Anatomyreproductive System



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The male reproductive system is responsible for delivering sperm to the female reproductive system. How does it do that? Find out how spermatogenesis works and which ducts and glands are key to delivering the sperm once it’s been generated. Reproductive Processes: Fertilization, Fetal Development, and Birth. The female reproductive system provides several functions. The ovaries produce the egg cells, called the ova or oocytes. The oocytes are then transported to the fallopian tube where fertilization by a sperm may occur. MALE REPRODUCTIVE SYSTEM Testis Vas deferens Seminal vesicle Prostate Penis What is the homologous structure of the scrotum in females? THE MALE EXTERNAL GENITALIA Body of penis Glans penisScrotum Median raphe 7. ATTACHMENT OF THE PENIS Suspensory ligament of Penis 8. We are pleased to provide you with the picture named Anatomy Of Vagina And Anus.We hope this picture Anatomy Of Vagina And Anus can help you study and research. For more anatomy content please follow us and visit our website: www.anatomynote.com.

How does the female reproductive system work?

The female reproductive system provides several functions. The ovaries produce the egg cells, called the ova or oocytes. The oocytes are then transported to the fallopian tube where fertilization by a sperm may occur. The fertilized egg then moves to the uterus, where the uterine lining has thickened in response to the normal hormones of the reproductive cycle. Once in the uterus, the fertilized egg can implant into thickened uterine lining and continue to develop. If implantation does not take place, the uterine lining is shed as menstrual flow. In addition, the female reproductive system produces female sex hormones that maintain the reproductive cycle.

During menopause, the female reproductive system gradually stops making the female hormones necessary for the reproductive cycle to work. At this point, menstrual cycles can become irregular and eventually stop. One year after menstrual cycles stop, the woman is considered to be menopausal.

What parts make-up the female anatomy?

The female reproductive anatomy includes both external and internal structures.

The function of the external female reproductive structures (the genital) is twofold: To enable sperm to enter the body and to protect the internal genital organs from infectious organisms.

The main external structures of the female reproductive system include:

  • Labia majora: The labia majora (“large lips”) enclose and protect the other external reproductive organs. During puberty, hair growth occurs on the skin of the labia majora, which also contain sweat and oil-secreting glands.
  • Labia minora: The labia minora (“small lips”) can have a variety of sizes and shapes. They lie just inside the labia majora, and surround the openings to the vagina (the canal that joins the lower part of the uterus to the outside of the body) and urethra (the tube that carries urine from the bladder to the outside of the body). This skin is very delicate and can become easily irritated and swollen.
  • Bartholin’s glands: These glands are located next to the vaginal opening on each side and produce a fluid (mucus) secretion.
  • Clitoris: The two labia minora meet at the clitoris, a small, sensitive protrusion that is comparable to the penis in males. The clitoris is covered by a fold of skin, called the prepuce, which is similar to the foreskin at the end of the penis. Like the penis, the clitoris is very sensitive to stimulation and can become erect.

The internal reproductive organs include:

  • Vagina: The vagina is a canal that joins the cervix (the lower part of uterus) to the outside of the body. It also is known as the birth canal.
  • Uterus (womb): The uterus is a hollow, pear-shaped organ that is the home to a developing fetus. The uterus is divided into two parts: the cervix, which is the lower part that opens into the vagina, and the main body of the uterus, called the corpus. The corpus can easily expand to hold a developing baby. A canal through the cervix allows sperm to enter and menstrual blood to exit.
  • Ovaries: The ovaries are small, oval-shaped glands that are located on either side of the uterus. The ovaries produce eggs and hormones.
  • Fallopian tubes: These are narrow tubes that are attached to the upper part of the uterus and serve as pathways for the ova (egg cells) to travel from the ovaries to the uterus. Fertilization of an egg by a sperm normally occurs in the fallopian tubes. The fertilized egg then moves to the uterus, where it implants to the uterine lining.

What happens during the menstrual cycle?

Females of reproductive age (beginning anywhere from 11 to 16 years of age) experience cycles of hormonal activity that repeat at about one-month intervals. Menstru means 'monthly” – leading to the term menstrual cycle. With every cycle, a woman’s body prepares for a potential pregnancy, whether or not that is the woman’s intention. The term menstruation refers to the periodic shedding of the uterine lining. Many women call the days that they notice vaginal bleeding their “period,” “menstrual” or cycle.

