][68] Dysmenorrhea (menstrual cramps or period pain) is felt as painful cramps in the abdomen that can spread to the back and upper thighs during the first few days of menstruation.[69][70][71] Debilitating period pain is not normal and can be a sign of something severe such as endometriosis.[72] These issues can significantly affect a woman's health and quality of life and timely interventions can improve the lives of these women.[73]

There are common culturally communicated misbeliefs that the menstrual cycle affects women's moods, causes depression or irritability, or that menstruation is a painful, shameful or unclean experience. Often a woman's normal mood variation is falsely attributed to the menstrual cycle. Much of the research is weak, but there appears to be a very small increase in mood fluctuations during the luteal and menstrual phases, and a corresponding decrease during the rest of the cycle.[74] Changing levels of estrogen and progesterone across the menstrual cycle exert systemic effects on aspects of physiology including the brain, metabolism, and musculoskeletal system. The result can be subtle physiological and observable changes to women's athletic performance including strength, aerobic, and anaerobic performance.[75]

Changes to the brain have also been observed throughout the menstrual cycle[76] but do not translate into measurable changes in intellectual achievement – including academic performance, problem-solving, and memory.[77] Improvements in spatial reasoning ability during the menstruation phase of the cycle are probably caused by decreases in levels of estrogen and progesterone.[74]

In some women, ovulation features a characteristic pain[d] called mittelschmerz (a German term meaning middle pain). The cause of the pain is associated with the ruptured follicle, causing a small amount of blood loss.[20]

Even when normal, the changes in hormone levels during the menstrual cycle can increase the incidence of disorders such as autoimmune diseases,[81] which might be caused by estrogen enhancement of the immune system.[4]

Around 40% of women with epilepsy find that their seizures occur more frequently at certain phases of their menstrual cycle. This catamenial epilepsy may be due to a drop in progesterone if it occurs during the luteal phase or around menstruation, or a surge in estrogen if it occurs at ovulation. Women who have regular periods can take medication just before and during menstruation. Options include progesterone supplements, increasing the dose of their regular anticonvulsant drug, or temporarily adding an anticonvulsant such as clobazam or acetazolamide. If this is ineffective, or when a woman's menstrual cycle is irregular, then treatment is to stop the menstrual cycle occurring. This may be achieved using medroxyprogesterone, triptorelin or goserelin, or by sustained use of oral contraceptives.[82][83]

Hormonal contraception edit

Main article: Hormonal contraception

Hormonal contraceptives prevent pregnancy by inhibiting the secretion of the hormones, FSH, LH and GnRH. Hormonal contraception that contains estrogen, such as combined oral contraceptive pills (COCPs), stop the development of the dominant follicle and the mid-cycle LH surge and thus ovulation.[84] Sequential dosing and discontinuation of the COCP can mimic the uterine cycle and produce bleeding that resembles a period. In some cases, this bleeding is lighter.[85]

Progestin-only methods of hormonal contraception do not always prevent ovulation but instead work by stopping the cervical mucus from becoming sperm-friendly. Hormonal contraception is available in a variety of forms such as pills, patches, skin implants and hormonal intrauterine devices (IUDs).[86]

Evolution and other species edit

Further information: Menstruation (mammal)

Most female mammals have an estrous cycle, but only ten primate species, four bat species, the elephant shrews and the Cairo spiny mouse (Acomys cahirinus) have a menstrual cycle.[87][88] The cycles are the same as in humans apart from the length, which ranges from 9 to 37 days.[89][87] The lack of immediate relationship between these groups suggests that four distinct evolutionary events have caused menstruation to arise.[90] There are four theories on the evolutionary significance of menstruation:[90]

  1. Control of sperm-borne pathogens.[91][92][93] This hypothesis held that menstruation protected the uterus against pathogens introduced by sperm. Hypothesis 1 does not take into account that copulation can take place weeks before menstruation and that potentially infectious semen is not controlled by menstruation in other species.[90]
  2. Energy conservation.[92][94] This hypothesis claimed that it took less energy to rebuild a uterine lining than to maintain it if pregnancy did not occur. Hypothesis 2 does not explain other species that also do not maintain a uterine lining but do not menstruate.[90]
  3. A theory based on spontaneous decidualization (a process that results in significant changes to cells of the endometrium in preparation for, and during, pregnancy, in which the endometrium changes into the decidua). Decidualization leads to the development of the endothelium, which involves cells of the immune system,[89] the formation of a new blood supply, hormones and tissue differentiation. In non-menstruating mammals, decidualization is driven by the embryo, not the mother.[92] It evolved in some placental mammals because it confers advantages in that it allows females to prepare for pregnancy without needing a signal from the fetus.[90] Hypothesis 3 defers to an explanation of the evolutionary origin of spontaneous decidualization and does not explain the evolution of menstruation alone.[90]
  4. Uterine pre-conditioning.[95] This hypothesis claims that a monthly pre-conditioning of the uterus is needed in species, such as humans, that have deeply invasive (deep-rooted) placentas. In the process leading to the formation of a placenta, maternal tissues are invaded. This hypothesis holds that menstruation was not evolutionary, rather the result of a coincidental pre-conditioning of the uterus to protect uterine tissue from the deeply rooting placenta, in which a thicker endometrium develops.[95] Hypothesis 4 does not explain menstruation in non-primates.[90]

Notes edit

  1. ^ Progesterone levels exceed those of estrogen (estradiol) by a hundred-fold.[13]
  2. ^ Breastfeeding women can experience complete suppression of follicular development, follicular development but no ovulation, or resumption of normal menstrual cycles.[37]
  3. ^ In the corpus luteum, cholesterol side-chain cleavage enzyme converts cholesterol to pregnenolone, which is converted to progesterone.[39]
  4. ^ Uncharacteristic mid-cycle pain may be caused by medical conditions such as ectopic pregnancy or ruptured ovarian cyst[78][79] or may be confused with appendicitis.[80]

