Ch. 10 part 1 human repro.pdf

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CHAPTER 10
Pregnancy

After Fertilization
Shortly after fertilization the zygote divides through mitosis into
two blastomeres.
These blastomeres go through a number of successive mitotic
divisions until the blastocyst is formed.
It is the blastocyst that eventually implants into the endometrium
and begins the pathway of differentiation and growth to create an
embryo.

https://www.the-scientist.com/features/new-techniques-detail-embryos-first-hours-and-days-30175

Pregnancy
Through most definitions,
pregnancy begins at
fertilization and carries forward
for 38 weeks.
Encompasses all the changes
required for the zygote to
develop into a fully functional
human.

Weeks 1-3 are considered preembryo, 3-8 embryo, and
beyond fetal.
https://en.wikipedia.org/wiki/Pregnancy

Signs of Pregnancy
Often referred to as
presumptive signs.
Most common first sign is a
missed menstrual cycle.
Other symptoms include:
morning sickness, breast
tenderness/swelling, darkening
of areola, fatigue, abdominal
cramping, urination changes,
smell sensitivity.
https://www.clearblue.com/am-i-pregnant/early-pregnancy-signs

Testing for Pregnancy
Pregnancy tests are testing for the hormone human
chorionic gonadotropin (hCG).
This hormone is secreted by the syncytiotrophoblast and
from the placenta.
In office tests are often
immunoassay style tests,
looking for a reaction
between anti-hCG
antibodies and hCG in a
blood/urine sample.
https://americanpregnancy.org/getting-pregnant/hcg-levels/

Timing of Pregnancy
How one determines the timing of a pregnancy is
dependent on who/what is the action at the beginning.
It is important to have a clear definition of what is the
starting point when speaking with medical professionals.

Human Reproductive Biology, 4th Ed. (2014) pg. 176

Early Pregnancy
Shortly after a missed menstrual period (with or without a
positive pregnancy test) a medical appointment should be made.
At this initial consultation the medical professional will look for
the following information:
• Medical history (this includes menstrual history, previous pregnancies, etc)
• Childhood diseases and any other applicable infectious illnesses
• Overall health assessment
• Genetic concerns for pregnant individual and sperm donor

A pap smear and pelvic exam will be done, along with blood
work and any other diagnostic tests the medical teams deems
necessary.

Process of Pregnancy
Pregnancy can be broken down into a number of sequential
processes.
• Fertilization, zygote formation, and early divisions
• Implantation
• Embryogenesis (gastrulation)
• Embryo development
• Fetal development
• Labor and birth

https://ocwmg.com/ob-gyn-services/obstetrical-care/prenatal-care-timeline/

Morula
Through several (~5) divisions,
the zygote multiplies into a
solid ball of cells (32) called a
morula.

These divisions occur as it
travels down the uterine tube.
The morula is still surrounded
by the zona pellucida from the
original oocyte.
https://www.nationalgeographic.com/science/art
icle/the-morula-solution

Blastocyst
Around day 3-4 after fertilization, the pre-embryo enters the uterus and
has now divided into a blastocyst.
Some cellular organization has begun in the blastocyst and the interior
space is a fluid filled chamber called the blastocoel.
Around the outside (under the
zona pellucida) is a layer of cells
called the trophoblast.
An inner cell mass is formed
which will eventually develop into
the embryo.
Human Reproductive Biology, 4th Ed. (2014) Figure 10.1 pg. 178

Maternal proteases break down
the zona pellucida around day 6.

Early Implantation
Implantation generally begins between day 7-10 post fertilization.

The trophoblast layer divides into an exterior
syncytiotrophoblast and interio cytotrophoblast.
The syncytiotrophoblast
invades the
endometrium.
Cells in this trophoblast
layer have lost their cell
membranes and
opening communicate.
Human Reproductive Biology, 4th Ed. (2014) Figure 10.3 pg. 180

Late Implantation
Cells of the uterine stroma
begin to rapidly multiply and
create a covering over the
implanted blastocyst.

This is known as the
deciduoma response.
Implantation is completed
and fetal and carrier tissues
merge to share nutrients and
past wastes.
Human Reproductive Biology, 4th Ed. (2014) Figure 10.3 pg. 180

Immune Response
As the fetal tissues are
foreign to the carrier,
why aren’t they
attacked by the
immune system?
https://www.sciencedirect.com/topics/medicine-and-dentistry/human-leukocyte-antigen

Normally detection of foreign cells occurs through
histocompatibility proteins on white blood cells called
human leukocyte antigens (HLAs).
The placenta doesn’t have a large cohort of regular HLA’s
but does have some others which are not found in tissues
outside the placenta.

Early Embryonic Development
Shortly after implantation the pre-embryo begins to
differentiate into two tissues layers: epiblast and hypoblast
.
Following this division is
gastrulation. This creates the
three primary germ layers.
Ectoderm – nerves, skin +
derivatives
Mesoderm – skeleton, muscles,
circulatory system, notocord
Endoderm - internal organs +
membranes
https://ecampusontario.pressbooks.pub/humananatomyandp
hysiology/chapter/28-2-embryonic-development/

Embryonic Membranes
3 of the 4 embryonic membranes derive from
the inner cell mass.
Yolk sac – endoderm lining of the blastocoel.
Supplies blood cells to embryo
Amnion – grows around developing embryo.
Filled with fluid.
Allantois – small pouch at posterior tail
region. Blood vessels formed here contribute
to the umbilical cord.
Chorion – derived from the cytotrophoblast.
Creates the chorionic villi of the placenta.
Human Reproductive Biology, 4th Ed. (2014) pg. 185

The Placenta
An organ derived of both fetal and carrier tissues which allows
gas and waste exchange between the developing fetus and
carrier.

Initially formed as extensions of
cytotrophoblast pierce through the
syncytiotrophoblast into the uterine
stroma.
Enzymes from the
syncytiotrophoblast breakdown
small blood vessels in the uterine
strome creating sinusoids.

https://www.merckmanuals.com/en-ca/home/women-s-healthissues/normal-pregnancy/stages-of-development-of-the-fetus

Exchange happens via the
sinusoids.

Exchange between Fetus and Carrier
Exchange between the fetus and carrier is limit to products less
than 500 molecular weight.
Restricts the movement of bacteria, but not viruses.
Some stem cells from the carrier
are passed to the developing fetus
and some cells of the fetus pass to
the carrier.
Creates microchimerism in either
system.

Linked to some autoimmune
disorders, polymorphic eruption,
and preeclampsia.

Human Reproductive Biology, 4th Ed. (2014) Box 10.3 pg. 181

Twin Pregnancies
Generally in dizygotic twins the
embryos implant separately
and then two separate
placentas and amnions are
formed.
Sometimes they implant so
close that a fused placenta is
created.
In monozygotic twins generally
share a placenta but often have
separate amnions.
Human Reproductive Biology, 4th Ed. (2014) Figure 10.7/8 pg. 181

Genetic Imprinting
Imprinting occurs during
throughout the human genome and
affects which allelic form of a gene
is expressed.
Imprinted genes are expressed
differentially depending on their
source (egg or sperm).
Human Reproductive Biology, 4th Ed. (2014) Box 10.2 pg. 181

Some genes are only expressed when derived from the egg,
others from the sperm. Both egg and sperm genetic material are
required for proper embryogenesis.
Controlled through methylation which can silence or increase
expression.