The average menstrual cycle takes about 28 days and occurs in phases. These phases include:

  • The follicular phase (development of the egg)
  • The ovulatory phase (release of the egg)
  • The luteal phase (hormone levels decrease if the egg does not implant)

There are four major hormones (chemicals that stimulate or regulate the activity of cells or organs) involved in the menstrual cycle. These hormones include:

  • Follicle-stimulating hormone
  • Luteinizing hormone
  • Estrogen
  • Progesterone

Follicular phase

This phase starts on the first day of your period. During the follicular phase of the menstrual cycle, the following events occur:

  • Two hormones, follicle stimulating hormone (FSH) and luteinizing hormone (LH) are released from the brain and travel in the blood to the ovaries.
  • The hormones stimulate the growth of about 15 to 20 eggs in the ovaries, each in its own 'shell,' called a follicle.
  • These hormones (FSH and LH) also trigger an increase in the production of the female hormone estrogen.
  • As estrogen levels rise, like a switch, it turns off the production of follicle-stimulating hormone. This careful balance of hormones allows the body to limit the number of follicles that will prepare eggs to be released.
  • As the follicular phase progresses, one follicle in one ovary becomes dominant and continues to mature. This dominant follicle suppresses all of the other follicles in the group. As a result, they stop growing and die. The dominant follicle continues to produce estrogen.

Ovulatory phase

The ovulatory phase (ovulation) usually starts about 14 days after the follicular phase started, but this can vary. The ovulatory phase falls between the follicular phase and luteal phase. Most women will have a menstrual period 10 to 16 days after ovulation. During this phase, the following events occur:

  • The rise in estrogen from the dominant follicle triggers a surge in the amount of luteinizing hormone that is produced by the brain.
  • This causes the dominant follicle to release its egg from the ovary.
  • As the egg is released (a process called ovulation) it is captured by finger-like projections on the end of the fallopian tubes (fimbriae). The fimbriae sweep the egg into the tube.
  • For one to five days prior to ovulation, many women will notice an increase in egg white cervical mucus. This mucus is the vaginal discharge that helps to capture and nourish sperm on its way to meet the egg for fertilization.

Luteal phase

The luteal phase begins right after ovulation and involves the following processes:

  • Once it releases its egg, the empty ovarian follicle develops into a new structure called the corpus luteum.
  • The corpus luteum secretes the hormones estrogen and progesterone. Progesterone prepares the uterus for a fertilized egg to implant.
  • If intercourse has taken place and a man's sperm has fertilized the egg (a process called conception), the fertilized egg (embryo) will travel through the fallopian tube to implant in the uterus. The woman is now considered pregnant.
  • If the egg is not fertilized, it passes through the uterus. Not needed to support a pregnancy, the lining of the uterus breaks down and sheds, and the next menstrual period begins.

How many eggs does a woman have?

During fetal life, there are about 6 million to 7 million eggs. From this time, no new eggs are produced. At birth, there are approximately 1 million eggs; and by the time of puberty, only about 300,000 remain. Of these, only 300 to 400 will be ovulated during a woman's reproductive lifetime. Fertility can drop as a woman ages due to decreasing number and quality of the remaining eggs.

Anatomy of the Female Reproductive System

The human female reproductive system contains two main parts: the uterus and the ovaries, which produce a woman’s egg cells.

Learning Objectives

Outline the anatomy of the female reproductive system from external to internal

Key Takeaways

Key Points

  • An female’s internal reproductive organs are the vagina, uterus, fallopian tubes, cervix, and ovary.
  • External structures include the mons pubis, pudendal cleft, labia majora and minora, vulva, Bartholin’s gland, and the clitoris.
  • The female reproductive system contains two main parts: the uterus, which hosts the developing fetus, produces vaginal and uterine secretions, and passes the anatomically male sperm through to the fallopian tubes; and the ovaries, which produce the anatomically female egg cells.

Key Terms

  • ovary: A female reproductive organ, often paired, that produces ova and in mammals secretes the hormones estrogen and progesterone.
  • oviduct: A duct through which an ovum passes from an ovary to the uterus or to the exterior (called fallopian tubes in humans).
  • vulva: The consists of the female external genital organs.
  • oogenesis: The formation and development of an ovum.

The human female reproductive system (or female genital system) contains two main parts:

  1. Uterus
    • Hosts the developing fetus
    • Produces vaginal and uterine secretions
    • Passes the anatomically male sperm through to the fallopian tubes
  2. Ovaries
    • Produce the anatomically female egg cells.
    • Produce and secrete estrogen and progesterone

These parts are internal; the vagina meets the external organs at the vulva, which includes the labia, clitoris, and urethra. The vagina is attached to the uterus through the cervix, while the uterus is attached to the ovaries via the fallopian tubes. At certain intervals, the ovaries release an ovum, which passes through the fallopian tube into the uterus.

If, in this transit, it meets with sperm, the sperm penetrates and merges with the egg, fertilizing it. The fertilization usually occurs in the oviducts, but can happen in the uterus itself. The zygote then implants itself in the wall of the uterus, where it begins the process of embryogenesis and morphogenesis. When developed enough to survive outside the womb, the cervix dilates and contractions of the uterus propel the fetus through the birth canal (vagina).

The ova are larger than sperm and have formed by the time an anatomically female infant is born. Approximately every month, a process of oogenesis matures one ovum to be sent down the fallopian tube attached to its ovary in anticipation of fertilization. If not fertilized, this egg is flushed out of the system through menstruation.