References edit

  1. ^ Richards JS (2018). "The ovarian cycle". Vitamins and Hormones (Review). 107: 1–25. doi:10.1016/bs.vh.2018.01.009. ISBN 978-0-128-14359-9. PMID 29544627.
  2. ^ a b c Tortora 2017, p. 944.
  3. ^ Prior 2020, p. 42.
  4. ^ a b c d e f g Reed BF, Carr BR, Feingold KR, et al. (2018). "The Normal Menstrual Cycle and the Control of Ovulation". Endotext (Review). PMID 25905282. from the original on 28 May 2021. Retrieved 8 January 2021.
  5. ^ Prior 2020, p. 40.
  6. ^ Lacroix AE, Gondal H, Langaker MD (2020). "Physiology, menarche". StatPearls [Internet]. Treasure Island (FL): StatPearls Publishing (Review). PMID 29261991.
  7. ^ a b Rodriguez-Landa 2017, p. 8.
  8. ^ a b Papadimitriou A (December 2016). "The evolution of the age at menarche from prehistorical to modern times". Journal of Pediatric and Adolescent Gynecology (Review). 29 (6): 527–530. doi:10.1016/j.jpag.2015.12.002. PMID 26703478.
  9. ^ a b Sherwood 2016, p. 741.
  10. ^ Sherwood 2016, p. 747.
  11. ^ a b Tortora 2017, p. 957.
  12. ^ a b Tortora 2017, p. 929.
  13. ^ Prior 2020, p. 41.
  14. ^ a b c Tortora 2017, pp. 942–946.
  15. ^ a b c d Prior 2020, p. 45.
  16. ^ Norris & Carr 2013, p. 361.
  17. ^ Ugwumadu 2014, p. 115.
  18. ^ a b Watchman 2020, p. 8.
  19. ^ Schmerler S, Wessel GM (January 2011). "Polar bodies – more a lack of understanding than a lack of respect". Molecular Reproduction and Development (Review). 78 (1): 3–8. doi:10.1002/mrd.21266. PMC 3164815. PMID 21268179.
  20. ^ a b c d Tortora 2017, p. 945.
  21. ^ Johnson 2007, p. 86.
  22. ^ a b Tortora 2017, p. 942.
  23. ^ Sherwood 2016, p. 745.
  24. ^ a b Tortora 2017, p. 943.
  25. ^ Sadler 2019, p. 48.
  26. ^ Tortora 2017, p. 953.
  27. ^ Tortora 2017, p. 920.
  28. ^ Sherwood 2016, p. 746.
  29. ^ Alberts B, Johnson A, Lewis J, Raff M, Roberts K, Walter P (2002). "Eggs". Molecular Biology of the Cell (4th ed.). New York: Garland Science. ISBN 0-8153-3218-1. from the original on 16 December 2019. Retrieved 25 February 2021.
  30. ^ Iussig B, Maggiulli R, Fabozzi G, Bertelle S, Vaiarelli A, Cimadomo D, Ubaldi FM, Rienzi L (May 2019). "A brief history of oocyte cryopreservation: Arguments and facts". Acta Obstetricia et Gynecologica Scandinavica (Review). 98 (5): 550–558. doi:10.1111/aogs.13569. PMID 30739329.
  31. ^ a b Parker 2019, p. 283.
  32. ^ Johnson 2007, pp. 192–193.
  33. ^ Johnson 2007, p. 192.
  34. ^ Sadler 2019, p. 36.
  35. ^ Tortora 2017, p. 959.
  36. ^ a b Tortora 2017, p. 976.
  37. ^ Carr SL, Gaffield ME, Dragoman MV, Phillips S (September 2016). "Safety of the progesterone-releasing vaginal ring (PVR) among lactating women: A systematic review". Contraception (Review). 94 (3): 253–261. doi:10.1016/j.contraception.2015.04.001. PMID 25869631.
  38. ^ Johnson 2007, p. 91.
  39. ^ King SR, LaVoie HA (January 2012). "Gonadal transactivation of STARD1, CYP11A1 and HSD3B". Frontiers in Bioscience (Landmark Edition). 17 (3): 824–846. doi:10.2741/3959. PMID 22201776.
  40. ^ a b Ugwumadu 2014, p. 117.
  41. ^ Salamonsen LA (December 2019). "Women in reproductive science: Understanding human endometrial function". Reproduction (Review). 158 (6): F55–F67. doi:10.1530/REP-18-0518. PMID 30521482.
  42. ^ Alvergne A, Högqvist Tabor V (June 2018). "Is female health cyclical? Evolutionary perspectives on menstruation". Trends in Ecology & Evolution (Review). 33 (6): 399–414. arXiv:1704.08590. doi:10.1016/j.tree.2018.03.006. PMID 29778270. S2CID 4581833.
  43. ^ Ibitoye M, Choi C, Tai H, Lee G, Sommer M (2017). "Early menarche: A systematic review of its effect on sexual and reproductive health in low- and middle-income countries". PLOS ONE (Review). 12 (6): e0178884. Bibcode:2017PLoSO..1278884I. doi:10.1371/journal.pone.0178884. PMC 5462398. PMID 28591132.
  44. ^ . Office of Women's Health. US Department of Health and Human Services. 23 December 2014. Archived from the original on 26 June 2015. Retrieved 25 June 2015.
  45. ^ Sultan C, Gaspari L, Maimoun L, Kalfa N, Paris F (April 2018). "Disorders of puberty" (PDF). Best Practice & Research. Clinical Obstetrics & Gynaecology (Review). 48: 62–89. doi:10.1016/j.bpobgyn.2017.11.004. PMID 29422239. (PDF) from the original on 1 July 2020. Retrieved 27 February 2021.
  46. ^ Johnson 2007, p. 152.
  47. ^ a b Tortora 2017, p. 600.
  48. ^ Johnson 2007, p. 99.
  49. ^ Breeze C (May 2016). "Early pregnancy bleeding". Australian Family Physician (Review). 45 (5): 283–286. PMID 27166462.
  50. ^ Towner MC, Nenko I, Walton SE (April 2016). "Why do women stop reproducing before menopause? A life-history approach to age at last birth". Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences (Review). 371 (1692): 20150147. doi:10.1098/rstb.2015.0147. PMC 4822427. PMID 27022074.
  51. ^ Harvey LJ, Armah CN, Dainty JR, Foxall RJ, John Lewis D, Langford NJ, Fairweather-Tait SJ (October 2005). "Impact of menstrual blood loss and diet on iron deficiency among women in the UK". The British Journal of Nutrition (Comparative study). 94 (4): 557–564. doi:10.1079/BJN20051493. PMID 16197581.
  52. ^ Prior JC (2020). "Women's reproductive system as balanced estradiol and progesterone actions—A revolutionary, paradigm-shifting concept in women's health". Drug Discovery Today: Disease Models. 32, Part B: 31–40. doi:10.1016/j.ddmod.2020.11.005.
  53. ^ Simmons RG, Jennings V (July 2020). "Fertility awareness-based methods of family planning". Best Practice & Research. Clinical Obstetrics & Gynaecology (Review). 66: 68–82. doi:10.1016/j.bpobgyn.2019.12.003. PMID 32169418.
  54. ^ Tortora 2017, pp. 936–937.
  55. ^ a b Su HW, Yi YC, Wei TY, Chang TC, Cheng CM (September 2017). "Detection of ovulation, a review of currently available methods". Bioeng Transl Med (Review). 2 (3): 238–246. doi:10.1002/btm2.10058. PMC 5689497. PMID 29313033.
  56. ^ Lessey BA, Young SL (April 2019). "What exactly is endometrial receptivity?". Fertility and Sterility (Review). 111 (4): 611–617. doi:10.1016/j.fertnstert.2019.02.009. PMID 30929718.
  57. ^ Salamonsen LA, Evans J, Nguyen HP, Edgell TA (March 2016). "The microenvironment of human implantation: determinant of reproductive success". American Journal of Reproductive Immunology (Review). 75 (3): 218–225. doi:10.1111/aji.12450. PMID 26661899.
  58. ^ Han L, Taub R, Jensen JT (November 2017). "Cervical mucus and contraception: what we know and what we don't". Contraception (Review). 96 (5): 310–321. doi:10.1016/j.contraception.2017.07.168. PMID 28801053.
  59. ^ Charkoudian N, Hart EC, Barnes JN, Joyner MJ (June 2017). "Autonomic control of body temperature and blood pressure: influences of female sex hormones" (PDF). Clinical Autonomic Research (Review). 27 (3): 149–155. doi:10.1007/s10286-017-0420-z. hdl:1983/c0c1058c-553b-4563-8dd1-b047d9b672c1. PMID 28488202. S2CID 3773043. (PDF) from the original on 10 May 2020. Retrieved 27 February 2021.
