Implantation, the placenta and hormonal changes in pregnancy (repro) Flashcards
1
Q
What is needed for implantation to occur?
A
A fully developed blastocyst:
- contains trophoblast, blastocoel and embryoblast or inner cell mass (ICM)
- fully expanded
- hatched out from zone pellucida
A receptive endometrium:
- thickened endometrial lining
- expression of embryo receptivity markers
2
Q
Implantation timeline (days 7-12)
A
Implantation has 3 stages:
- Apposition
- Attachment
- Invasion
Days 7-8:
- blastocyst attaches itself to surface of endometrial wall (decidua basalis)
- trophoblast cells start to assemble to from a Syncytiotrophoblast in order to facilitate invasion of the decidua basalis
Days 9-11:
- Syncytiotrophoblast further invades the decidua basalis and by day 11 its almost completely buried in the decidua
Day 12:
- decidual reaction occurs: high levels of progesterone result in enlargement and coating of decidual cells in glycogen and lipid rich fluid
- this fluid is taken up by the Syncytiotrophoblast and helps to sustain the blastocyst early on before the placenta is formed
3
Q
Implantation timeline (day 14)
A
Around day 14:
- cells of the Synctiotrophoblast start to protrude out to form tree-like structures known as Primary Villi, which are then formed all around blastocyst
- decidual cells between primary villi begin to clear out, leaving behind spaces known as Lacunae
- maternal arteries and veins start to grow into the decidua basalis
- these blood vessels merge with the lacunae - arteries filling lacunae with oxygenated blood and veins returning deoxygenated blood into maternal circulation
- blood-filled lacunae merge into a single large pool of blood connected to multiple arteries and veins
- known as Junctional Zone
4
Q
Placenta
A
- around day 17, foetal mesoderm cells start to form blood vessels within the villi, a basic network of arteries, veins and capillaries
- capillaries connect with blood vessels in umbilical cord (formed around week %)
- villi grows larger in size, develops into Chronic Frondosum
- at this point, endothelial cell wall and Synctiotrophoblast (villi) lining separate maternal and foetal red blood cells
- numerous maternal spiral arteries supply blood to each cotyledon, facilitating the maternal-foetal exchange
- in the 4-5th months of pregnancy, decidual septa form as they divide the placenta into 15-20 regions known as Cotyledons
5
Q
Placenta: maternal to foetal exchange
A
The foetus takes up:
- O2 and glucose
- immunoglobulins
- hormones
- toxins (in some cases)
The foetus drops off:
- CO2
- waste products
6
Q
Functions of placenta
A
- provision of maternal O2, CHO, fats, amino acids, vitamins, minerals and antibodies
- metabolism eg synthesis of glycogen
- barrier eg bacteria, viruses, drugs, etc
- removal of foetal waste products eg CO2, urea, NH4, and minerals
- endocrine secretion eg hCG, oestrogen, progesterone, hPL and cortisol
7
Q
Why is the placenta good at its job?