An anatomically female’s internal reproductive organs are the vagina, uterus, fallopian tubes, cervix, and ovary.
The external components include the mons pubis, pudendal cleft, labia majora, labia minora, Bartholin’s glands, and clitoris.

Female Repro: Illustrated sagittal view of the female reproductive system.

Ovaries

The ovaries are the ovum-producing organs of the internal female reproductive system.

Learning Objectives

Describe the location and function of the ovaries

Key Takeaways

Key Points

  • In addition to producing ova, the ovaries are endocrine organs and produce hormones that act during the female menstrual cycle and pregnancy.
  • Ovaries secrete estrogen and progesterone.
  • Each ovary is located in the lateral wall of the pelvis in a region called the ovarian fossa.
  • The ovaries are attached to the uterus via the ovarian ligament (which runs in the broad ligament).
  • Usually, the ovaries take turns releasing eggs every month; however, if one ovary is absent or dysfunctional then the other ovary releases eggs every month.
  • There are two extremities to the ovary, the tubal extremity and the uterine extremity.

Key Terms

  • intraperitoneal: Located within the inner layer of the peritoneum (serous membrane that forms the lining of the abdominal cavity).
  • corpus luteum: A temporary endocrine structure in female ovaries that is essential for establishing and maintaining pregnancy.
  • libido: A person’s overall sexual drive.
  • follicle: A spheroid cellular aggregation found in the ovaries that secretes hormones that influence the stages of the menstrual cycle.
  • ovary: A female reproductive organ, often paired, that produces ova and in mammals secretes the hormones estrogen and progesterone.

The ovary is an ovum-producing reproductive organ, typically found in pairs as part of the vertebrate female reproductive system. Ovaries in females are analogous to testes in males in that both are gonads and endocrine glands. Ovaries secrete both estrogen and progesterone. Estrogen is responsible for the appearance of secondary sex characteristics of females at puberty and for the maturation and maintenance of the reproductive organs in their mature functional state. Progesterone functions with estrogen by promoting menstrual cycle changes in the endometrium.

Anatomical Features

The ovaries are located in the lateral wall of each side of the pelvis in a region called the ovarian fossa. The fossa usually lies beneath the external iliac artery and in front of the ureter and internal iliac artery.

In humans, the paired ovaries lie within the pelvic cavity on either side of the uterus, to which they are attached via a fibrous cord called the ovarian ligament. The ovaries are tethered to the body wall via the suspensory ligament of the ovary. The part of the broad ligament of the uterus that covers the ovary is known as the mesovarium. The ovary is the only organ in the human body which is totally invaginated into the peritonium, making it the only intraperitoneal organ.

There are two extremities to the ovary, the tubal extremity and the uterine extremity. The tubal extremity is the end to which the Fallopian tube attaches via the infundibulopelvic ligament. The uterine extremity points downward and is attached to the uterus via the ovarian ligament.

Ovary: A pictorial illustration of the female reproductive system

Physiology and Function

The ovaries are the site of egg cell production and also have specific endocrine function.

Oogenesis

The ovaries are the site of gamete (egg cell, oocyte) production. The developing egg cell (or oocyte) grows within the environment provided by ovarian follicles. Follicles are composed of different types and number of cells according to their maturation stage, which can be determined by their size. When oocyte maturation is completed, a luteinizing hormone ( LH ) surge secreted by the pituitary gland stimulates follicle rupture and oocyte release.

This oocyte development and release process is referred to as ovulation. The follicle remains functional and transforms into a corpus luteum, which secretes progesterone to prepare the uterus for possible embryo implantation. Usually each ovary takes turns releasing eggs each month. However, this alternating egg release is random. When one ovary is absent or dysfunctional, the other ovary will continue to release eggs each month.

Endocrine Function

Ovaries secrete estrogen, progesterone, and testosterone. Estrogen is responsible for the secondary sex characteristics of females at puberty. It is also crucial for the maturation and maintenance of the mature and functional reproductive organs. Progesterone prepares the uterus for pregnancy and the mammary glands for lactation. The co-actions of progesterone and estrogen promote menstrual cycle changes in the endometrium. In women, testosterone is important for the development of muscle mass, muscle and bone strength, and for optimal energy level. It also has a role in libido in women.

Uterus

The uterus is the largest and major organ of the female reproductive tract that is the site of fetal growth and is hormonally responsive.

Learning Objectives

Describe the structure and function of the uterus

Key Takeaways

Key Points

  • The body of the uterus is connected to the ovaries via the fallopian tubes, and opens into the vagina via the cervix.
  • Two Müllerian ducts
    usually form initially in a female fetus, but in humans they completely fuse into a single uterus during gestation.
  • The uterus is essential in sexual response by directing blood flow to the pelvis and to the external genitalia, including the ovaries, vagina, labia, and clitoris.
  • The reproductive function of the uterus is to accept a fertilized ovum which passes through the utero-tubal junction from the fallopian tube.
  • The lining of the uterine cavity is called the endometrium.