  60. ^ a b Liu AY, Petit MA, Prior JC (2020). "Exercise and the Hypothalamus: Ovulatory Adaptations". In Hackney AC, Constantini NW (eds.). Endocrinology of Physical Activity and Sport. Contemporary Endocrinology. Springer International Publishing. pp. 124–147. doi:10.1007/978-3-030-33376-8_8. ISBN 978-3-030-33376-8. S2CID 243129220.
  61. ^ Prior 2020, p. 46.
  62. ^ Elmaoğulları S, Aycan Z (July 2018). "Abnormal uterine bleeding in adolescents". Journal of Clinical Research in Pediatric Endocrinology. 10 (3): 191–197. doi:10.4274/jcrpe.0014. PMC 6083466. PMID 29537383.
  63. ^ Prior 2020, p. 44.
  64. ^ Hernandez-Rey, AE (2 August 2018). "Anovulation". Medscape. Medscape LLC. from the original on 20 March 2021. Retrieved 30 March 2021.
  65. ^ Prior 2020, p. 50.
  66. ^ a b Gudipally, Pratyusha R.; Sharma, Gyanendra K. (2022). "Premenstrual Syndrome". StatPearls. StatPearls Publishing. PMID 32809533. NBK560698.
  67. ^ Appleton SM (March 2018). "Premenstrual syndrome: evidence-based evaluation and treatment". Clinical Obstetrics and Gynecology (Review). 61 (1): 52–61. doi:10.1097/GRF.0000000000000339. PMID 29298169. S2CID 28184066.
  68. ^ Ferries-Rowe E, Corey E, Archer JS (November 2020). "Primary Dysmenorrhea: Diagnosis and Therapy". Obstetrics and Gynecology. 136 (5): 1047–1058. doi:10.1097/AOG.0000000000004096. PMID 33030880.
  69. ^ "Period pain". nhs.uk. 19 October 2017. Retrieved 12 November 2022.
  70. ^ Nagy, Hassan; Khan, Moien AB (2022). "Dysmenorrhea". StatPearls. StatPearls Publishing. PMID 32809669. NBK560834.
  71. ^ Baker FC, Lee KA (September 2018). "Menstrual cycle effects on sleep". Sleep Medicine Clinics (Review). 13 (3): 283–294. doi:10.1016/j.jsmc.2018.04.002. PMID 30098748. S2CID 51968811.
  72. ^ Maddern J, Grundy L, Castro J, Brierley SM (2020). "Pain in endometriosis". Frontiers in Cellular Neuroscience. 14: 590823. doi:10.3389/fncel.2020.590823. PMC 7573391. PMID 33132854.
  73. ^ Matteson KA, Zaluski KM (September 2019). "Menstrual health as a part of preventive health care". Obstetrics and Gynecology Clinics of North America (Review). 46 (3): 441–453. doi:10.1016/j.ogc.2019.04.004. PMID 31378287. S2CID 199437314.
  74. ^ a b Else-Quest & Hyde 2021, pp. 258–261.
  75. ^ Carmichael MA, Thomson RL, Moran LJ, Wycherley TP (February 2021). "The impact of menstrual cycle phase on athletes' performance: a narrative review". Int J Environ Res Public Health (Review). 18 (4): 1667. doi:10.3390/ijerph18041667. PMC 7916245. PMID 33572406.
  76. ^ Pletzer B, Harris TA, Scheuringer A, Hidalgo-Lopez E (October 2019). "The cycling brain: menstrual cycle related fluctuations in hippocampal and fronto-striatal activation and connectivity during cognitive tasks". Neuropsychopharmacology. 44 (11): 1867–1875. doi:10.1038/s41386-019-0435-3. PMC 6785086. PMID 31195407.
  77. ^ Le J, Thomas N, Gurvich C (March 2020). "Cognition, the menstrual cycle, and premenstrual disorders: a review". Brain Sci (Review). 10 (4): 198. doi:10.3390/brainsci10040198. PMC 7226433. PMID 32230889.
  78. ^ Kruszka PS, Kruszka SJ (July 2010). "Evaluation of acute pelvic pain in women". Am Fam Physician (Review). 82 (2): 141–147. PMID 20642266. from the original on 27 January 2021. Retrieved 4 March 2021.
  79. ^ Cleary M, Flanagan KW (2019). Acute and Emergency Care in Athletic Training. Human Kinetics. p. 340.
  80. ^ Brott, Nathan R.; Le, Jacqueline K. (2022). "Mittelschmerz". StatPearls. StatPearls Publishing. PMID 31747229. NBK549822.
  81. ^ Talsania M, Scofield RH (May 2017). "Menopause and rheumatic disease". Rheumatic Disease Clinics of North America (Review). 43 (2): 287–302. doi:10.1016/j.rdc.2016.12.011. PMC 5385852. PMID 28390570.
  82. ^ Maguire MJ, Nevitt SJ (September 2021). "Treatments for seizures in catamenial (menstrual-related) epilepsy". The Cochrane Database of Systematic Reviews. 2021 (9): CD013225. doi:10.1002/14651858.CD013225.pub3. PMC 8444032. PMID 34528245.
  83. ^ Sveinsson O, Tomson T (September 2014). "Epilepsy and menopause: potential implications for pharmacotherapy". Drugs & Aging. 31 (9): 671–675. doi:10.1007/s40266-014-0201-5. PMID 25079452. S2CID 21166687.
  84. ^ Tortora 2017, p. 948.
  85. ^ Polis CB, Hussain R, Berry A (June 2018). "There might be blood: a scoping review on women's responses to contraceptive-induced menstrual bleeding changes". Reproductive Health. 15 (1): 114. doi:10.1186/s12978-018-0561-0. PMC 6020216. PMID 29940996.
  86. ^ Tortora 2017, pp. 948–949.
  87. ^ a b Bellofiore N, Ellery SJ, Mamrot J, Walker DW, Temple-Smith P, Dickinson H (January 2017). "First evidence of a menstruating rodent: the spiny mouse (Acomys cahirinus)" (PDF). American Journal of Obstetrics and Gynecology (Journal article). 216 (1): 40.e1–40.e11. doi:10.1016/j.ajog.2016.07.041. PMID 27503621. S2CID 88779.
  88. ^ Bellofiore, Nadia; Cousins, Fiona; Temple-Smith, Peter; Evans, Jemma (1 February 2019). "Altered exploratory behaviour and increased food intake in the spiny mouse before menstruation: a unique pre-clinical model for examining premenstrual syndrome". Human Reproduction. 34 (2): 308–322. doi:10.1093/humrep/dey360. ISSN 0268-1161. PMID 30561655.
  89. ^ a b Catalini L, Fedder J (May 2020). "Characteristics of the endometrium in menstruating species: lessons learned from the animal kingdom†". Biology of Reproduction (Journal article). 102 (6): 1160–1169. doi:10.1093/biolre/ioaa029. PMC 7253787. PMID 32129461.
  90. ^ a b c d e f g Emera D, Romero R, Wagner G (January 2012). "The evolution of menstruation: a new model for genetic assimilation: explaining molecular origins of maternal responses to fetal invasiveness". BioEssays (Journal article). 34 (1): 26–35. doi:10.1002/bies.201100099. PMC 3528014. PMID 22057551. See , 20 April 2015.
  91. ^ Martin RD (2007). "The evolution of human reproduction: a primatological perspective". American Journal of Physical Anthropology (Review). 134 (S45): 59–84. doi:10.1002/ajpa.20734. PMID 18046752. S2CID 44416632.
  92. ^ a b c Finn CA (June 1998). "Menstruation: a nonadaptive consequence of uterine evolution". The Quarterly Review of Biology (Review). 73 (2): 163–173. doi:10.1086/420183. PMID 9618925. S2CID 25135630.
  93. ^ Profet M (September 1993). "Menstruation as a defense against pathogens transported by sperm". The Quarterly Review of Biology (Review). 68 (3): 335–386. doi:10.1086/418170. PMID 8210311. S2CID 23738569.
  94. ^ Strassmann BI (June 1996). "The evolution of endometrial cycles and menstruation". The Quarterly Review of Biology (Review). 71 (2): 181–220. doi:10.1086/419369. PMID 8693059. S2CID 6207295.
  95. ^ a b Brosens JJ, Parker MG, McIndoe A, Pijnenborg R, Brosens IA (June 2009). "A role for menstruation in preconditioning the uterus for successful pregnancy". American Journal of Obstetrics and Gynecology (Journal article). 200 (6): 615.e1–6. doi:10.1016/j.ajog.2008.11.037. PMID 19136085.

