Physiology of conception
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Transcript Physiology of conception
The Physiology of
conception
Yasser Orief M.D.
Lecturer of Obstetrics & Gynecology, Alexandria University
Fellow, Lϋbeck University, Germany
DGOL, Auvergné University, France
Hypothalamo – Pituitary – Gonadal axis
The Reproductive System
Gonads – primary sex organs
Testes in males
Ovaries in females
Gonads produce gametes (sex cells) and
secrete hormones
Sperm – male gametes
Ova (eggs) – female gametes
Testes
Male Reproductive System
Processes of Spermatogenesis
Female Reproductive System
Female Reproductive System
Ovaries
Oogenesis
Folliculogenesis
• It begins by the recruitment of a cohort of
primordial follicles into a pool of growing
follicles and ends by either ovulation or
atresia.
It requires almost one year for a primordial
follicle to grow and develop to the
ovulatory stage.
Gougeon A: Dynamics of follicular growth in the human: A model from preliminary results. Hum
Reprod 1:81, 1986. Reproduced with permission from Oxford University Press.)
Folliculogenesis, starting from pre-antral (late
secondary) stage.
The Hormonal Regulation of Ovarian
Activity
The 2 cell 2 gonadotropin theory
The Hormonal Regulation of the Female
Reproductive Cycle
Hormonal Control of the Ovarian and
Uterine Cycles
Menstrual (Uterine) Cycle
Cyclic changes of the endometrium
Regulated by cyclic production of
estrogens and progesterone
Stages of the menstrual cycle
Menses – functional layer of the
endometrium is sloughed
Proliferative stage – regeneration of
functional layer
Secretory stage – endometrium increases
in size and readies for implantation
The Hormonal Regulation of the Female
Reproductive Cycle
Hormonal Control of the Ovarian and
Uterine Cycles
Stages of Pregnancy and
Development
Fertilization
Embryonic development
Fetal development
Childbirth
Fertilization
The oocyte is viable for 12 to 24 hours
after ovulation
Sperm are viable for 12 to 48 hours
after ejaculation
Sperm cells must make their way to the
uterine tube for fertilization to be
possible
Fertilization
• Divided into 4 steps:
• 1. Contact and recognition
(“Casual Introductions”)
• Sperm undergo capacitation (further maturation)
within the female reproductive tract
• Recall that sperm were produced in the testes
and matured in the epididymus until ejaculation
• Sperm reach the egg in the oviduct where
fertilization will occur
• 2. Sperm Entry
• Only ONE sperm is allowed to enter
• Fast block - electrical charge in egg
plasma membrane prevents polyspermy
• Slow block - depolarization of egg
plasma membrane due to Ca++ release
• 3. Egg Activation
• The release of calcium ions in egg
plasma membrane also triggers protein
synthesis
• 4. Fusion
• The sperm nucleus is propelled to the
egg nucleus by microtubules
Let the Division Begin!
Cleavage follows fertilization
• Cleavage is a series of rapid mitotic
divisions (without cell growth)
• The two-celled zygote divides
repeatedly until a ball of 32
cells is formed
• This is the morula - 32 cells
• Continued divisions make the hollow blastula
• These few cells are pluripotent (have the
potential to become ANY of the 220 types of
cells in the human body).
• These are embryonic stem cells
Development from Ovulation to
Implantation
Gastrulation
• At the end of the cleavage stage, cells
making up the blastula move about and
surface proteins help cells recognize each
other
• The gastrula is formed, which consists of 3
“germ layers”
– Endoderm
– Mesoderm
– Ectoderm
Gastrulation
Extraembryonic Membranes
• These membranes develop from the germ
layers, but are NOT part of the embryo (they
are lost at birth)
• They lie outside of the embryo & provide
protection and nourishment
• Four exist in terrestrial vertebrates:
• Chorion, amnion, allantois (stores
nitrogenous waste in reptiles), & yolk sac
(not found in humans, but yolk aids in
formation of RBC
Human Development
• The gestation period lasts 266 days from
fertilization to birth
• Organogenesis (development of the
organs and organ systems) begins with
the nervous system
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