Key Terms

  • linea terminalis: Part of the pelvic brim, which is the edge of the pelvic inlet.
  • adenomyosis: A condition characterized by the breaking through of the endometrium into the muscle wall of the uterus.
  • uterus: An organ of the female reproductive system in which the young are conceived and develop until birth; the womb.
  • endometrium: The mucous membrane that lines the uterus in mammals and in which fertilized eggs are implanted.
  • fallopian tubes: The fallopian tubes, also known as oviducts, uterine tubes, and salpinges (singular salpinx) are two very fine tubes lined with ciliated epithelia, and lead from the ovaries of female mammals into the uterus via the utero-tubal junction.

The uterus or womb is a major female hormone -responsive reproductive sex organ of most mammals including humans. One end, the cervix, opens into the vagina, while the other is connected to one or both fallopian tubes, depending on the species. It is within the uterus that the fetus develops during gestation, usually developing completely in placental mammals such as humans.

Two Müllerian ducts usually form initially in a female fetus and, in humans, they completely fuse into a single uterus depending on the species. The uterus consists of a body and a cervix. The cervix protrudes into the vagina. The uterus is held in position within the pelvis by condensations of endopelvic fascia, which are called ligaments. These ligaments include the pubocervical, transverse, cervical, cardinal, and uterosacral ligaments. It is covered by a sheet-like fold of peritoneum, the broad ligament.

The uterus is essential in sexual response by directing blood flow to the pelvis and to the external genitalia, including the ovaries, vagina, labia, and clitoris. The reproductive function of the uterus is to accept a fertilized ovum which passes through the utero-tubal junction from the fallopian tube. It implants into the endometrium, and derives nourishment from blood vessels which develop exclusively for this purpose.

Anatomyreproductive System

Uterus: Vessels of the uterus and its appendages, rear view.

The fertilized ovum becomes an embryo, attaches to a wall of the uterus, creates a placenta, and develops into a fetus (gestates) until childbirth. Due to anatomical barriers such as the pelvis, the uterus is pushed partially into the abdomen due to its expansion during pregnancy. Even during pregnancy, the mass of a human uterus amounts to only about a kilogram (2.2 pounds).

The uterus is located inside the pelvis immediately dorsal (and usually somewhat rostral) to the urinary bladder and ventral to the rectum. The human uterus is pear-shaped and about three inches (7.6 cm) long. The uterus can be divided anatomically into four segments: The fundus, corpus, cervix and the internal os.

Ovary: A pictorial illustration of the female reproductive system.

The uterus is in the middle of the pelvic cavity in frontal plane (due to ligamentum latum uteri). The fundus does not surpass the linea terminalis. The fundus of the uterus is the top, rounded portion, opposite from the cervix. The vaginal part of the cervix does not extend below interspinal line. The uterus is mobile and moves under the pressure of the full bladder or full rectum anteriorly, whereas if both are full it moves upwards. Increased intra-abdominal pressure pushes it downwards. The mobility is conferred to it by musculo-fibrous apparatus that consists of a suspensory and sustentacular part. Under normal circumstances the suspensory part keeps the uterus in anteflexion and anteversion (in 90% of women) and keeps it “floating” in the pelvis. In cases where the uterus is “tipped,” also known as retroverted uterus, women may have symptoms of pain during sexual intercourse, pelvic pain during menstruation, minor incontinence, urinary tract infections, difficulty conceiving, and difficulty using tampons. A pelvic examination by a doctor can determine if a uterus is tipped.

The lining of the uterine cavity is called the endometrium. It consists of the functional endometrium and the basal endometrium from which the former arises. Damage to the basal endometrium results in adhesion formation and/or fibrosis (Asherman’s syndrome). In all placental mammals, including humans, the endometrium builds a lining periodically which is shed or reabsorbed if no pregnancy occurs. Shedding of the functional endometrial lining is responsible for menstrual bleeding (known colloquially as a “period” in humans, with a cycle of approximately 28 days, +/- 7 days of flow and +/- 21 days of progression) throughout the fertile years of a female and for some time beyond.

Depending on the species and attributes of physical and psychological health, weight, environmental factors of circadian rhythm, photoperiodism (the physiological reaction of organisms to the length of day or night), the effect of menstrual cycles to the reproductive function of the uterus is subject to hormone production, cell regeneration, and other biological activities. The menstrual cycles may vary from a few days to six months, but can vary widely even in the same individual, often stopping for several cycles before resuming.

The uterus mostly consists of smooth muscle, known as myometrium. The innermost layer of myometrium is known as the junctional zone, which becomes thickened in adenomyosis. The parametrium is the loose connective tissue around the uterus. The perimetrium is the peritoneum covering of the fundus and ventral and dorsal aspects of the uterus. The uterus is primarily supported by the pelvic diaphragm, perineal body, and the urogenital diaphragm. Secondarily, it is supported by ligaments and the peritoneum (broad ligament of uterus).

Female Duct System

The Fallopian tubes, or oviducts, connect the ovaries to the uterus.

