Physiology of the Ovary PDF

Summary

This presentation details the physiology of the ovary, focusing on its role in female reproduction, including hormone production, cyclical processes, and related structures such as follicles and the corpus luteum. It covers the function of the ovary in cows, as well as the hormonal regulation and reproductive processes within the animal.

Full Transcript

SINDH AGRICULTURE UNIVERSITY
FACULTY OF ANIMAL HUSBANDRY AND
VETERIANRY SCIENCES

DEPARTMENOF ANIMAL
REPORDUCTION

BY Dr. Shahzeen
Reg No: 2K24-SO-11
PHYSIOLOGY OF THE OVARY
By Shahzeen
Reg no# 2k24-S0-
11
 PHYSIOLOGY OF OVARY

The ovary is the primary female reproductive organ and has two
important functions:
1. producing the female reproductive cell (the egg or ovum)
2. producing the hormones estrogen and progesterone.
The cow has two ovaries and are oval to bean-shaped organs
that are 1—1.5 inches long and located in the abdominal cavity.
The ovary produces the egg by a process called oogenesis.
Oogenesis is cyclic known as estrous cycle (average 21 days).
During the estrous cycle, two prominent structures are present
within the ovary: the follicle and corpus luteum.
The ovary contains several thousand tiny structures called
primary follicles.
Each follicle consists of a germ cell surrounded by a layer of
flattened cells, only a small percentage of primary follicles
continue through the secondary and tertiary follicular phases
and ultimately undergo ovulation.

This germ cell has the potential to mature into an egg if the
follicle completes development. However, most of the primary
follicles never develop.
Rather, they die, are absorbed by the ovary, and are replaced
by newly formed primary follicles.
The relatively few primary follicles that develop completely do so
through a series of phases. Many layers of cells are added to the
single layer of cells surrounding the egg in the primary follicle,
forming a central cavity.
As the follicle and cavity grow larger, the egg becomes attached to
the back of the follicle (opposite the ovulation site) by a stalk of
cells. As the follicle continues to grow rapidly, the side opposite
the egg bulges from the surface of the ovary and becomes very
thin.
Once the follicle reaches this mature state it is called a
Graafian follicle (dominant follicles). At ovulation, the thin
portion ruptures to release the contents of the follicle,
including the egg and the corpus luteum, which has the
important function of producing progesterone.
Following ovulation, the cells that developed within the follicle
undergo a differentiation process. This process is
called luteinization and gives rise to the second prominent
ovarian structure, the corpus luteum (pl. corpora lutea).
 The CL goes through a maturation and regression cycle
much the same as the follicle. A blood clot-type structure
known as a corpus hemorrhagicum forms in the cavity
left by the ruptured follicle and is transformed into a CL by
Day 5 of the cycle (Day 0 = estrus).
The CL is fully functional from Day 5 to Day 15 of the cycle
and then begins to regress if the female does not become
pregnant. The CL regresses and no longer secretes
progesterone as the follicle of the next estrous cycle
begins to develop.
As the CL regresses further, it becomes known as
the corpus albicans and remains visible on the ovary for
several subsequent cycles.
 The dynamic development and regression of the corpus luteum
and follicles are a continual process in the normal cycling cow
until she becomes pregnant.
In a pregnant female, CL regression does not occur, and the
cyclic activity stops until after calving. A cow generally
remains anestrous (does not cycle) for a period of time
following calving.
The length of the postpartum anestrous period is on average
around 60 days, but this is highly variable among cows based
on age, nutrition, lactation, presence of a suckling calf,
environmental stress, and numerous other factors.
 Occasionally the CL does not regress normally (persistent CL)
even though the animal does not become pregnant. This requires
diagnosis and treatment by a veterinarian.
Abnormally short estrous cycles (7 to 11 days) can occur. This
condition appears to be caused by either no corpora lutea being
formed, or if one is formed, it is non-functional and progesterone
levels remain low.
 THE HORMONES OF FEMALE
REPRODUCTION

Reproduction in the female is controlled by numerous hormones secreted from
specialized glands called endocrine glands. These secretions are produced in
the glandular cells and pass into the blood and lymph systems for transport to
specific parts of the body where they produce their function.
The hormone, estradiol (or estrogen) is produced by the granulosa cells of
the follicle. Estradiol has various effects, including:
Development and function of the secondary sex organs
Receptivity to mating during and other behaviors associated with estrus
Rate and type of growth, especially relative to deposition of fat
Regulation of puberty attainment and length of the postpartum anestrous
period
Progesterone:
secreted by the corpus luteum, suppresses ovulation of a dominant follicle
and the associated secretion of high levels of estradiol. Therefore, elevated
levels of progesterone prevent a cow from coming into heat. Progesterone is
necessary for preparing the uterus to receive the fertilized ovum and
maintains the proper uterine environment for continuation of pregnancy.
Estradiol and progesterone are not separate in their functions since both
must be present for certain processes to occur.
For example, the ratio of the concentration of estradiol to progesterone
dictates the onset and duration of behavioral estrus. Development of the
uterus is initiated by estradiol and completed by progesterone. Estradiol
causes contraction of the uterus near the time of estrus and ovulation, which
aids in sperm transport. Progesterone has a quieting effect on the uterus so
that there are no contractions which might disturb pregnancy.
 The production of ovarian hormones is under direct influence of gonadotropic
hormones produced by the anterior pituitary. Follicle stimulating
hormone (FSH) and luteinizing hormone (LH) are secreted from the pituitary
and travel through the blood to the ovary.
The release of FSH and LH is mediated by gonadotropin-releasing
hormone (GnRH) by the hypothalamus. FSH stimulates the recruitment, growth,
and development of follicular waves, while LH supports continued development of
a dominant follicle.
Additionally, a surge in LH release around the time of onset of estrus causes the
follicle to initiate the ovulatory process and develop into a corpus luteum.
 This cyclic process continues every 21 days in a normal-cycling
cow, but changes if conception occurs. Following pregnancy
and a period of anestrus, the estrous cycle once again
continues.

References:
Reproductive anatomy and physiology of cattle 2020/11/05,
article
Duetscher, G.H.1980, reproductive tract anatomy and physiology
of the cow (G80-537-A)