Female Reproductive Organs

Question 1

Three parts of the uterus

Answer 1

Fundus- Top
Body- Uterine Cavity
Cervix

Question 2

Key points of the uterus

Answer 2

Muscular organs

Receives right and left Fallopian tubes

Lined by epithelium

Pear shaped and opens to the vagina

Question 3

Key parts of the clitoris

Answer 3

Small external part, the glans and a good and a bigger part inside.

Covered by thin epidermis

The hood is called the clitoral prepuce

Question 4

Mons pubis

Answer 4

Skin with coarse hair and a pad of subcutaneous fat.

Lies over the symphysis pubis

Question 5

Vulva

Answer 5

Labia Majora- subcutaneous fat and hair follicles with smooth muscle fibre.

Lots of sebaceous glands

Labia Minora- No hair follicles but many sebaceous glands

Question 6

Key points of the vagina

Answer 6

7/9 cm

At an angle of 90 degrees

Capable of distension and elongation

pH from 3.8 to 4.5

Walls touch at rest

Question 7

Key points of the uterus

Answer 7

Musclular organ

Receives right and left Fallopian tubes

Lined by simple epithelium

Pear shaped and opens into the vagina

Question 8

Corpus Luteum

Answer 8

A hormone secreted structure (mostly progesterone) that develops in an ovary after an ovum has been discharged but degenerates after a few days unless pregnancy has began

Question 9

Body of the Cervix

Answer 9

3 layers

Peritoneum- thin external layer of peritoneum (serous membrane that lines the abdominal cavity)

Myometrium- smooth muscle layer

Endometrium- thin mucous membrane

Question 10

3 layers of the endometrium (a thin internal mucous membrane)

Answer 10

Compact layer- densely packed connective tissue around uterine glands

Spongy layer- edematous connective tissue (swollen) containing uterine glands

Basal layer- contains blind ends of the interior glands (this does not shed every month, the others do).

Question 11

Uterine body and fundus properties during pregnancy

Answer 11

Both have thick walls (myometrium)

Myometrium is Oenone sensitive- hypertrophy (increase cell size) and hyperplasia (increased production rate of cells)

Blood vessels- arterial and venous- substantially dilate and thicken

Uterus body lined by endometrium which is made up of glands and stroma .

Endometrium function= create a welcome environment for fertilised egg

This is to form abundant nutrient rich glands and extensive vascular supply incase of fertilisation, if not it sheds

Question 12

Endometrium function

Answer 12

create a welcome environment for fertilised egg

Question 13

Involution

Answer 13

Returns to normal size

Question 14

How many layers does the endometrium (inner linings of the uterus) have during reproductive life?

Answer 14

2- a deep basal later and a superficial functional layer which lines the lumen.

Question 15

What happens to the endometrium if fertilisation occurs?

Answer 15

If this happens it does not shed and forms the decidua (mucosal lining prepares for pregnancy)

Question 16

Does the basal layer and the functional layer shed?

Answer 16

The basal layer does not shed at menstruation. It allows the functional layer to regenerate using a cellular reserve.

The functional layer will shed if there is no fertilisation

Question 17

Is the functional layer hormone responsive?

Answer 17

Yes and it undergoes the menstrual cycle

Question 18

Does the endometrium respond evenly to ovarian hormonal stimulation?

Answer 18

No

Question 19

What is another name for the Fallopian tubes?

Answer 19

Uterine tubes

Question 20

What is the purpose of the Uterine (Fallopian) Tubes?

Answer 20

Takes ova from the ovary to the lumen is the uterus

Site of fertilisation

Moves the fertilised ovum to the endometrial cavity for implantation.

10/12 cm long from the open dilated end to the narrow portion.

4 sections with different functions

Question 21

What is storma ?

Answer 21

Supportive tissue of an epithelial organ consisting of connective tissue and blood vessels

Question 22

The four uterine tube segments

Answer 22

Muscular tube with epithelial lining (every section varies in appearance)

Infundibulum- (with a fringe of fimbriae)- these sweep the egg into the tube.