Learning Objectives

Describe the structures of the female duct system

Key Takeaways

Key Points

  • The Fallopian tube allows passage of the egg from the ovary to the uterus.
  • The lining of the Fallopian tubes are ciliated and have several segments, including the infundibulum, ampullary, isthmus, and interstitial regions.
  • Interspersed between the ciliated cells are peg cells, which contain apical granules and produce the tubular fluid that contains nutrients for spermatozoa, oocytes, and zygotes.
  • Occasionally, the embryo implants into the Fallopian tube instead of the uterus, creating an ectopic pregnancy.

Key Terms

  • oviduct: A duct through which an ovum passes from an ovary to the uterus or to the exterior.
  • fallopian tubes: Also known as oviducts, uterine tubes, and salpinges (singular salpinx), two very fine tubes lined with ciliated epithelia, leading from the ovaries of female mammals into the uterus via the uterotubal junction.
  • ovarian follicle: The basic units of female reproductive biology, each composed of roughly spherical aggregations of cells found in the ovary.

The Fallopian tubes, also known as oviducts, uterine tubes, and salpinges (singular salpinx), are two very fine tubes lined with ciliated epithelia, leading from the ovaries of female mammals into the uterus via the uterotubal junction. In non-mammalian vertebrates, the equivalent structures are the oviducts. These tubes allows passage of the egg from the ovary to the uterus.

The different segments of the fallopian tube are ( lateral to medial):

  • The infundibulum with associated fimbriae near the ovary
  • The ampullary region that represents the major portion of the lateral tube
  • The isthmus, which is the narrower part of the tube that links to the uterus
  • The interstitial (intramural) part that transverses the uterine musculature

The tubal ostium is the point at which the tubal canal meets the peritoneal cavity, while the uterine opening of the Fallopian tube is the entrance into the uterine cavity, the uterotubal junction.

Uterine Segments: Illustrative drawing of the anterior view of the uterus showing the uterine segments

There are two types of cells within the simple columnar epithelium of the Fallopian tube. Ciliated cells predominate throughout the tube, but are most numerous in the infundibulum and ampulla. Estrogen increases the production of cilia on these cells.

Interspersed between the ciliated cells are peg cells, which contain apical granules and produce the tubular fluid. This fluid contains nutrients for spermatozoa, oocytes, and zygotes. The secretions also promote capacitation of the sperm by removing glycoproteins and other molecules from the plasma membrane of the sperm. Progesterone increases the number of peg cells, while estrogen increases their height and secretory activity. Tubal fluid flows against the action of the ciliae, toward the fimbrated end.

When an ovum is developing in an ovary, it is encapsulated in a sac known as an ovarian follicle. On maturation, the follicle and the ovary’s wall rupture, allowing the ovum to escape. The egg is caught by the fimbriated end and travels to the ampulla where typically the sperm are met and fertilization occurs. The fertilized ovum, now a zygote, travels towards the uterus aided by the tubal cilia and tubal muscle. After about five days, the new embryo enters the uterine cavity and implants about a day later. Occasionally, the embryo implants into the Fallopian tube instead of the uterus, creating an ectopic pregnancy.

Vagina

The vagina is the female reproductive tract and has two primary functions: sexual intercourse and childbirth.

Learning Objectives

Describe the vagina and its functions

Key Takeaways

Key Points

  • The vagina is situated between the cervix of the uterus and the external genitalia, primarily the vulva.
  • Although there is wide anatomical variation, the length of the unaroused vagina of a woman of child-bearing age is approximately 6 to 7.5 cm (2.5 to 3 in) across the anterior wall (front), and 9 cm (3.5 in) long across the posterior wall (rear).
  • During sexual arousal the vagina expands in both length and width.
  • A series of ridges produced by the folding of the wall of the outer third of the vagina is called the vaginal rugae.
  • Vaginal lubrication is provided by the Bartholin’s glands near the vaginal opening and the cervix.
  • The hymen is a membrane of tissue that surrounds or partially covers the external vaginal opening.

Key Terms

  • vulva: The vaginal opening to the uterus.
  • clitoris: A small, sensitive, and elongated erectile organ at the anterior part of the vulva in female mammals, homologous with the penis.
  • Skene’s glands: Glands located on the anterior wall of the vagina, around the lower end of the urethra, that drain into the urethra and near the urethral opening. These may be near or part of the G-spot.
  • vagina: A fibromuscular tubular tract which is the female sex organ and has two main functions, sexual intercourse and childbirth.

The vagina, a female sex organ, is a fibromuscular tubular tract that has two main functions: sexual intercourse and childbirth. In humans, this passage leads from the opening of the vulva to the uterus, but the vaginal tract ends at the cervix.

Anatomy of the Vagina

Vagina: The vagina is the most immediate internal female reproductive organ. This diagram also indicates the ovaries, uterus, and cervix.

The vaginal opening is much larger than the urethral opening. During arousal, the vagina gets moist to facilitate the entrance of the penis. The inner texture of the vagina creates friction for the penis during intercourse.