Book sources edit

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  Media related to Menstrual cycle at Wikimedia Commons

January 01, 1970
menstrual, cycle, this, article, about, biological, aspects, reproductive, cycle, humans, information, specific, monthly, periods, menstruation, menstruation, mammal, menstrual, cycle, series, natural, changes, hormone, production, structures, uterus, ovaries,. This article is about biological aspects of the reproductive cycle in humans For information specific to monthly periods see menstruation and menstruation mammal The menstrual cycle is a series of natural changes in hormone production and the structures of the uterus and ovaries of the female reproductive system that makes pregnancy possible The ovarian cycle controls the production and release of eggs and the cyclic release of estrogen and progesterone The uterine cycle governs the preparation and maintenance of the lining of the uterus womb to receive an embryo These cycles are concurrent and coordinated normally last between 21 and 35 days with a median length of 28 days and continue for about 30 45 years Menstrual cycle Naturally occurring hormones drive the cycles the cyclical rise and fall of the follicle stimulating hormone prompts the production and growth of oocytes immature egg cells The hormone estrogen stimulates the uterus lining endometrium to thicken to accommodate an embryo should fertilization occur The blood supply of the thickened lining provides nutrients to a successfully implanted embryo If implantation does not occur the lining breaks down and blood is released Triggered by falling progesterone levels menstruation a period in common parlance is the cyclical shedding of the lining and is a sign that pregnancy has not occurred Each cycle occurs in phases based on events either in the ovary ovarian cycle or in the uterus uterine cycle The ovarian cycle consists of the follicular phase ovulation and the luteal phase the uterine cycle consists of the menstrual proliferative and secretory phases Day one of the menstrual cycle is the first day of the period which lasts for about five days Around day fourteen an egg is usually released from the ovary Menarche the onset of the first period usually occurs around the age of 12 years The menstrual cycle can cause some women to experience premenstrual syndrome with symptoms that may include tender breasts and tiredness More severe symptoms that affect daily living are classed as premenstrual dysphoric disorder and are experienced by 3 8 of women During the first few days of menstruation some women experience period pain that can spread from the abdomen to the back and upper thighs The menstrual cycle can be modified by hormonal birth control Contents 1 Cycles and phases 1 1 Ovarian cycle 1 1 1 Follicular phase 1 1 2 Ovulation 1 1 3 Luteal phase 1 2 Uterine cycle 1 2 1 Menstruation 1 2 2 Proliferative phase 1 2 3 Secretory phase 2 Anovulatory cycles and short luteal phases 3 Menstrual health 3 1 Hormonal contraception 4 Evolution and other species 5 Notes 6 References 6 1 Book sources 7 External linksCycles and phases edit nbsp Progression of the menstrual cycle and some of the hormones contributing to it The menstrual cycle encompasses the ovarian and uterine cycles The ovarian cycle describes changes that occur in the follicles of the ovary 1 whereas the uterine cycle describes changes in the endometrial lining of the uterus Both cycles can be divided into phases The ovarian cycle consists of alternating follicular and luteal phases and the uterine cycle consists of menstruation the proliferative phase and the secretory phase 2 The menstrual cycle is controlled by the hypothalamus in the brain and the anterior pituitary gland at the base of the brain The hypothalamus releases gonadotropin releasing hormone GnRH which causes the nearby anterior pituitary to release follicle stimulating hormone FSH and luteinizing hormone LH Before puberty GnRH is released in low steady quantities and at a steady rate After puberty GnRH is released in large pulses and the frequency and magnitude of these determine how much FSH and LH are produced by the pituitary 3 Measured from the first day of one menstruation to the first day of the next the length of a menstrual cycle varies but has a median length of 28 days 4 The cycle is often less regular at the beginning and end of a woman s reproductive life 4 At puberty a child s body begins to mature into an adult body capable of sexual reproduction the first period called menarche occurs at around 12 years of age and continues for about 30 45 years 5 6 Menstrual cycles end at menopause which is usually between 45 and 55 years of age 7 8 Ovarian cycle edit Between menarche and menopause the ovaries regularly alternate between luteal and follicular phases during the monthly menstrual cycle 9 Stimulated by gradually increasing amounts of estrogen in the follicular phase discharges of blood flow stop and the uterine lining thickens Follicles in the ovary begin developing under the influence of a complex interplay of hormones and after several days one or occasionally two become dominant while non dominant follicles shrink and die About mid cycle some 10 12 hours after the increase in luteinizing hormone known as the LH surge 4 the dominant follicle releases an oocyte in an event called ovulation 10 After ovulation the oocyte lives for 24 hours or less without fertilization 11 while the remains of the dominant follicle in the ovary become a corpus luteum a body with the primary function of producing large amounts of the hormone progesterone 12 a Under the influence of progesterone the uterine lining changes to prepare for potential implantation of an embryo to establish a pregnancy The thickness of the endometrium continues to increase in response to mounting levels of estrogen which is released by the antral follicle a mature ovarian follicle into the blood circulation Peak levels of estrogen are reached at around day thirteen of the cycle and coincide with ovulation If implantation does not occur within about two weeks the corpus luteum degenerates into the corpus albicans which does not produce hormones causing a sharp drop in levels of both progesterone and estrogen This drop causes the uterus to lose its lining in menstruation it is around this time that the lowest levels of estrogen are reached 14 In an ovulatory menstrual cycle the ovarian and uterine cycles are concurrent and coordinated and last between 21 and 35 days with a population average of 27 29 days 15 Although the average length of the human menstrual cycle is similar to that of the lunar cycle there is no causal relation between the two 16 Follicular phase edit Main article Follicular phase The ovaries contain a finite number of egg stem cells granulosa cells and theca cells which together form primordial follicles 12 At around 20 weeks into gestation some 7 million immature eggs have already formed in an ovary This decreases to around 2 million by the time a girl is born and 300 000 by the time she has her first period On average one egg matures and is released during ovulation each month after menarche 17 Beginning at puberty these mature to primary follicles independently of the menstrual cycle 18 The development of the egg is called oogenesis and only one cell survives the divisions to await fertilization The other cells are discarded as polar bodies which cannot be fertilized 19 The follicular phase is the first part of the ovarian cycle and it ends with the completion of the antral follicles 9 Meiosis cell division remains incomplete in the egg cells until the antral follicle is formed During this phase usually only one ovarian follicle fully matures and gets ready to release an egg 20 The follicular phase shortens significantly with age lasting around 14 days in women aged 18 24 compared with 10 days in women aged 40 44 14 Through the influence of a rise in follicle stimulating hormone FSH during the first days of the cycle a few ovarian