Ampulla- thin with narrow walls, fertilisation normally occurs here.

Isthmus- narrower and thicker and leads to the intramural.

Intramural- continuous with the isthmus that leads into the uterus.

Question 23

What are the layers of the uterine tube layers?

Answer 23

Smooth muscles
Two layers-
Inner layer- tight circular spirals
Outer layer- loose longitudinal spirals

Third layers close to the uterus which supports tubal epithelium- a thick vascular lamina propria - thin layer of loose connective tissue which is a part of the mucosa with the epithelium and basement membrane

Question 24

What are the two types of the epithelial cells lining the Fallopian tubes?

Answer 24

Ciliated cells - Nearer to the ovarian end. Height varies throughout the cycle as they respond to estrogen. Tallest around ovulation. They shorten during pregnancy due to progesterone.

Secretory cells- Nearer to the uterine end. Have microvilli and produce tubal fluid, rich in potassium and chloride ions but contain serum proteins which include immunoglobulins. Tubal fluid has nutritional function

Question 25

Where are the ovaries located?

Answer 25

In the left and the right pelvic cavities

Question 26

What are the two major functions of the ovaries?

Answer 26

Source of a mature ova.

Endocrine organs- steroid hormones that prepare endometrium for conception and maintain pregnancy.

Question 27

How many ovarian components are there?

Answer 27

3 components

Hilum- where blood vessels, lymphatic sand nerves leave and enter the ovary. The hilum and medulla maintain remnants of gonads from ambisexual phase.

Medulla- middle layer- contains strongly cells identical to the majority of the cortex.

Outer Cortex- 2 components- supporting stroma and gamete producing structures. Amount of these will depend on age and hormone stimulation. Follicles are imbedded into the stroma.

Question 28

What is the cortical stroma made up of?

Answer 28

Closely packed, spindle shaped fibroblast like cells.

Question 29

How are stromal cells arrange in the ovaries?

Answer 29

Haphazardly with the cytoplasm being rich in ribosome and mitochondria. In the outer cortex there are many reticulin (connective tissues) and collagen fibres present.

The amount of ovarian stroma and amount of lipid in a cell is hormone dependent. Increase in lipids in the stroma is prominent in pregnancy.

Question 30

What are the three main functions for stromal cells?

Answer 30

Structural support for developing ova

Secretes steroid hormones.

Gives rise to theca interna and theca external around developing follicles. (Ovary only connected with developing ovarian follicles- promotes growth of new blood vessels in theca interna to which they provide nutrition)

Question 31

What is oogenesis?

Answer 31

Transformation of oogonia into oocytes

Question 32

What is oogonia?

Answer 32

Immature female reproductive cells

Question 33

Oocytes

Answer 33

Cells in the ovary that have the capability of performing meiosis to become an ovum.

Question 34

When is the maturity process finished in occytes?

Answer 34

The maturity process begins as a fetus but does not complete until after puberty.

Question 35

How do oogonia proliferate?

Answer 35

They increase rapidly in numbers by cell division.

Question 36

What do the oogonia enlarge to become before birth?

Answer 36

Primary oocytes

Question 37

What phase have the oocytes completed by birth?

Answer 37

The prophase stage of the first meiotic division and remain at this stage until puberty

Question 38

Oogenesis

Answer 38

Primary occyte completes the first meiotic division just before ovulation.

Secondary occyte receives nearly all the cytoplasm and the first polar body (non-functioning cell) receives very little.

At ovulation the nucleus of the secondary occyte begins the second meiotic division to metaphase where division is suspended, if the secondary occyte is fertilised by sperm, the second meiotic division completes.

The fertilised occyte retains most of the cytoplam, the second polar body degenerates soon after.

Question 39

What is the monthly reproductive cycle regulated by?

Answer 39

Hypothalamus, pituitary gland, ovaries, uterus, uterine tubes, vagina and mammary glands.