The vaginal opening is at the caudal end of the vulva behind the opening of the urethra. The upper quarter of the vagina is separated from the rectum by the rectouterine pouch. The vagina and the inside of the vulva are a reddish-pink color, as are most healthy internal mucous membranes in mammals. A series of ridges produced by the folding of the wall of the outer third of the vagina is called the vaginal rugae. These transverse epithelial ridges and provide the vagina with increased surface area for extension and stretching.

Vaginal lubrication is provided by the Bartholin’s glands near the vaginal opening and the cervix. The membrane of the vaginal wall also produces moisture, although it does not contain any glands. Before and during ovulation, the cervix’s mucus glands secrete different variations of mucus, which provides an alkaline environment in the vaginal canal that is favorable to the survival of sperm.

The hymen is a membrane of tissue that surrounds or partially covers the external vaginal opening. The tissue may or may not be ruptured by vaginal penetration. It can also be ruptured by childbirth, a pelvic examination, injury, or sports. The absence of a hymen may not indicate prior sexual activity. Similarly, its presence may not indicate a lack of prior sexual activity.

Function of the Vagina

The vagina’s primary functions are sexual arousal and intercourse as well as childbirth.

Sexual Arousal and Intercourse

The concentration of the nerve endings close to the entrance of a woman’s vagina (the lower third) can provide pleasurable sensation during sexual activity when stimulated. Ninety percent of the vagina’s nerve endings are in this area. However, the vagina as a whole has insufficient nerve endings for sexual stimulation and orgasm; this lack of nerve endings makes childbirth significantly less painful.

Research indicates that clitoral tissue extends considerably into the vulva and vagina. During sexual arousal, and particularly clitoral stimulation, the vaginal walls lubricate to reduce friction caused by sexual activity. With arousal, the vagina lengthens rapidly to an average of about 4 in. (10 cm), and can continue to lengthen in response to pressure. As the woman becomes fully aroused, the vagina tents (expands in length and width), while the cervix retracts. The walls of the vagina are composed of soft elastic folds of mucous membrane which stretch or contract (with support from pelvic muscles) to the size of the inserted penis or other object, stimulating the penis and helping the male to experience orgasm and ejaculation, thus enabling fertilization.

An erogenous zone commonly referred to as the G-Spot (also known as the Gräfenberg Spot) is located at the anterior wall of the vagina, about five centimeters in from the entrance. Some women experience intense pleasure if the G-Spot is stimulated appropriately during sexual activity. A G-Spot orgasm may be responsible for female ejaculation, leading some doctors and researchers to believe that G-Spot pleasure comes from the Skene’s glands, a female homologue of the prostate, rather than any particular spot on the vaginal wall. Other researchers consider the connection between the Skene’s glands and the G-Spot to be weak. They contend that the Skene’s glands do not appear to have receptors for touch stimulation and that there is no direct evidence for their involvement. The G-Spot’s existence as a distinct structure, is still under dispute, as its location can vary from woman to woman and is sometimes nonexistent.

The Vagina and Childbirth

Anatomy reproductive system ppt

The vagina provides the channel to deliver the baby from the uterus to its independent life outside the mother’s body. During birth, the elasticity of the vagina allows it to stretch to many times its normal diameter. The vagina is often referred to as the birth canal in the context of pregnancy and childbirth.

Vulva

The vulva is the external genitalia of the female reproductive tract, situated immediately external to the genital orifice.

Learning Objectives

Describe the structures and functions of the vulva

Key Takeaways

Key Points

  • Major structures of the vulva include the labia major and minora, mons pubis, clitoris, bulb of vestibule, vulva vestibule, vestibular glands, and the genital orifice (or opening of the vagina ).
  • The vulva is rich in nerves that are stimulated during sexual activity and arousal.
  • The vulva also contains the opening of the female urethra and thus serves the vital function of passing urine.

Key Terms

  • labia minora: The two inner folds of skin within the cleft of the labia majora.
  • vulva: The vaginal opening to the uterus.
  • mons pubis: A fleshy protuberance over the pubic bones that becomes covered with hair during puberty.
  • labia majora: The two outer rounded folds of adipose tissue that lie on either side of the opening of the vagina.

The vulva consists of the external genital organs of the female mammal. Its development occurs during several phases, chiefly during the fetal and pubertal periods.

As the outer portal of the human uterus or womb, the vulva protects its opening with a “double door”: the labia majora (large lips) and the labia minora (small lips). The vulva also contains the opening of the female urethra, and thus serves the vital function of passing urine.

In human beings, major structures of the vulva are:

  • The mons pubis
  • The labia majora and the labia minora
  • The external portion of the clitoris and the clitoral hood
  • The vulval vestibule
  • The pudendal cleft
  • The frenulum labiorum pudendi or fourchette
  • The opening (or urinary meatus) of the urethra
  • The opening (or introitus) of the vagina
  • The hymen

Other notable structures include:

  • The perineum
  • The sebaceous glands on labia majora
  • The vaginal glands (Bartholin’s glands and paraurethral or Skene’s, glands)

Vulva: Labeled image of a vulva, showing external and internal views.

