Female Genital Tract PDF

Summary

This document provides an overview of the female reproductive system and the ovarian cycle. It details the structures of the female reproductive system, stages of the ovarian cycle, oogenesis, and the influence of estrogen and progesterone on the ovarian cycle.

Full Transcript

Female Reproductive System
&Ovarian Cycle
 Learning Outcome

1.Identify the structures of the female
reproductive system and provide a function
for each.
2.List the stages of the ovarian cycle and
explain what is occurring in each stage.
3. Describe the process of oogenesis.
4.Summarize how estrogen and progesterone
influence the ovarian cycle
 The female reproductive system divided into
internal reproductive and external genital
organs
 Internal reproductive organs
Organ --------Function
Ovaries------ gonads are paired lie in shallow depressions, one
on each side of the upper pelvic cavity.
The ovaries produce eggs (technically referred to as ova) and
the female sex hormones estrogen and progesterone.
Oviducts------ Conduct eggs; location of fertilization(uterine or
fallopian tubes)
Uterus (womb)------ Houses developing fetus
Cervix -------Contains opening to uterus
Vagina----- serves as birth canal and as an exit for menstrual
flow
 The oviducts, also called the uterine or
fallopian tubes, extend a projections called
fimbriae that sweep over the ovaries. When
an egg (ovum) bursts from an ovary
during ovulation, it usually is swept into an
oviduct by the combined action of the
fimbriae and the beating of cilia that line the
oviducts.
 Once in the oviduct, the egg is propelled
slowly by ciliary movement and tubular arrives
at the uterus after several days, and then
implantation occurs. During implantation,
the embryo embeds in the uterine lining,
which has been prepared to receive it.
 The uterus is a thick-walled, muscular organ
about the size and shape of an inverted pear.
Normally, it lies above and is tipped over the
urinary bladder. The oviducts join the uterus
at its upper end; at its lower end, the cervix
enters the vagina nearly at a right angle.
 Development of the embryo and fetus normally takes place in
the uterus, is approximately 5 cm wide in its usual state. It is
capable of stretching to over 30 cm wide to accommodate a
growing fetus. The lining of the uterus, called the endometrium,
participates in the formation of the placenta.
The endometrium supplies nutrients needed for embryonic and
fetal development. The endometrium has two layers : a
functional layer that is shed during each menstrual period and a
basal layer of reproducing cells.
In the non pregnant female, the functional layer of the
endometrium varies in thickness according to a monthly
reproductive cycle called the uterine cycle.
 A small opening in the cervix leads to the vaginal canal.
The vagina is a tube that lies at a 45° angle to the
small of the back. The mucosal lining of the vagina lies
in folds and can extend. This is especially important
when the vagina serves as the birth canal.
The vagina also acts as an exit for menstrual flow.
Several different types of bacteria normally reside in
the vagina and create an acidic environment.
This environment is protective against the possible
growth of pathogenic bacteria.
 :Ovarian Cycle

An ovary contains many follicles, and each one contains an
immature egg called an oocyte. A female is born with as many as
2 million follicles, but the number is reduced to 300,000 to
400,000 by the time of puberty. Only a small number of follicles
(about 400) ever mature because a female usually produces only
one egg per month during her reproductive years.
As the follicle matures during the ovarian cycle, it changes from
a primary to a secondary to a vesicular (Graafian) follicle.
Epithelial cells of a primary follicle surround a primary oocyte.
Pools of follicular fluid bathe the oocyte in a secondary follicle.
In a vesicular follicle, the fluid-filled cavity increases to the point
that the follicle wall balloons out on the surface of the ovary
 A primary oocyte undergoes meiosis I, and the
resulting cells are haploid with 23 chromosomes
each. One of these cells is called a polar body. A
polar body is a sort of cellular “trash can” because
its function is simply to hold discarded
chromosomes. The secondary oocyte undergoes
meiosis II but only if it is first fertilized by a sperm
cell. If the secondary oocyte remains unfertilized, it
never completes meiosis and will die shortly after
being released from the ovary.
 When appropriate, the vesicular follicle bursts, releasing
the oocyte (often called an egg) surrounded by a clear
membrane. This process is referred to as ovulation. Once
a vesicular follicle has lost the oocyte, it develops into a
corpus luteum, a glandlike structure. If the egg is not
fertilized, the corpus luteum disintegrates.
As mentioned previously, the ovaries produce eggs and
also the female sex hormones estrogen and progesterone.
A primary follicle produces estrogen, and a secondary
follicle produces estrogen and some progesterone. The
corpus luteum produces progesterone and some estrogen.
 Phases of the Ovarian Cycle

