Female Reproductive Cycles PDF

Summary

This document details the stages of the female reproductive cycle in animals, encompassing the oestrous cycle, terminology, and pregnancy. Concepts like gestation, parturition, and induced ovulation are explained. It also covers different cycle classifications and the physical stages of labour, along with the role of hormones in these processes

Full Transcript

Reproductive System –
Oestrous Cycle & Gestation
Terminology
Oestrous vs oestrus
Oestrous = the entire reproductive cycle
Oestrus = a stage of the oestrous cycle where the “heat” occurs (sexual
receptivity of the female to the male and when ovulation occurs)
Oestrous vs estrous, oestrus vs estrus
Gestation – pregnancy (period of development of young within the uterus)
Parturition – giving birth
Lactation – secretion of milk from the mammary glands
Serosanguinous – yellowish fluid containing a small amount of blood
Oestrous
Cycle
Time from the start of one “heat” to the start of
the next “heat”
Cycle is controlled by follicle-stimulating
hormone (FSH) and luteinizing hormone (LH) –
produced by the pituitary gland
These hormones stimulate follicle production
(produces oestrogen) and after ovulation
corpus luteum formation (progesterone
production)
Function of the Oestrous
Cycle
Because females do not continuously
produce ova, the success of breeding
(fertilisation) depends largely on mating at
ovulation (when the ova are mature and
available for fertilisation)
Behavioural changes and ovarian cycles
must align to increase the chances of
pregnancy
 Cycle Classifications
Animals are classified by the type
of cycle they have
Seasonally polyoestrous –
multiple cycles during a certain
period of the year eg. cats,
horses
Dioestrous – animals that have
two cycles per year eg. dog
Monoestrous - having one
oestrous cycle per year eg.
foxes and bears
 Stages of the Oestrous Cycle
Proestrus
Oestrus
Dioestrus
Anoestrus
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 Proestrus
~9 days (range 0-27)
Ovary: Follicles develop in the ovary
Hormones: Oestrogen is produced by the follicle, causing physical
changes in the reproductive tract
Thickening in lining of oviduct, uterine horns, and vagina
Epithelium of vagina changes (keratinises)
Vulva: swells and serosanguinous discharge appears
Behaviour: Disinterested in males – may even be aggressive
 Oestrus
~9 days (range 2-24)
Commonly called the “heat” stage of
cycle
Ovary: mature follicle producing lots of
oestrogen, about to ovulate
Hormone: Oestrogen is at peak levels,
LH surge causes ovulation
Vulva: Vulvar swelling continues,
serosanguinous discharge
Behaviour: Female is receptive to
male, will “stand” for mating
 Diestrus
2 months (56-100 days)
Ovary: Ruptured follicle initially fills
with blood, then forms a solid
structure, the corpus luteum(CL) =
“yellow body”
Hormones: Progesterone is released
from CL – temporarily inhibits new
follicular development
Vulva: Vulva swelling and discharge
decreases
 Dioestrus
Behaviour: not receptive to mating -
period of sexual inactivity
Pseudopregnancy may occur in this
phase – fatty deposits around the
abdomen, mammary enlargement.
Reasons for pseudopregnancy
unknown.
 Anoestrus
4 months (range 60-200)
Phase of inactivity
Similar to what happens with queens
and bitches who are speyed
Allows uterus to regenerate for next
oestrus
Low oestrogen and progesterone levels
Anoestrus is induced by time of year,
pregnancy, lactation, significant illness,
chronic energy deficit and age
 Induced Ovulation
Some species are “induced
ovulators” – must be mated for
ovulation to occur (the process of
mating initiates the LH surge)
Usually requires 3-4 matings in a
short period
Increases the chance of
fertilisation
Cats, rabbits, possums
 Pregnancy
Immediately post-mating, spermatozoa make their
way to the uterine tubes/oviducts
Once one spermatozoa has entered the ovum, the
ovum cell membrane changes to block other sperm
from entering
Fertilised ovum = zygote (single-celled)
The zygote travels down towards the uterine horn for
implantation
Zygote undergoes rapid cell division to become the
embryo
 Pregnancy
Gestation = pregnancy
Gestation period is divided into trimesters:
First trimester
Period of the embryo – implantation, development of
placenta
Second trimester
Embryo now referred to as foetus (name is based on
age)
Development of foetus, organ development
Third trimester
Period of foetal growth
 Pregnancy and the Placenta
In the early stages, the embryo is
supported by progesterone released
from the corpus luteum (CL)
Progesterone = pro-gestational hormone
As the embryo grows, a placenta
develops to support life
Placenta is a multi-layered structure that
attaches the embryo to the lining of the
uterus by the umbilical cord
Amniotic sac – contains fluid that the
embryo sits in
 Parturition
The birth process
Progesterone levels decline
Glucocorticoids (steroids) from the foetal
adrenal glands trigger oestrogen rise in
dam
Both of these things increase the sensitivity
of the myometrium to oxytocin
Oxytocin
Hormone that causes uterine
contractions
Triggers the start of the labour process
 Physical stages of labour
Stage 1 – Uterine contractions
Membrane-covered foetus moves to the cervix,
causing cervical dilation
Stage 2 – Delivery of foetus
Combination of strong uterine contractions,
abdominal wall contractions
Foetus expelled and rupture of the amniotic sac
Stage 3 – Delivery of placenta
Placenta separates from uterine wall
Dam often eats placenta
In multiparous species stages one and two often
intermix
 Lactation
Males and females both have mammary glands
(except mice, horses, marsupials – not examined) but only females
produce the hormones that make their mammary
glands functional
Mammary glands produce colostrum and milk
Colostrum is typically produced for the first 3 days
Contains high amounts of proteins, fats and milk
Included in proteins are immunoglobulins
(antibodies)
Important for the transfer of passive immunity
Consumption of colostrum must begin within a few
hours of birth – the lining of the newborn intestine
changes and is unable to absorb large molecules
 Lactation

Milk “let-down” is the effect of
feeding/nursing offspring – milk moves from
high in the gland down to the larger ducts in
the gland to make it available
Hormones involved are prolactin and
oxytocin – released from the pituitary gland
Prolactin helps trigger and maintain lactation
Oxytocin causes contractions in glands to
squeeze milk down
Physical pressure on the gland by offspring
also sends sensory nerve impulses that
trigger the hypothalamus to signal the
posterior pituitary to release oxytocin