The soft mound at the front of the vulva, the mons pubis, is formed by fatty tissue covering the pubic bone. The mons pubis separates into two folds of skin called the labia majora, literally “major (or large) lips.” The cleft between the labia majora is called the pudendal cleft, or cleft of Venus, and it contains and protects the other, more delicate structures of the vulva. The labia majora meet again at the perineum, a flat area between the pudendal cleft and the anus. The color of the outside skin of the labia majora is usually close to the individual’s overall skin color although there is considerable variation.

The inside skin and mucus membrane are often pink or brownish. After the onset of puberty, the mons pubis and the labia majora become covered by pubic hair. This hair sometimes extends to the inner thighs and perineum, but the density, texture, color, and extent of pubic hair coverage vary considerably due to both individual variation and cultural practices of hair modification or removal. The labia minora are two soft folds of skin within the labia majora.

The clitoris is located at the front of the vulva where the labia minora meet. The visible portion of the clitoris is the clitoral glans, roughly the size and shape of a pea. The clitoral glans is highly sensitive, containing as many nerve endings as the analogous organ in males, the glans penis. The point where the labia minora attach to the clitoris is called the frenulum clitoridis. A prepuce, the clitoral hood, normally covers and protects the clitoris; however, in women with particularly large clitorises or small prepuces, the clitoris may be partially or wholly exposed. The clitoral hood is the female equivalent of the male foreskin and may be partially hidden inside of the pudendal cleft.

The area between the labia minora is called the vulval vestibule, and it contains the vaginal and urethral openings. The urethral opening (meatus) is located below the clitoris and just in front of the vagina. This is where urine passes from the urinary bladder.

The opening of the vagina is located at the bottom of the vulval vestibule toward the perineum. The term introitus is more technically correct than “opening,” since the vagina is usually collapsed, with the opening closed unless something is inserted. The introitus is sometimes partly covered by a membrane called the hymen. The hymen will rupture during the first episode of vigorous sex, and the blood produced by this rupture has been traditionally seen as a sign of virginity. However, the hymen may also rupture spontaneously during exercise or be stretched by normal activities such as use of tampons. Slightly below and to the left and right of the vaginal opening are two Bartholin glands which produce a waxy, pheromone-containing substance, the purpose of which is not yet fully known.

Perineum

The perineum is the region between the genitals and the anus, including the perineal body and surrounding structures.

Learning Objectives

System

Describe the perineum and its functions

Key Takeaways

Anatomy Reproductive System Test

Key Points

  • The perineum refers to both external and deep structures.
  • Perineal tears and episiotomy often occur in childbirth with first-time deliveries, but the risk of these injuries can be reduced by preparing the perineum through massage.
  • The perineum is an erogenous zone for both males and females.

Key Terms

  • lower rabbus: The term for perineum often used in the UK.
  • perineum: The region of the body inferior to the pelvic diaphragm and between the legs. It is a diamond-shaped area on the inferior surface of the trunk which includes the anus and, in females, the vagina.
  • episiotomy: A surgical incision through the perineum made to enlarge the vagina and assist childbirth.
  • perineal body: A pyramid-shaped fibromuscular mass in the middle line of the perineum at the junction between the urogenital triangle and the anal triangle.

In human anatomy, the perineum is the surface region between the pubic symphysis and coccyx in both males and females, including the perineal body and surrounding structures. The boundaries vary in classification but generally include the genitals and anus. It is an erogenous zone for both males and females.

Perineum Illustration: Illustrated drawing of the muscles of the female perineum.

The term perineum may refer to only the superficial structures in this region or be used to include both superficial and deep structures. The term lower rabbus is used colloquially in the UK to describe this structure. Perineal tears and episiotomy often occur in childbirth with first-time deliveries, but the risk of these injuries can be reduced by preparing the perineum through massage.

The perineum corresponds to the outlet of the pelvis. Its deep boundaries are:

  • The pubic arch and the arcuate ligament of the pubis
  • The tip of the coccyx
  • he inferior rami of the pubis and ischial tuberosity, and the sacrotuberous ligament

The perineum includes two distinct regions separated by the pelvic diaphragm. Its structures include:

  • Superficial and deep perineal pouches
  • Ischioanal fossa, a fat-filled space at the lateral sides of the anal canal bounded laterally by obturator internus muscle, medially by pelvic diaphragm and the anal canal.
  • Anal canal
  • Pudendal canal, which contains internal pudendal artery and the pudendal nerve

Mammary Glands

A mammary gland is an organ in female mammals that produces milk to feed young offspring.