Question 40

What is gonadotropin

Answer 40

Releasing hormone is synthesised by neurosecretory cells (nerve cells that secrete hormones found in the brain) in the hypothalamus and is carried by the hypophysial portal system to anterior lobe of pituitary gland.

This stimulates the release of FSH and LH.

Question 41

What’s is FSH?

Answer 41

Follicle stimulation hormone.

Stimulates development of ovarian follicles and the production of estrogen.

Question 42

What does LH do?

Answer 42

Lutenising hormone

Serves as a trigger for ovulation (the secondary oocyte to be released) and stimulates follicular cells and the corpus luteum to produce progesterone.

Question 43

How many follicles degenerate each month?

Answer 43

4 to 11

Question 44

What hormone prompts growth during each cycle?

Answer 44

FSH

Question 45

Ovulation

Answer 45

Follicular cells divide around the occyte, creating a layer.

Ovarine follicles becomes oval due to proliferation of cells occurring more on one side.

Fluid filled space occurs, forming a cavity (antrum) this contains follicular fluid. This is now called a vesicular follicle.

Primary oocyte is pushed to one side and is surrounded by a mound of follicular cells called the cumulus oophorus. Follicle enlarges until it reaches maturity.

Mid cycle, due to FSH and LH, the ovarian follicle grows rapidly. Before ovulation the secondary oocyte and some cells from the cumulus oophorus release from the distended follicle.

As LH increases, 12-24 hours later, ovulation is triggered. LH increased is caused by high levels of estrogen in the blood causing stigmas to increase and form a vesicle. The stigma ruptured due to this, releasing the secondary oocyte and follicular fluid.

The second oocyte is surrounded by sons pellucida (transparent membrane) and one or more layers of follicular cells to form the corona radiata (supplies proteins to the cell) and cumulus oophorus. These are known as the occyte-cumulus complex.

LH surged appears to restart the first meiotic division of the primary oocytes, this matured ovarian follicles containing secondary occytes.

Question 46

Why is the ovarian follicle oval?

Answer 46

Due to proliferation of follicular cells occurring more rapidly on one side

Question 47

What is the follicle called once the antrum forms?

Answer 47

The vesicular/Graafian follicle

Question 48

What is the antrum?

Answer 48

The cavity formed filled with follicular fluid

Question 49

When do you know if the follicle is mature?

Answer 49

It forms a bulge on the ovarian surface

Question 50

When does the ovarian follicle grow rapidly due to LH and FSH?

Answer 50

Around mid cycle

Question 51

What is the cumulus oophorus?

Answer 51

Cluster of cells that surround the oocyte

Question 52

What causes an increasing in luteinising hormone?

Answer 52

Estrogen in the blood and this causes the stigma to increase to form a vesicle.

This makes the stigma rupture, releasing the secondary oocyte and follicular fluid.

Question 53

What is the zona pellucida?

Answer 53

The thick transparent membrane surrounding the ovum before implantation

Question 54

What is the corona radiata?

Answer 54

It supplies vital proteins to the cell

Question 55

What does an LH surge appear to restart?

Answer 55

The first meiotic division of the primary oocytes. This matured ovarian follicles containing secondary oocytes.

Question 56

Corpus Luteum

Answer 56

Following ovulation the walls collapse and become folds. Due to the increase in LH it becomes a glandular structure which secretes mainly progesterone (e too). This causes thick mucous to be produced to prepare the endometrium for implantation if the blastocyst.

If the oocyte is fertilised it increases in size to become the corpus Luteum of pregnancy which increases hormone production. hCG prevents degeneration of pregnancy because it is rich in LH.

Corpus Luteum is active for the first 20 weeks, after that the placenta produces the estrogen and progesterone needed for pregnancy.

If it’s not fertilised it’ll degenerate over 10-12 days- corpus Luteum of menstruation. This transforms into shite scar tissue- the corpus albicans.

Question 57

What is the corpus albicans?

Answer 57

White scar tissue in the ovary caused by the corpus Luteum not being fertilised