follicles are stimulated These follicles which have been developing for the better part of a year in a process known as folliculogenesis compete with each other for dominance All but one of these follicles will stop growing while one dominant follicle the one that has the most FSH receptors will continue to maturity The remaining follicles die in a process called follicular atresia 21 Luteinizing hormone LH stimulates further development of the ovarian follicle The follicle that reaches maturity is called an antral follicle and it contains the ovum egg cell 22 The theca cells develop receptors that bind LH and in response secrete large amounts of androstenedione At the same time the granulosa cells surrounding the maturing follicle develop receptors that bind FSH and in response start secreting androstenedione which is converted to estrogen by the enzyme aromatase The estrogen inhibits further production of FSH and LH by the pituitary gland This negative feedback regulates levels of FSH and LH The dominant follicle continues to secrete estrogen and the rising estrogen levels make the pituitary more responsive to GnRH from the hypothalamus As estrogen increases this becomes a positive feedback signal which makes the pituitary secrete more FSH and LH This surge of FSH and LH usually occurs one to two days before ovulation and is responsible for stimulating the rupture of the antral follicle and release of the oocyte 18 23 Ovulation edit Main article Ovulation nbsp An ovary about to release an egg Around day fourteen the egg is released from the ovary 24 Called ovulation this occurs when a mature egg is released from the ovarian follicles into the fallopian tube about 10 12 hours after the peak in LH surge 4 Typically only one of the 15 20 stimulated follicles reaches full maturity and just one egg is released 25 Ovulation only occurs in around 10 of cycles during the first two years following menarche and by the age of 40 50 the number of ovarian follicles is depleted 26 LH initiates ovulation at around day 14 and stimulates the formation of the corpus luteum 2 Following further stimulation by LH the corpus luteum produces and releases estrogen progesterone relaxin which relaxes the uterus by inhibiting contractions of the myometrium and inhibin which inhibits further secretion of FSH 27 The release of LH matures the egg and weakens the follicle wall in the ovary causing the fully developed follicle to release its oocyte 28 If it is fertilized by a sperm the oocyte promptly matures into an ootid which blocks the other sperm cells and becomes a mature egg If it is not fertilized by a sperm the oocyte degenerates The mature egg has a diameter of about 0 1 mm 0 0039 in 29 and is the largest human cell 30 Which of the two ovaries left or right ovulates appears random 31 no left and right coordinating process is known 32 Occasionally both ovaries release an egg if both eggs are fertilized the result is fraternal twins 33 After release from the ovary the egg is swept into the fallopian tube by the fimbria a fringe of tissue at the end of each fallopian tube After about a day an unfertilized egg disintegrates or dissolves in the fallopian tube and a fertilized egg reaches the uterus in three to five days 34 Fertilization usually takes place in the ampulla the widest section of the fallopian tubes A fertilized egg immediately starts the process of embryonic development The developing embryo takes about three days to reach the uterus and another three days to implant into the endometrium It has reached the blastocyst stage at the time of implantation this is when pregnancy begins 35 The loss of the corpus luteum is prevented by fertilization of the egg The syncytiotrophoblast the outer layer of the resulting embryo containing blastocyst that later becomes the outer layer of the placenta produces human chorionic gonadotropin hCG which is very similar to LH and preserves the corpus luteum During the first few months of pregnancy the corpus luteum continues to secrete progesterone and estrogens at slightly higher levels than those at ovulation After this and for the rest of the pregnancy the placenta secretes high levels of these hormones along with human chorionic gonadotropin hCG which stimulates the corpus luteum to secrete more progesterone and estrogens blocking the menstrual cycle 36 These hormones also prepare the mammary glands for milk b production 36 Luteal phase edit Main article Luteal phase Lasting about 14 days 4 the luteal phase is the final phase of the ovarian cycle and it corresponds to the secretory phase of the uterine cycle During the luteal phase the pituitary hormones FSH and LH cause the remaining parts of the dominant follicle to transform into the corpus luteum which produces progesterone 38 c The increased progesterone starts to induce the production of estrogen The hormones produced by the corpus luteum also suppress production of the FSH and LH that the corpus luteum needs to maintain itself The level of FSH and LH fall quickly and the corpus luteum atrophies 40 Falling levels of progesterone trigger menstruation and the beginning of the next cycle From the time of ovulation until progesterone withdrawal has caused menstruation to begin the process typically takes about two weeks For an individual woman the follicular phase often varies in length from cycle to cycle by contrast the length of her luteal phase will be fairly consistent from cycle to cycle at 10 to 16 days average 14 days 14 Uterine cycle edit nbsp The anatomy of the uterus The uterine cycle has three phases menses proliferative and secretory 41 Menstruation edit Main article Menstruation Menstruation also called menstrual bleeding menses or a period is the first and most evident phase of the uterine cycle and first occurs at puberty Called menarche the first period occurs at the age of around twelve or thirteen years 8 The average age is generally later in the developing world and earlier in the developed world 42 In precocious puberty it can occur as early as age eight years 43 and this can still be normal 44 45 Menstruation is initiated each month by falling levels of estrogen and progesterone and the release of prostaglandins 20 which constrict the spiral arteries This causes them to spasm contract and break up 46 The blood supply to the endometrium is cut off and the cells of the top layer of the endometrium the stratum functionalis become deprived of oxygen and die Later the whole layer is lost and only the bottom layer the stratum basalis is left in place 20 An enzyme called plasmin breaks up the blood clots in the menstrual fluid which eases the flow of blood and broken down lining from the uterus 47 The flow of blood continues for 2 6 days and around 30 60 milliliters of blood is lost 15 and is a sign that pregnancy has not occurred 48 The flow of blood normally serves as a sign that a woman has not become pregnant but this cannot be taken as certainty as several factors can cause bleeding during pregnancy 49 Menstruation occurs on average once a month from menarche to menopause which corresponds with a woman s fertile years The average age of menopause in women is 52 years and it typically occurs between 45 and 55 years of age 50 Menopause is preceded by a stage of hormonal changes called perimenopause 7 Eumenorrhea denotes normal regular menstruation that lasts for around the first 5 days of the cycle 24 Women who experience menorrhagia heavy menstrual bleeding are more susceptible to iron deficiency than the average person 51 Proliferative phase edit nbsp During the menstrual cycle levels of estradiol an estrogen vary by 200 percent Levels of progesterone vary by over 1200 percent 52 The proliferative phase is the second phase of the uterine cycle when estrogen causes the lining of the uterus to grow and proliferate 40 The latter part of the follicular phase overlaps with the proliferative phase of the uterine cycle 31 As they mature the ovarian follicles secrete increasing amounts of estradiol an estrogen The