Learning Objectives

Describe the function and structure of mammary glands

Key Takeaways

Key Points

  • Mammary glands are not associated with the female reproductive tract, but develop as secondary sex characteristics in reproductive-age females.
  • The basic components of a mature mammary gland are the alveoli, hollow cavities, a few millimeters large lined with milk-secreting cuboidal cells and surrounded by myoepithelial cells.
  • Alveoli join up to form groups known as lobules, and each of which has a lactiferous duct that drains into openings in the nipple.
  • Secretory alveoli develop mainly in pregnancy, when rising levels of prolactin, estrogen, and progesterone cause further branching, together with an increase in adipose tissue and a richer blood flow.

Anatomy Reproductive System

Key Terms

  • Wnts: Morphogenic signaling proteins that regulate cell-cell interactions.
  • beta-1 integrin: One of the regulators of mammary epithelial cell growth and
    differentiation.
  • mammary gland: A gland that secretes milk for suckling an infant or offspring.
  • lactiferous duct: The components that form a branched system connecting the lobules of the mammary gland to the tip of the nipple.

A mammary gland is an organ in female mammals that produces milk to feed young offspring.

Anatomy of the Mammary Gland

The basic components of a mature mammary gland are the alveoli, hollow cavities, a few millimeters large lined with milk-secreting cuboidal cells and surrounded by myoepithelial cells. These alveoli join to form groups known as lobules, and each lobule has a lactiferous duct that drains into openings in the nipple. The myoepithelial cells can contract under the stimulation of oxytocin, excreting milk secreted from alveolar units into the lobule lumen toward the nipple where it collects in sinuses of the ducts. As the infant begins to suck, the hormonally (oxytocin) mediated “let-down reflex” ensues, and the mother’s milk is secreted into the baby’s mouth.

Mammary Gland: Cross-section of the mammary-gland. 1. Chest wall 2. Pectoralis muscles 3. Lobules 4. Nipple 5. Areola 6. Milk duct 7. Fatty tissue 8. Skin EndFragment

All the milk-secreting tissue leading to a single lactiferous duct is called a simple mammary gland; a complex mammary gland is all the simple mammary glands serving one nipple. Humans normally have two complex mammary glands, one in each breast, and each complex mammary gland consists of 10–20 simple glands. The presence of more than two nipples is known as polythelia, and the presence of more than two complex mammary glands as polymastia.

Anatomy Reproductive System Quiz

Development of the Mammary Glands

Mammary glands develop during different growth cycles. They exist in both sexes during the embryonic stage, forming only a rudimentary duct tree at birth. In this stage, mammary gland development depends on systemic (and maternal) hormones, but is also under the local regulation of paracrine communication between neighboring epithelial and mesenchymal cells by parathyroid hormone-related protein. This locally-secreted factor gives rise to a series of outside-in and inside-out positive feedback between these two types of cells, so that mammary bud epithelial cells can proliferate and sprout down into the mesenchymal layer until they reach the fat pad to begin the first round of branching.

Lactiferous duct development occurs in females in response to circulating hormones, first during pre- and postnatal stages and later during puberty. Estrogen promotes branching differentiation, which is inhibited by testosterone in males. A mature duct tree reaching the limit of the fat pad of the mammary gland is formed by bifurcation of duct terminal end buds, secondary branches sprouting from primary ducts and proper duct lumen formation.

The Process of Milk Production

Secretory alveoli develop mainly in pregnancy, when rising levels of prolactin, estrogen, and progesterone cause further branching, together with an increase in adipose tissue and a richer blood flow. In gestation, serum progesterone remains at a high concentration so signaling through its receptor is continuously activated. As one of the transcribed genes, Wnts secreted from mammary epithelial cells act paracrinely to induce branching of neighboring cells. When the lactiferous duct tree is almost ready, alveoli are differentiated from luminal epithelial cells and added at the end of each branch. In late pregnancy and for the first few days after giving birth, colostrum is secreted.

Milk secretion (lactation) begins a few days after birth, caused by reduction in circulating progesterone and the presence of prolactin, which mediates further alveologenesis and milk protein production and regulates osmotic balance and tight junction function.
The binding of laminin and collagen in the myoepithelial basement membrane with beta-1 integrin on the epithelial surface insures correct placement of prolactin receptors on basal lateral side of alveoli cells and directional secretion of milk into lactiferous ducts. Suckling of the baby causes release of hormone oxytocin which stimulates contraction of the myoepithelial cells. With combined control from the extracellular matrix (ECM) and systemic hormones, milk secretion can be reciprocally amplified to provide enough nutrition for the baby.

Anatomy Reproductive System Quiz

During weaning, decreased prolactin, lack of mechanical stimulation through suckling, and changes in osmotic balance caused by milk stasis and leaking of tight junctions cause cessation of milk production. In some species there is complete or partial involution of alveolar structures after weaning; however, in humans there is only partial involution, which widely varies among individuals. Shrinkage of the mammary duct tree and ECM remodeling by various proteinase is under the control of somatostatin and other growth-inhibiting hormones and local factors. This structure change leads loose fat tissue to fill the empty space. However, a functional lactiferous duct tree can be reformed when a female is pregnant again.