Similar to the testes, the hypothalamus has
ultimate control of the ovaries’ sexual function
because it secretes gonadotropin-releasing
hormone, or GnRH. GnRH stimulates the
anterior pituitary to produce FSH and LH, and
these hormones control the ovarian cycle. The
gonadotropic hormones are not present in
constant amounts. Instead they are secreted
at different rates during the cycle.
 For simplicity’s sake, it is convenient to
emphasize that during the first half, or
follicular phase, FSH promotes the
development of follicles that primarily secrete
estrogen. As the estrogen level in the blood
rises, it exerts negative feedback control over
the anterior pituitary secretion of FSH. The
follicular phase now comes to an end.
 The estrogen spike at the end of the follicular phase has a
positive feedback effect on the hypothalamus and pituitary
gland. As a result, GnRH from the hypothalamus increases.
There is a corresponding surge of LH released from the anterior
pituitary.
The LH surge triggers ovulation at about day 14 of a 28-day
cycle. Next, the luteal phase begins. During the luteal phase of
the ovarian cycle, LH promotes the development of the corpus
luteum. The corpus luteum secretes high levels of progesterone
and some estrogen. When pregnancy does not occur, the
corpus luteum regresses and a new cycle begins with
menstruation.
 Estrogen and Progesterone

Estrogen and progesterone affect not only the uterus but
other parts of the body as well. Estrogen is largely
responsible for the secondary sex characteristics in
females; axillary and pubic hair during puberty and fat
distribution. In general, females have a more rounded
appearance than males because of a greater accumulation
of fat beneath the skin.
Both estrogen and progesterone are also required for
breast development. Other hormones are involved in milk
production (prolactin) following pregnancy and milk
letdown (oxytocin) when a baby begins to nurse.
 Menopause, the period in a woman’s life during
which the ovarian cycle ceases, is likely to occur
between ages 45 and 55. The ovaries are no longer
responsive to the gonadotropic hormones produced
by the anterior pituitary, and the ovaries no longer
secrete estrogen or progesterone. At the onset of
menopause, menstruation becomes irregular a
woman is usually not considered to have completed
menopause until menstruation is absent for 6
month to 1 year.
 Uterine Cycle

The female sex hormones, estrogen and progesterone,
have numerous functions. One function of these
hormones affects the endometrium, causing the uterus to
undergo a cyclical series of events known as the uterine
cycle. Twenty-eight-day cycles are divided as follows:
During days 1–5, a low level of estrogen and progesterone
in the body causes the endometrium to disintegrate and
its blood vessels to rupture. On day 1 of the cycle, a fl ow
of blood and tissues, known as the menses, passes out of
the vagina during menstruation, also called the
menstrual period
 During days 6–13, increased production of estrogen by a new ovarian
follicle in the ovary causes the endometrium to thicken and become
vascular and glandular. This is called the proliferative phase of the uterine
cycle. On day 14 of a 28-day cycle, ovulation usually occurs.
During days 15–28, increased production of progesterone by the corpus
luteum in the ovary causes the endometrium of the uterus to double or
triple in thickness (from 1 mm to 2–3 mm). The uterine glands mature and
produce a thick mucoid secretion in response to increased progesterone.
This is called the secretory phase of the uterine cycle. The endometrium is
now prepared to receive the developing embryo. If this does not occur, the
corpus luteum in the ovary regresses. The low level of progesterone in the
female body results in the endometrium breaking down during
menstruation
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