estrogens initiate the formation of a new layer of endometrium in the uterus with the spiral arterioles 2 As estrogen levels increase cells in the cervix produce a type of cervical mucus 53 that has a higher pH and is less viscous than usual rendering it more friendly to sperm 54 This increases the chances of fertilization which occurs around day 11 to day 14 11 This cervical mucus can be detected as a vaginal discharge that is copious and resembles raw egg whites 55 For women who are practicing fertility awareness it is a sign that ovulation may be about to take place 55 but it does not mean ovulation will definitely occur 15 Secretory phase edit The secretory phase is the final phase of the uterine cycle and it corresponds to the luteal phase of the ovarian cycle During the secretory phase the corpus luteum produces progesterone which plays a vital role in making the endometrium receptive to the implantation of a blastocyst a fertilized egg which has begun to grow 56 Glycogen lipids and proteins are secreted into the uterus 57 and the cervical mucus thickens 58 In early pregnancy progesterone also increases blood flow and reduces the contractility of the smooth muscle in the uterus 22 and raises basal body temperature 59 If pregnancy does not occur the ovarian and uterine cycles start over again 47 Anovulatory cycles and short luteal phases editMain article Anovulation Only two thirds of overtly normal menstrual cycles are ovulatory that is cycles in which ovulation occurs 15 The other third lack ovulation or have a short luteal phase less than ten days 60 in which progesterone production is insufficient for normal physiology and fertility 61 Cycles in which ovulation does not occur anovulation are common in girls who have just begun menstruating and in women around menopause During the first two years following menarche ovulation is absent in around half of cycles Five years after menarche ovulation occurs in around 75 of cycles and this reaches 80 in the following years 62 Anovulatory cycles are often overtly identical to normally ovulatory cycles 63 Any alteration to balance of hormones can lead to anovulation Stress anxiety and eating disorders can cause a fall in GnRH and a disruption of the menstrual cycle Chronic anovulation occurs in 6 15 of women during their reproductive years Around menopause hormone feedback dysregulation leads to anovulatory cycles Although anovulation is not considered a disease it can be a sign of an underlying condition such as polycystic ovary syndrome 64 Anovulatory cycles or short luteal phases are normal when women are under stress or athletes increasing the intensity of training These changes are reversible as the stressors decrease or in the case of the athlete as she adapts to the training 60 Menstrual health edit nbsp A human primary ovarian follicle viewed by microscopy The round oocyte stained red in the center is surrounded by a layer of granulosa cells which are enveloped by the basement membrane and theca cells The magnification is around 1000 times H amp E stain Although a normal and natural process 65 some women experience premenstrual syndrome with symptoms that may include acne tender breasts and tiredness 66 More severe symptoms that affect daily living are classed as premenstrual dysphoric disorder and are experienced by 3 to 8 of women 4 67 66 68 Dysmenorrhea menstrual cramps or period pain is felt as painful cramps in the abdomen that can spread to the back and upper thighs during the first few days of menstruation 69 70 71 Debilitating period pain is not normal and can be a sign of something severe such as endometriosis 72 These issues can significantly affect a woman s health and quality of life and timely interventions can improve the lives of these women 73 There are common culturally communicated misbeliefs that the menstrual cycle affects women s moods causes depression or irritability or that menstruation is a painful shameful or unclean experience Often a woman s normal mood variation is falsely attributed to the menstrual cycle Much of the research is weak but there appears to be a very small increase in mood fluctuations during the luteal and menstrual phases and a corresponding decrease during the rest of the cycle 74 Changing levels of estrogen and progesterone across the menstrual cycle exert systemic effects on aspects of physiology including the brain metabolism and musculoskeletal system The result can be subtle physiological and observable changes to women s athletic performance including strength aerobic and anaerobic performance 75 Changes to the brain have also been observed throughout the menstrual cycle 76 but do not translate into measurable changes in intellectual achievement including academic performance problem solving and memory 77 Improvements in spatial reasoning ability during the menstruation phase of the cycle are probably caused by decreases in levels of estrogen and progesterone 74 In some women ovulation features a characteristic pain d called mittelschmerz a German term meaning middle pain The cause of the pain is associated with the ruptured follicle causing a small amount of blood loss 20 Even when normal the changes in hormone levels during the menstrual cycle can increase the incidence of disorders such as autoimmune diseases 81 which might be caused by estrogen enhancement of the immune system 4 Around 40 of women with epilepsy find that their seizures occur more frequently at certain phases of their menstrual cycle This catamenial epilepsy may be due to a drop in progesterone if it occurs during the luteal phase or around menstruation or a surge in estrogen if it occurs at ovulation Women who have regular periods can take medication just before and during menstruation Options include progesterone supplements increasing the dose of their regular anticonvulsant drug or temporarily adding an anticonvulsant such as clobazam or acetazolamide If this is ineffective or when a woman s menstrual cycle is irregular then treatment is to stop the menstrual cycle occurring This may be achieved using medroxyprogesterone triptorelin or goserelin or by sustained use of oral contraceptives 82 83 Hormonal contraception edit Main article Hormonal contraception Hormonal contraceptives prevent pregnancy by inhibiting the secretion of the hormones FSH LH and GnRH Hormonal contraception that contains estrogen such as combined oral contraceptive pills COCPs stop the development of the dominant follicle and the mid cycle LH surge and thus ovulation 84 Sequential dosing and discontinuation of the COCP can mimic the uterine cycle and produce bleeding that resembles a period In some cases this bleeding is lighter 85 Progestin only methods of hormonal contraception do not always prevent ovulation but instead work by stopping the cervical mucus from becoming sperm friendly Hormonal contraception is available in a variety of forms such as pills patches skin implants and hormonal intrauterine devices IUDs 86 Evolution and other species editFurther information Menstruation mammal Most female mammals have an estrous cycle but only ten primate species four bat species the elephant shrews and the Cairo spiny mouse Acomys cahirinus have a menstrual cycle 87 88 The cycles are the same as in humans apart from the length which ranges from 9 to 37 days 89 87 The lack of immediate relationship between these groups suggests that four distinct evolutionary events have caused menstruation to arise 90 There are four theories on the evolutionary significance of menstruation 90 Control of sperm borne pathogens 91 92 93 This hypothesis held that menstruation protected the uterus against pathogens introduced by sperm Hypothesis 1 does not take into account that copulation can take place weeks before menstruation and that potentially infectious semen is not controlled by menstruation in other species 90 Energy conservation 92 94 This hypothesis claimed that it took less energy to rebuild a uterine lining than to maintain it if pregnancy did not occur Hypothesis 