Biology today

fallopian tube

• The function of the Fallopian tube is to convey the ovum
from the ovary to the uterus. It is done by peristalsis.

• Fertilisation of the ovum generally takes place in the upper
portion of the Fallopian tube (ampulla).

• Each Fallopian tube (10-20 cm) consists of the parts as
shown in the flowchart.

Isthmus

The isthmus is short, narrow thick-walled portion that follows the

ampulla.

Fallopian tube

Uterine part

The uterine part passes through the uterine wall and communicates

with the uterine cavity.

Infundibulum isafunnel-shaped fimbriated free end of the oviduct. It

opens into the body cavity by an aperture called ostium. Margin of the

funnel bears motile, finger-like processes called fimbriae. Fimbriae

have folds lined with cilia that produceaslow current towards

ostium for the passage of liberated ovum towards inside of oviduct.

Infundibulum

Ampulla

The ampulla is the widest and the longest part of Fallopian tube.

uterus

• It is an inverted pear-shaped large distensible part of female
reproductive system which is specialised for anchoring and
nourishing the developing foetus. Uterus is attached to
pelvic wall by means of ligaments.

interplay of ganulosa and thecal cells

•    During the initial first of week of menstrual cycle, there is a division of labour between the actions of FSh and Lh on the

follicles.

•    FSh acts on the granulosa cells, and Lh acts on the theca cells. The reasons are that granulosa cells have FSh receptors but no

Lh receptors and theca cells have just the reverse. FSh stimulates the granulosa cells to multiply and produce estrogen, and it

also stimulates enlargement of the antrum. Some of the estrogen produced diffuses into the blood and maintains a relatively

stable plasma concentration. Estrogen also functions as a paracrine or autocrine agent within the follicle, where, along with

FSh and growth factors, it stimulates the proliferation of granulosa cells, which further increases estrogen production.

•    The granulosa cells, require help to produce estrogen because they

are deficient in the enzymes required to produce the androgen

precursors of estrogen. The granulosa cells are aided by the theca

cells.

•    Lh acts upon the theca cells, stimulating them not only to proliferate

but also to synthesise androgens. The androgens diffuse into the

granulosa cells and are converted to estrogen by an enzyme

expressed in granulosa cells called aromatase. Thus, the secretion

of estrogen by the granulosa cells requires the interplay of both

types of follicle cells and both pituitary gonadotropins.

Theca cells

synthesise

androgens

Granulosa cells

convert androgens

to estrogen

Diffusion

LH FSH

Ovarian follicle

Fig.:Control of estrogen synthesis during the early and

middle follicular phases.

•    The walls of the uterus are composed of three layers of

tissues. The perimetrium is an outer thin covering of

peritoneum. The myometrium is a middle thick layer of

smooth muscle fibres which shows strong contraction during

delivery of the baby. The endometrium is inner glandular

layer that lines the uterine cavity. It is the endometrium that

undergoes cyclical changes during menstrual cycle.

•    morphologically uterus is differentiated into three regions

fundus, body and cervix.

Uterus

Cervix isasmall narrow cylindrical inferior extremity

of uterus which is about 2.5 cm in length.The cervix

communicates alone with the body of the uterus by an

aperture called internal os and with the vagina below

by external os.The cavity of the cervix between the

internal os and external os is called cervical canal.

Fundus is upper dome-shaped region of the uterus

which lies above the level of entry of oviducts.

Body is the main part of uterus. Body of uterus is

broad towards the fundus and narrows down towards

the cervix.

Fundus

Body

Cervix

vagina

•    The vagina is a tube, about 10 cm long, that extends from

the cervix to the outside of the body. It provides a passage

for the menstrual flow, serves as the receptacle for sperm