Implantation, placentation and hormone changes in pregnancy

Question 1

What do we need for implantation to occur?

Answer 1

• A fully developed blastocyst

- A receptive endometrium

Question 2

What are the two cell lineages that make up the blastocyst?

Answer 2

• Trophoblast

- Embryoblast

Question 3

What does the trophoblast form?

Answer 3

The placenta

Question 4

What does the embryoblast form?

Answer 4

The inner cell mass that forms the foetus

Question 5

What is the fluid-filled cavity in the blastocyst called?

Answer 5

The blastocoel

Question 6

Where is the embryoblast concentrated?

Answer 6

It is concentrated at the ‘embryonic pole’

Question 7

Where are the trophoblast cells concentrated?

Answer 7

At the opposite pole called the ‘abembryonic pole’

Question 8

Where does the blastocyst hatch out from?

Answer 8

The zona pellucida

Question 9

What is the state of a receptive endometrium?

Answer 9

• Thickened endometrial lining

- Expression of embryo receptivity markers

Question 10

Describe the process of the blasocyst hatching

Answer 10

1. The blastocyst bathes in uterine fluid and then begins to hatch around the endo of day 5.
2. After full blastocyst expansion, the zona pellucida becomes a lot thinner and hatching is achieved via a combination of mechanisms.

Question 11

What mechanisms allow the blastocyst to hatch?

Answer 11

• Enzymes that dissolve the zona at the abembryonic pole
• A series of rhythmic expansions and contractions that enable the blastocyst to herniate and bulge out of the zona pellucida

Question 12

What day does the blastocyst hatch from the zona pellucida?

Answer 12

Day 5

Question 13

What are the 3 stages of implantation?

Answer 13

1. Apposition
2. Attachment
3. Invasion

Question 14

What happens around day 7-8 of implantation?

Answer 14

• Blastocyst attaches to the surface of the endometrial wall (decidua basalis)
• Trophoblast cells start to assemble to form a syncytiotrophoblast in order to facilitate invasion of the decidua basalis.

Question 15

What happens around day 9-11 of implantation?

Answer 15

Syncytiotrophoblast further invades the decidua basalis and by day 11, it almost completely buried in the decidua

Question 16

What happens around day 12 of implantation?

Answer 16

• Decidual reaction occurs - high levels of progesterone result in the enlargement and coating of the decidual cells in glycogen and lipid-rich fluid.
• This fluid is taken up by the syncytiotrophoblast and helps sustain the blastocyst early on before the placenta is formed.

Question 17

What happens around day 14 of implantation?

Answer 17

• Cells of the syncytiotrophoblast protrude to form tree-like structures known as primary villi around the blastocyst.
• Decidual cells between the primary villi start to clear out, leaving empty spaces called lacunae.
• The junctional zone forms which is when the maternal arteries and veins grow into the decidua basalis merging with the lacunae filling it with oxygenated blood and the veins returning deoxygenated blood to maternal circulation.

Question 18

What is the junctional zone?

Answer 18

The circulatory foundation for the formation of the placenta

Question 19

What creates the placenta?

Answer 19

It is co-created by the mother and foetus, with contributions from endometrial as well as embryonic cells/tissues.

Question 20

What does the foetus contribute to the placenta?

Answer 20

The chorionic frondosum

The chorionic plate

Question 21

What does the mother contribute to the placenta?

Answer 21

Maternal arteries - spiral arteries

Question 22

What happens around day 17?

Answer 22

The foetal mesoderm cells start to form blood vessels within the villi. Capillaries connect with the blood vessels in the umbilical cord.

Question 23

When is the umbilical cord formed?

Answer 23

Around week 5

Question 24

What forms the chorionic frondosum?

Answer 24

The villi growing larger in size

Question 25

What separates the maternal and foetal red blood cells?

Answer 25

The endothelial cell wall and syncytiotrophoblast (villi).

Question 26

What are the cotyledons and when do they form?

Answer 26

The cotyledons are divisions of the placenta by the decidual septa forming 15-20 regions. This occurs in the 4th and 5th months of pregnancy

Question 27

What supplies the cotyledons?

Answer 27

Numerous maternal spiral arteries supply blood to each cotyledons, facilitating the maternal-foetal exchange

Question 28

Describe the exchange of the placenta maternal and foetal

Answer 28

Takes up:

• O2 and glucose
• Immunoglobulins
• Hormones
• Toxins (in some cases)

Drops off

• CO2
• Waste products

Question 29

Where does the placenta form?

Answer 29

In the upper uterus

Question 30

What does the umbilical cord contain?

Answer 30

It contains two arteries and one vein

Question 31

What are the functions of the placenta?

Answer 31

• Provision of material e.g. O2, CHO, fats, amino acids, vitamins, minerals, antibodies etc
• Metabolism e.g. synthesis of glycogen
• Barrier e.g. bacteria, viruses, drugs etc
• Removal of foetal waste products e.g. CO2, urea, NH4, minerals
• Endocrine secretion e.g. hCG, oestrogens, progesterone, hPL, cortisol

Question 32

What specialisms does the placenta have to do its function?

Answer 32

• Huge maternal-uterine blood supply and low pressure (High volume, low pressure)
• Huge surface area in contact with maternal blood
• Huge reserve in function
• Barrier formed by the cells of the villi

Question 33

What percentage of pregnancies does pre-eclampsia affect?