2 does not explain other species that also do not maintain a uterine lining but do not menstruate 90 A theory based on spontaneous decidualization a process that results in significant changes to cells of the endometrium in preparation for and during pregnancy in which the endometrium changes into the decidua Decidualization leads to the development of the endothelium which involves cells of the immune system 89 the formation of a new blood supply hormones and tissue differentiation In non menstruating mammals decidualization is driven by the embryo not the mother 92 It evolved in some placental mammals because it confers advantages in that it allows females to prepare for pregnancy without needing a signal from the fetus 90 Hypothesis 3 defers to an explanation of the evolutionary origin of spontaneous decidualization and does not explain the evolution of menstruation alone 90 Uterine pre conditioning 95 This hypothesis claims that a monthly pre conditioning of the uterus is needed in species such as humans that have deeply invasive deep rooted placentas In the process leading to the formation of a placenta maternal tissues are invaded This hypothesis holds that menstruation was not evolutionary rather the result of a coincidental pre conditioning of the uterus to protect uterine tissue from the deeply rooting placenta in which a thicker endometrium develops 95 Hypothesis 4 does not explain menstruation in non primates 90 Notes edit Progesterone levels exceed those of estrogen estradiol by a hundred fold 13 Breastfeeding women can experience complete suppression of follicular development follicular development but no ovulation or resumption of normal menstrual cycles 37 In the corpus luteum cholesterol side chain cleavage enzyme converts cholesterol to pregnenolone which is converted to progesterone 39 Uncharacteristic mid cycle pain may be caused by medical conditions such as ectopic pregnancy or ruptured ovarian cyst 78 79 or may be confused with appendicitis 80 References edit Richards JS 2018 The ovarian cycle Vitamins and Hormones Review 107 1 25 doi 10 1016 bs vh 2018 01 009 ISBN 978 0 128 14359 9 PMID 29544627 a b c Tortora 2017 p 944 Prior 2020 p 42 a b c d e f g Reed BF Carr BR Feingold KR et al 2018 The Normal Menstrual Cycle and the Control of Ovulation Endotext Review PMID 25905282 Archived from the original on 28 May 2021 Retrieved 8 January 2021 Prior 2020 p 40 Lacroix AE Gondal H Langaker MD 2020 Physiology menarche StatPearls Internet Treasure Island FL StatPearls Publishing Review PMID 29261991 a b Rodriguez Landa 2017 p 8 a b Papadimitriou A December 2016 The evolution of the age at menarche from prehistorical to modern times Journal of Pediatric and Adolescent Gynecology Review 29 6 527 530 doi 10 1016 j jpag 2015 12 002 PMID 26703478 a b Sherwood 2016 p 741 Sherwood 2016 p 747 a b Tortora 2017 p 957 a b Tortora 2017 p 929 Prior 2020 p 41 a b c Tortora 2017 pp 942 946 a b c d Prior 2020 p 45 Norris amp Carr 2013 p 361 Ugwumadu 2014 p 115 a b Watchman 2020 p 8 Schmerler S Wessel GM January 2011 Polar bodies more a lack of understanding than a lack of respect Molecular Reproduction and Development Review 78 1 3 8 doi 10 1002 mrd 21266 PMC 3164815 PMID 21268179 a b c d Tortora 2017 p 945 Johnson 2007 p 86 a b Tortora 2017 p 942 Sherwood 2016 p 745 a b Tortora 2017 p 943 Sadler 2019 p 48 Tortora 2017 p 953 Tortora 2017 p 920 Sherwood 2016 p 746 Alberts B Johnson A Lewis J Raff M Roberts K Walter P 2002 Eggs Molecular Biology of the Cell 4th ed New York Garland Science ISBN 0 8153 3218 1 Archived from the original on 16 December 2019 Retrieved 25 February 2021 Iussig B Maggiulli R Fabozzi G Bertelle S Vaiarelli A Cimadomo D Ubaldi FM Rienzi L May 2019 A brief history of oocyte cryopreservation Arguments and facts Acta Obstetricia et Gynecologica Scandinavica Review 98 5 550 558 doi 10 1111 aogs 13569 PMID 30739329 a b Parker 2019 p 283 Johnson 2007 pp 192 193 Johnson 2007 p 192 Sadler 2019 p 36 Tortora 2017 p 959 a b Tortora 2017 p 976 Carr SL Gaffield ME Dragoman MV Phillips S September 2016 Safety of the progesterone releasing vaginal ring PVR among lactating women A systematic review Contraception Review 94 3 253 261 doi 10 1016 j contraception 2015 04 001 PMID 25869631 Johnson 2007 p 91 King SR LaVoie HA January 2012 Gonadal transactivation of STARD1 CYP11A1 and HSD3B Frontiers in Bioscience Landmark Edition 17 3 824 846 doi 10 2741 3959 PMID 22201776 a b Ugwumadu 2014 p 117 Salamonsen LA December 2019 Women in reproductive science Understanding human endometrial function Reproduction Review 158 6 F55 F67 doi 10 1530 REP 18 0518 PMID 30521482 Alvergne A Hogqvist Tabor V June 2018 Is female health cyclical Evolutionary perspectives on menstruation Trends in Ecology amp Evolution Review 33 6 399 414 arXiv 1704 08590 doi 10 1016 j tree 2018 03 006 PMID 29778270 S2CID 4581833 Ibitoye M Choi C Tai H Lee G Sommer M 2017 Early menarche A systematic review of its effect on sexual and reproductive health in low and middle income countries PLOS ONE Review 12 6 e0178884 Bibcode 2017PLoSO 1278884I doi 10 1371 journal pone 0178884 PMC 5462398 PMID 28591132 Menstruation and the menstrual cycle fact sheet Office of Women s Health US Department of Health and Human Services 23 December 2014 Archived from the original on 26 June 2015 Retrieved 25 June 2015 Sultan C Gaspari L Maimoun L Kalfa N Paris F April 2018 Disorders of puberty PDF Best Practice amp Research Clinical Obstetrics amp Gynaecology Review 48 62 89 doi 10 1016 j bpobgyn 2017 11 004 PMID 29422239 Archived PDF from the original on 1 July 2020 Retrieved 27 February 2021 Johnson 2007 p 152 a b Tortora 2017 p 600 Johnson 2007 p 99 Breeze C May 2016 Early pregnancy bleeding Australian Family Physician Review 45 5 283 286 PMID 27166462 Towner MC Nenko I Walton SE April 2016 Why do women stop reproducing before menopause A life history approach to age at last birth Philosophical Transactions of the Royal Society of London Series B Biological Sciences Review 371 1692 20150147 doi 10 1098 rstb 2015 0147 PMC 4822427 PMID 27022074 Harvey LJ Armah CN Dainty JR Foxall RJ John Lewis D Langford NJ Fairweather Tait SJ October 2005 Impact of menstrual blood loss and diet on iron deficiency among women in the UK The British Journal of Nutrition Comparative study 94 4 557 564 doi 10 1079 BJN20051493 PMID 16197581 Prior JC 2020 Women s reproductive system as balanced estradiol and progesterone actions A revolutionary paradigm shifting concept in women s health Drug Discovery Today Disease Models 32 Part B 31 40 doi 10 1016 j ddmod 2020 11 005 Simmons RG Jennings V July 2020 Fertility awareness based methods of family planning Best Practice amp Research Clinical Obstetrics amp Gynaecology Review 66 68 82 doi 10 1016 j bpobgyn 2019 12 003 PMID 32169418 Tortora 2017 pp 936 937 a b Su HW Yi YC Wei TY Chang TC Cheng CM September 2017 Detection of ovulation a review of currently available methods Bioeng Transl Med Review 2 3 238 246 doi 10 1002 btm2 10058 PMC 5689497 PMID 29313033 Lessey BA Young SL April 2019 What exactly is endometrial receptivity Fertility and Sterility Review 111 4 611 617 doi 10 1016 j fertnstert 2019 02 009 PMID 30929718 Salamonsen LA Evans J Nguyen HP Edgell TA March 2016 The microenvironment of human implantation determinant of reproductive success American Journal of Reproductive Immunology Review 75 3 218 225 doi 10 1111 aji 12450 PMID 26661899 Han L Taub R Jensen JT November 2017 Cervical mucus and contraception what we know and what we don t Contraception Review 96 5 310 321 doi 10 1016 j contraception 2017 07 168 PMID 28801053 Charkoudian N Hart EC Barnes JN Joyner MJ June 2017 Autonomic control of body temperature and blood pressure influences of female sex hormones PDF Clinical Autonomic Research Review 27 3 149 155 doi 10 1007 s10286 017 0420 z hdl 1983 c0c1058c 553b 4563 8dd1 b047d9b672c1 PMID 28488202 S2CID 3773043 Archived PDF from the original on 10 May 2020 Retrieved 27 February 2021 a b Liu AY Petit MA Prior JC 2020 