A
- huge material uterine blood supply (low pressure)
- huge surface area in contact with maternal blood
- huge reserve in function
8
Q
Disorders of placenta: Pre-eclampsia
A
- endothelial cell dysfunction leads to vasoconstriction and the kidneys retaining more salt causing hypertension
- causes reduced blood flow to kidney so glomerular damage and Proteinuria
- 3-4% of pregnancies
- > 20% weeks gestation (up to 6 weeks after delivery)
- results in placental insufficiency (inadequate maternal blood flow to the placenta during pregnancy)
- causes new onset maternal hypertension and proteinuria
- symptoms range from mild to life threatening
- primary cause is still unclear
- characterised by narrowing of the maternal spiral arteries supplying blood to placenta
- pre-eclampsia and seizures leads to eclampsia
Risk factors:
- first pregnancy
- multiple gestation
- maternal age >35 yrs
- hypertension
- diabetes
- obesity
- family history of pre-eclampsia
9
Q
Disorders of placenta: Placental abruption
A
- premature separation of all or part of the placenta
- symptoms include bleeding and pain in the back and abdomen
- caused by degeneration of maternal arteries supplying blood to placenta
- degenerated vessels rupture causing haemorrhage and separation of placenta
risk factors:
- blunt force trauma eg. car crash or fall
- smoking and recreational drug use (risk of vasoconstriction and increased blood pressure)
- multiple gestation
- maternal age >35 yrs
- previous placental abruption
Complications (maternal): - hypovolemic shock - Sheehan syndrome (perinatal pituitary necrosis) - renal failure - disseminated intravascular coagulation (from release of thromboplastin) Complications (foetal): - intrauterine hypoxia and asphyxia - premature birth
10
Q
Disorders of placenta: Placenta previa
A
- placenta implants in lower uterus, fully or partially covering the internal cervix
- associated with increased chances of pre term birth and foetal hypoxia
- cause still unclear
- endometrium in upper uterus not well vascularised
Risk factors:
- previous caesarean delivery
- previous uterine/ endometrial surgery
- uterine fibroid
- previous placenta previa
- smoking and recreational drug use
- multiple gestation
- maternal age >35 yrs
11
Q
Hormonal production during pregnancy
A
- foetal placenta formed from trophoblast cells
- produces human chronic gonadotrophin (hCG)
- low ratio of oestrogen: progesterone
necessary for maintaining pregnancy
12
Q
Hormone levels during pregnancy
A
Oestrogen:
- gradually increases throughout pregnancy
- lowest level out of all the hormones
Progesterone:
- gradually increases throughout pregnancy then increase slows before end of pregnancy
- at a higher level than oestrogen
hCG:
- increases rapidly at the start of pregnancy then starts to rapidly decrease at the end of the 1st trimester
- slow decrease for the rest of pregnancy
- almost zero at end of pregnancy
hPL:
- rapidly increases at end of 1st trimester
- increase slows down at 13 weeks and becomes gradual
- level is higher than oestrogen but lower than progesterone
13
Q
Hormones to mother and foetus
A
- Cholesterol and LDL from mother to placenta then to foetus
- Cholesterol and LDL produces pregnenolone in placenta, mother and foetus
- Pregnenolone in mother makes DHEA-S
- Pregnenolone in placenta makes progesterone which is given to mother
- Pregnenolone makes DHEA-S in mother and foetus which makes DHEA in the placenta
- DHEA-S in foetus makes 16alpha-OH DHEA-S which is given to placenta
- 16alpha-OH in placenta makes 16alpha-OH androstenedione and estriol, then estriol is given to mother
- DHEA in placenta makes androstenedione which makes estrone which is given to mother
- Androstenedione also makes testosterone which makes estradiol which is given to mother
- hPL in placenta is given to mother
14
Q
Hormonal changes to the body pregnancy
A
- increased blood volume
- shallow breathing
- increased urinary output
- rise in oestrogen and progesterone
- mood changes
- nausea and taste changes
- loosened ligaments
- breast changes and darkened skin on areola
15
Q
Glossary
A
- Blastocyst: An embryo at a stage of development characterised by cells forming an outer trophoblast (trophectoderm) layer, an embryoblast (inner cell mass) and a blastocoel (fluid-filled cavity). The trophoblast layer gives rise to the placenta while the embryoblast layer gives rise to the foetus.
- Endometrium: The outer mucous membrane lining the uterus, which thickens during the menstrual cycle in preparation for possible implantation of a blastocyst.
- Decidua: Modified endometrium that is formed in response to progesterone, in preparation for pregnancy. Modification process is known as decidualisation.
- Placenta – A large organ that is formed during pregnancy, connecting maternal and foetal blood circulation. The placenta facilitates maternal-foetal exchange which is crucial for sustaining foetal development.
- Human Chorionic Gonadotrophin (hCG): A hormone produced by the placenta after implantation and an indicator of a successful pregnancy. Urine pregnancy tests are based on hCG detection.