Answer 33

3-4% of pregnancies

Question 34

What does pre-eclampsia cause?

Answer 34

• Placental insufficiency
• Maternal hypertension
• Proteinuria

Question 35

What is placental insufficiency?

Answer 35

Inadequate maternal blood flow to the placenta during pregnancy

Question 36

What are the risk factors of pre-eclampsia?

Answer 36

• First pregnancy
• Multiple gestation
• Maternal age > 35 years old
• Hypertension
• Diabetes
• Obesity
• Family history of pre-eclampsia

Question 37

Pre-eclampsia + seizures =

Answer 37

eclampsia

Question 38

What is the primary cause of pre-eclampsia?

Answer 38

Still unclear

Question 39

What is pre-eclampsia characterised by?

Answer 39

The narrowing of the maternal spiral arteries supplying blood to the placenta.

Question 40

Why is placental insufficiency dangerous?

Answer 40

It can compromises the transfer of necessary nutrients to support the development of the foetus.

Question 41

When does pre-eclampsia occur?

Answer 41

It occurs usually around 20 weeks gestation or could still develop after delivery - up to 6 weeks after delivery.

Question 42

How does pre-eclampsia cause proteinuria and maternal hypertension?

Answer 42

Pro-inflammatory proteins enter the mother’s circulation causing endothelial cell dysfunction. This causes vasoconstriction, hypertension and glomerular damage. If there is glomerular damage, this can cause proteinuria.

Question 43

How severe are the symptoms of pre-eclampsia?

Answer 43

mild to life-threatening

Question 44

What is placenta abruption?

Answer 44

Premature separation of all or part of the placenta

Question 45

What are the symptoms of placenta abruption?

Answer 45

Vaginal bleeding and pain in the back and abdomen

Question 46

What are the risk factors of placenta abruption?

Answer 46

• Blunt force trauma e.g. car crash, fall
• Smoking and recreational drug use
• Multiple gestation
• Maternal age > 35 yo
• Previous placental abruption
• Hypertension from severe pre-eclampsia

Question 47

What causes placenta abruption?

Answer 47

The degeneration of maternal arteries supplying blood to the placenta. Degenerated vessels rupture causing haemorrhage and separation of the placenta.

Question 48

What are the maternal complications of placenta abruption?

Answer 48

• Hypovolemic shock
• Sheehan syndrome (perinatal pituitary necrosis)
• Renal failure
• Disseminated intravascular coagulation (from release of thromboplastin)

Question 49

What are the foetal complications of placenta abruption?

Answer 49

• Intrauterine hypoxia and asphyxia

- Premature birth

Question 50

What is placenta previa?

Answer 50

This is when the placenta implants in lower uterus, fully or partially covering the internal cervical os.

Question 51

What is placenta previa associated with?

Answer 51

It is associated with increased chances of pre-term birth and foetal hypoxia.

Question 52

What causes placenta previa?

Answer 52

Still unclear but could be due to endometrium in the upper uterus not well vascularised.

Question 53

What are the risk factors for placenta previa?

Answer 53

• Previous caesarean delivery
• Previous uterine/endometrial surgery
• Uterine fibroids
• Previous placenta previa
• Smoking and re-creational drug use
• Multiple gestation
• Maternal age > 35yo

Question 54

What is hydatiform mole?

Answer 54

Overgrowth of placental cells on to the uterus

Question 55

What suppresses the maturation of other follicles in the ovary?

Answer 55

The continued presence of the low oestrogen: progesterone ratio

Question 56

When is beta hCG detected and by what?

Answer 56

It can be detected in the blood stream as early as Day 9 and is the basis of urinary qualitative pregnancy tests

Question 57

What is serum beta hCG (quantitative) useful for?

Answer 57

It is useful for monitoring early pregnancy complications e.g. ecotopic pregnancy, miscarriage

Question 58

When does serum hCG hit peak levels?

Answer 58

By 9-11 weeks

Question 59

When does the placenta take over producing hormones?

Answer 59

• Around week 7

Question 60

What does the placenta synthesis oestrogens from?

Answer 60

From foetal androgens from the foetal adrenal cortex.

Question 61

What does the placenta synthesis progesterone from?

Answer 61

From maternal cholesterol

Question 62

What is pregnenolone converted into and where?

Answer 62

Converted to progesterone in placental mitochondria

Question 63

What synthesises HPL?

Answer 63

It is synthesised by cells of the syncytiotrophoblast.

It is structurally and functionally similar to growth hormone.

Question 64

What encodes polypeptide hormone and what mediates it?

Answer 64

It is encoded by a cluster of genes on chromosome 17. Effects are believed to be mediated via a variant of the growth hormone receptor.

Question 65

What do oestrogen and progesterone do?

Answer 65

They work alongside other hormones to trigger the physiological changes observed during pregnancy such as:

• Shallow breathing
• Increase in blood volume
• Increase in urinary output
• Breast changes
• Loosened ligaments
• Nausea and taste changes
• Mood changes

Question 66

What happens to the levels of hCG during pregnancy?

Answer 66

At week 10, hCG is at the highest levels by the end of the weeks of gestation, the hCG are at the lowest.

Question 67

What happens to the levels of human placental lactogen

(hPL) levels during pregnancy?

Answer 67

Increases gradually from week 5 to week 40 (end of gestation)

Question 68

What happens to progesterone and oestrogen ?

Answer 68

Increase gradually over the 40 weeks of gestation