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Ovulation is the process in the menstrual cycle by which a mature ovarian follicle ruptures and discharges an ovum (also known as an oocyte, female gamete, or casually, an egg) that participates in reproduction. Ovulation also occurs in the estrous cycle of other animals, which differs in many fundamental ways from the menstrual cycle.

OverviewEdit

The process of ovulation is controlled by the hypothalamus of the brain and through the release of hormones secreted in the anterior lobe of the pituitary gland, (Luteinizing hormone (LH) and Follicle-stimulating hormone (FSH)). In the follicular (pre-ovulatory) phase of the menstrual cycle, the ovarian follicle will undergo a series of transformations called cumulus expansion, this is stimulated by the secretion of FSH. After this is done, a hole called the stigma will form in the ovarian follicle, and the ovum will leave the follicle through this hole. Ovulation is triggered by a spike in the amount of FSH and LH released from the pituitary gland. During the luteal (post-ovulatory) phase, the ovum will travel through the fallopian tubes toward the uterus. If fertilized by a sperm, it may perform implantation there 6-12 days later.

In humans, the few days near ovulation constitute the fertile phase. The average time of ovulation is the fourteenth day of an average length (twenty-eight day) menstrual cycle. It is normal for the day of ovulation to vary from the average, with ovulation anywhere between the tenth and nineteenth day being common.

Cycle length alone is not a reliable indicator of the day of ovulation. While in general an earlier ovulation will result in a shorter menstrual cycle, and vice versa, the luteal (post-ovulatory) phase of the menstrual cycle may vary by up to a week between women.

A closer look at the processEdit

Strictly defined, the ovulatory phase spans the period of hormonal elevation in the menstrual cycle. The process requires a maximum of thirty-six hours to complete, and it is arbitrarily separated into three phases: periovulatory, ovulatory, and postovulatory.

Prerequisite eventsEdit

Through a process that takes approximately 375 days, or thirteen menstrual cycles, a large group of undeveloped primordial follicles dormant in the ovary is grown and progressively weaned into one preovulatory follicle. Histologically, the preovulatory follicle (also called a mature Graafian follicle or mature tertiary follicle) contains an oocyte arrested in prophase of meiosis I surrounded by a layer corona radiata granulosa cells, a layer of mural granulosa cells, a protective basal lamina, and a network of blood-carrying capillary vessels sandwiched between a layer of theca interna and theca externa cells. A large sac of fluid called the antrum predominates in the follicle. A "bridge" of cumulus oophorous granulosa cells (or simply cumulus cells) connects the corona-ovum complex to the mural granulosa cells.

The granulosa cells engage in bidirectional messaging with the theca cells and the oocyte to facilitate follicular function. Research is clarifying the specific factors used in follicular messaging at a rapid pace, but such discussion is beyond the scope of this article.

By the action of luteinizing hormone (LH), the preovulatory follicle's theca cells secrete androstenedione that is aromatized by mural granulosa cells into estradiol, a type of estrogen. In contrast to the other phases of the menstrual cycle, estrogen release in late follicular phase has a stimulatory effect on hypothalamus gonadotropin-releasing hormone (GnRH) that in turn stimulates the expression of pituitary LH and follicle stimulating hormone (FSH).

The building concentrations of LH and FSH marks the beginning of the periovulatory phase.

Periovulatory phaseEdit

Main article: Follicular phase

For ovulation to be successful, the ovum must be supported by both the corona radiata and cumulus oophorous granulosa cells. The latter undergo a period of proliferation and mucification known as cumulus expansion. Mucification is the secretion of a hyaluronic acid-rich cocktail that disperses and suspends the cumulus cell network in a sticky matrix around the ovum. This network stays with the ovum after ovulation and have been shown to be necessary for fertilization.

An increase in cumulus cell number causes a concomitant increase in antrum fluid volume that can swell the follicle to over 20 mm in diameter. It forms a pronounced bulge at the surface of the ovary called the blister.

Ovulatory phaseEdit

Through a signal transduction cascade initiated by LH, proteolytic enzymes are secreted by the follicle that degrade the follicular tissue at the site of the blister, forming a hole called the stigma. The cumulus-oocyte complex (COC) leaves the ruptured follicle and moves out into the peritoneal cavity through the stigma, where it is caught by the fimbriae at the end of the fallopian tube (also called the oviduct). After entering the oviduct, the ovum-cumulus complex is pushed along by cilia, beginning its journey toward the uterus.

By this time, the oocyte has completed meiosis I, yielding two cells: the larger secondary oocyte that contains all of the cytoplasmic material and a smaller, inactive first polar body. Meiosis II follows at once but will be arrested in the metaphase and will so remain until fertilization. The spindle apparatus of the second meiotic division appears at the time of ovulation. If no fertilization occurs, the oocyte will degenerate approximately twenty-four hours after ovulation.

The mucous membrane of the uterus, termed the functionalis, has reached its maximum size, and so have the endometrial glands, although they are still non-secretory.

Postovulatory phaseEdit

Main article: Luteal phase

The follicle proper has met the end of its lifespan. Without the ovum, the follicle folds inward on itself, transforming into the corpus luteum (pl. corpus lutea), a steroidogenic cluster of cells that produces estrogen and progesterone. These hormones induce the endometrial glands to begin production of the proliferative endometrium and later into secretory endometrium, the site of embryonic growth if fertilization occurs. The action of progesterone increases basal body temperature by one-quarter to one-half degree Celsius (one-half to one degree Fahrenheit). The corpus luteum continues this paracrine action for the remainder of the menstrual cycle, maintaining the endometrium, before disintegrating into scar tissue during menses.