Exercise and the Hypothalamus Ovulatory Adaptations In Hackney AC Constantini NW eds Endocrinology of Physical Activity and Sport Contemporary Endocrinology Springer International Publishing pp 124 147 doi 10 1007 978 3 030 33376 8 8 ISBN 978 3 030 33376 8 S2CID 243129220 Prior 2020 p 46 Elmaogullari S Aycan Z July 2018 Abnormal uterine bleeding in adolescents Journal of Clinical Research in Pediatric Endocrinology 10 3 191 197 doi 10 4274 jcrpe 0014 PMC 6083466 PMID 29537383 Prior 2020 p 44 Hernandez Rey AE 2 August 2018 Anovulation Medscape Medscape LLC Archived from the original on 20 March 2021 Retrieved 30 March 2021 Prior 2020 p 50 a b Gudipally Pratyusha R Sharma Gyanendra K 2022 Premenstrual Syndrome StatPearls StatPearls Publishing PMID 32809533 NBK560698 Appleton SM March 2018 Premenstrual syndrome evidence based evaluation and treatment Clinical Obstetrics and Gynecology Review 61 1 52 61 doi 10 1097 GRF 0000000000000339 PMID 29298169 S2CID 28184066 Ferries Rowe E Corey E Archer JS November 2020 Primary Dysmenorrhea Diagnosis and Therapy Obstetrics and Gynecology 136 5 1047 1058 doi 10 1097 AOG 0000000000004096 PMID 33030880 Period pain nhs uk 19 October 2017 Retrieved 12 November 2022 Nagy Hassan Khan Moien AB 2022 Dysmenorrhea StatPearls StatPearls Publishing PMID 32809669 NBK560834 Baker FC Lee KA September 2018 Menstrual cycle effects on sleep Sleep Medicine Clinics Review 13 3 283 294 doi 10 1016 j jsmc 2018 04 002 PMID 30098748 S2CID 51968811 Maddern J Grundy L Castro J Brierley SM 2020 Pain in endometriosis Frontiers in Cellular Neuroscience 14 590823 doi 10 3389 fncel 2020 590823 PMC 7573391 PMID 33132854 Matteson KA Zaluski KM September 2019 Menstrual health as a part of preventive health care Obstetrics and Gynecology Clinics of North America Review 46 3 441 453 doi 10 1016 j ogc 2019 04 004 PMID 31378287 S2CID 199437314 a b Else Quest amp Hyde 2021 pp 258 261 Carmichael MA Thomson RL Moran LJ Wycherley TP February 2021 The impact of menstrual cycle phase on athletes performance a narrative review Int J Environ Res Public Health Review 18 4 1667 doi 10 3390 ijerph18041667 PMC 7916245 PMID 33572406 Pletzer B Harris TA Scheuringer A Hidalgo Lopez E October 2019 The cycling brain menstrual cycle related fluctuations in hippocampal and fronto striatal activation and connectivity during cognitive tasks Neuropsychopharmacology 44 11 1867 1875 doi 10 1038 s41386 019 0435 3 PMC 6785086 PMID 31195407 Le J Thomas N Gurvich C March 2020 Cognition the menstrual cycle and premenstrual disorders a review Brain Sci Review 10 4 198 doi 10 3390 brainsci10040198 PMC 7226433 PMID 32230889 Kruszka PS Kruszka SJ July 2010 Evaluation of acute pelvic pain in women Am Fam Physician Review 82 2 141 147 PMID 20642266 Archived from the original on 27 January 2021 Retrieved 4 March 2021 Cleary M Flanagan KW 2019 Acute and Emergency Care in Athletic Training Human Kinetics p 340 Brott Nathan R Le Jacqueline K 2022 Mittelschmerz StatPearls StatPearls Publishing PMID 31747229 NBK549822 Talsania M Scofield RH May 2017 Menopause and rheumatic disease Rheumatic Disease Clinics of North America Review 43 2 287 302 doi 10 1016 j rdc 2016 12 011 PMC 5385852 PMID 28390570 Maguire MJ Nevitt SJ September 2021 Treatments for seizures in catamenial menstrual related epilepsy The Cochrane Database of Systematic Reviews 2021 9 CD013225 doi 10 1002 14651858 CD013225 pub3 PMC 8444032 PMID 34528245 Sveinsson O Tomson T September 2014 Epilepsy and menopause potential implications for pharmacotherapy Drugs amp Aging 31 9 671 675 doi 10 1007 s40266 014 0201 5 PMID 25079452 S2CID 21166687 Tortora 2017 p 948 Polis CB Hussain R Berry A June 2018 There might be blood a scoping review on women s responses to contraceptive induced menstrual bleeding changes Reproductive Health 15 1 114 doi 10 1186 s12978 018 0561 0 PMC 6020216 PMID 29940996 Tortora 2017 pp 948 949 a b Bellofiore N Ellery SJ Mamrot J Walker DW Temple Smith P Dickinson H January 2017 First evidence of a menstruating rodent the spiny mouse Acomys cahirinus PDF American Journal of Obstetrics and Gynecology Journal article 216 1 40 e1 40 e11 doi 10 1016 j ajog 2016 07 041 PMID 27503621 S2CID 88779 Bellofiore Nadia Cousins Fiona Temple Smith Peter Evans Jemma 1 February 2019 Altered exploratory behaviour and increased food intake in the spiny mouse before menstruation a unique pre clinical model for examining premenstrual syndrome Human Reproduction 34 2 308 322 doi 10 1093 humrep dey360 ISSN 0268 1161 PMID 30561655 a b Catalini L Fedder J May 2020 Characteristics of the endometrium in menstruating species lessons learned from the animal kingdom Biology of Reproduction Journal article 102 6 1160 1169 doi 10 1093 biolre ioaa029 PMC 7253787 PMID 32129461 a b c d e f g Emera D Romero R Wagner G January 2012 The evolution of menstruation a new model for genetic assimilation explaining molecular origins of maternal responses to fetal invasiveness BioEssays Journal article 34 1 26 35 doi 10 1002 bies 201100099 PMC 3528014 PMID 22057551 See BBC Earth lay summary 20 April 2015 Martin RD 2007 The evolution of human reproduction a primatological perspective American Journal of Physical Anthropology Review 134 S45 59 84 doi 10 1002 ajpa 20734 PMID 18046752 S2CID 44416632 a b c Finn CA June 1998 Menstruation a nonadaptive consequence of uterine evolution The Quarterly Review of Biology Review 73 2 163 173 doi 10 1086 420183 PMID 9618925 S2CID 25135630 Profet M September 1993 Menstruation as a defense against pathogens transported by sperm The Quarterly Review of Biology Review 68 3 335 386 doi 10 1086 418170 PMID 8210311 S2CID 23738569 Strassmann BI June 1996 The evolution of endometrial cycles and menstruation The Quarterly Review of Biology Review 71 2 181 220 doi 10 1086 419369 PMID 8693059 S2CID 6207295 a b Brosens JJ Parker MG McIndoe A Pijnenborg R Brosens IA June 2009 A role for menstruation in preconditioning the uterus for successful pregnancy American Journal of Obstetrics and Gynecology Journal article 200 6 615 e1 6 doi 10 1016 j ajog 2008 11 037 PMID 19136085 Book sources edit Else Quest N Hyde JS 2021 Psychology gender and health psychological aspects of the menstrual cycle The Psychology of Women and Gender Half the Human Experience 10th ed Los Angeles SAGE Publishing ISBN 978 1 544 39360 5 Johnson MH 2007 Essential Reproduction Malden Massachusetts Wiley Blackwell ISBN 978 1 4051 1866 8 OCLC 76074156 Norris DA Carr JA 2013 Vertebrate Endocrinology 5th ed Academic Press ISBN 978 0 123 96465 6 Parker S 2019 The Concise Human Body Book An Illustrated Guide to its Structures Function and Disorders London DK ISBN 978 0 241 39552 3 OCLC 1091644711 Prior JC 2020 The menstrual cycle its biology in the context of silent ovulatory disturbances In Ussher JM Chrisler JC Perz J eds Routledge International Handbook of Women s Sexual and Reproductive Health 1st ed Abingdon Oxon Routledge ISBN 978 1 138 49026 0 OCLC 1121130010 Rodriguez Landa J 2017 A Multidisciplinary Look at Menopause Rijeka Croatia IntechOpen ISBN 978 953 51 3405 3 OCLC 1193045564 Sadler TW 2019 Langman s Medical Embryology Philadelphia Wolters Kluwer ISBN 978 1 4963 8390 7 OCLC 1042400100 Sherwood L 2016 Human Physiology From Cells to Systems Boston Massachusetts Cengage Learning ISBN 978 1 285 86693 2 OCLC 905848832 Tortora G 2017 Tortora s Principles of Anatomy amp Physiology Hoboken New Jersey John Wiley amp Sons Inc ISBN 978 1 119 38292 8 OCLC 990424568 Ugwumadu A 2014 Basic Sciences for Obstetrics and Gynaecology Core Material for MRCOG Oxford England Oxford University Press ISBN 978 0 19 953508 8 OCLC 889303297 Watchman T 2020 Zero to Finals Obstetrics and Gynaecology Manchester Zero to Finals ISBN 979 8 6037 9726 7 OCLC 1233034578 External links edit nbsp Media related to Menstrual cycle at Wikimedia Commons Portal nbsp Medicine Retrieved from https en wikipedia org w index php title Menstrual cycle amp oldid 1222885472, wikipedia, wiki, book, books, library,

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