Clinical presentationEdit

Main article: Concealed ovulation

The start of ovulation can be detected by various signs. Because the signs are not readily discernible by people other than the woman herself, humans are said to have a concealed ovulation.

Women near ovulation experience changes in the cervix, in mucus produced by the cervix, and in their basal body temperature. Furthermore, many women also experience secondary fertility signs including Mittelschmerz (pain associated with ovulation) and a heightened sense of smell.[1]

Many women experience heightened sexual desire in the several days immediately before ovulation.[2] One study concluded that women subtly improve their facial attractiveness during ovulation and period.[3]

On June 11th 2008[4] the New Scientist published an article[5][6] about Belgian Professor Jaques Donnez, who successfully made photographs at the exact moment of ovulation. Until now this was considered very difficult to achieve[7].

Follicular wavesEdit

Research spearheaded by Baerwald et al. suggests that the menstrual cycle may not regulate follicular growth as strictly as previously thought. In particular, the majority of women during an average twenty-eight day cycle experience two or three "waves" of follicular development, with only the final wave being ovulatory. The remainder of the waves are anovulatory, characterized by the developed preovulatory follicle falling into atresia (a major anovulatory cycle) or no preovulatory follicle being chosen at all (a minor anovulatory cycle).

The phenomenon is similar to the follicular waves seen in cows and horses. In these animals, a large cohort of early tertiary follicles develop consistently during the follicular phase of the menstrual cycle, suggesting that the endocrine system does not regulate folliculogenesis stringently.

While seen as a revelation by some in the medical community, researchers of fertility awareness or natural family planning methods discovered follicular waves in the 1950s. These methods of family planning have always taken multiple follicular waves into account, and this research does not challenge their effectiveness.

Induction and suppressionEdit

Induced ovulationEdit

Follicle stimulating hormone, gonadotropin releasing hormone (GnRH), and estradiol have been purified in the laboratory. Chemical analogues of estradiol and progesterone have also been synthesized. Recall that GnRH is an upstream inducer of both FSH and LH secretion.

Generally, administered FSH or GnRH can induce ovulation by rapidly accelerating the pace of folliculogenesis, allowing for conception.

Ovulation induction is a promising assisted reproductive technology for patients with conditions such as polycystic ovary syndrome (PCOS) and oligomenorrhea.

Medications that are commonly prescribed to induce ovulation include Clomid, Gonal-F/Follistim AQ, Metformin, Bravelle, Menopur and Repronex.

RisksEdit

All ovulation-inducing medications carry the risk of side effects. A recent study has raised the possibility of a link between ovulation-inducing agents and an increased risk of ovarian carcinoma. [8]

Suppressed ovulationEdit

Contraception can be achieved by suppressing the ovulation.

The majority of hormonal contraceptives and conception boosters focus on the ovulatory phase of the menstrual cycle because it is the most important determinant of fertility. Hormone therapy can positively or negatively interfere with ovulation and can give a sense of cycle control to the woman.

Estradiol and progesterone, taken in various forms including combined oral contraceptive pills, mimics the hormonal levels of the menstrual cycle and engage in negative feedback of folliculogenesis and ovulation.


Ovulation in animalsEdit

See alsoEdit

External links Edit

ReferencesEdit

  • Baewald AR, Adams GP, Pierson RA. 2004. A new model for ovarian follicular development during the human menstrual cycle. Fertil Steril 80:116-122 (Abstract)
  • Chabbert Buffet N, Djakoure C, Maitre SC, Bouchard P. 1998. Regulation of the human menstrual cycle. Front Neuroendocrinol 19:151-86. (Abstract)
  • Fortune JE. 1994.Ovarian follicular growth and development in mammals. Biol Reprod: 50:225-232
  • Guraya SS, Dhanju CK. 1992. Mechanism of ovulation -- an overview. Indian J Exp Biol 30:958-967
  1. Navarrete-Palacios, E, Hudson R, Reyes-Guerrero G et al. (July 2003). Lower olfactory threshold during the ovulatory phase of the menstrual cycle.. Biological psychology 63 (3): 269–279.
  2. Susan B. Bullivant, Sarah A. Sellergren, Kathleen Stern, et al (February 2004). Women's sexual experience during the menstrual cycle: identification of the sexual phase by noninvasive measurement of luteinizing hormone. Journal of Sex Research 41 (1): 82–93 (in online article, see pp.14–15,18–22).
  3. Roberts S, Havlicek J, Flegr J, Hruskova M, Little A, Jones B, Perrett D, Petrie M (August 2004). Female facial attractiveness increases during the fertile phase of the menstrual cycle. Proc Biol Sci 7 (271 Suppl 5:S): 270–2.
  4. article New Scientist, including photo (click on "Enlarge"). New Scientist.
  5. article in Dutch-language newspaper Het Nieuwsblad. Het Nieuwsblad.
  6. article in WebIndia.com. WebIndia.com.
  7. article in BBC News. BBC.
  8. Abington Reproductive Medicine: Ovulation Induction (2006).


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