Implantation, placentation, and hormone changes in pregnancy Flashcards
What do we need for implantation to occur?
1) A fully developed blastocyst
You have two definitive cell lines, the embryoblast, which gives rise to the baby, and the surrounding cells which are the trophoblast, which gives rise to the placenta. You also have a fluid filled cavity called the blastocoel. For implantation to occur we need the blastocyst to be fully expanded and to be hatched out from the zona pellucida.
2) A receptive endometrium
This would have thickened during the secretory phase, and it is expressing receptivity markers to communicate with the blastocyst at this stage.
Summarise the stages of implantation?
1) Apposition
The close positioning of the blastocyst to the uterine wall/endometrium
2) Attachment
The cells of the trophoblast attach the blastocyst to the endometrium
3) Invasion
The trophoblast cells multiply and invade into the endometrium and completely bury the embryo and implant it into the endometrium
What happens on days 7-8 of implantation?
- The blastocyst attaches itself to the surface of the endometrial wall (known as the decidua basalis)
- The trophoblast cells start to assemble and form a Syncytiotrophoblast (a group of multi-nucleated trophoblast cells). It is basically an endless supply of cells, so as syncytiotrophoblasts die off - the ones in contact with the endometrium - more start to form and join the Syncytiotrophoblast.
What happens on days 9-11 of implantation?
The Syncytiotrophoblast further invades the decidua basalis and by day 11 it is almost completely buried in the decidua
What happens on day 12 of implantation?
The decidual reaction occurs - high levels of progesterone due to the luteal phase triggers the decidual reaction.
The cells that make up the endometrial wall (decidua) start to enlarge and become coated in fluid that is sugar and lipid rich. What this does is it serves as a source of nutrition for the blastocyst. The cells of the Syncytiotrophoblast take up these nutrients (the glycogen and the sugars), which sustains the blastocyst before the placenta takes over
What happens on day 14 of implantation?
- Cells of Syncytiotrophoblasts start to form tree-like structures called primary villi, which are formed all around the blastocyst
- In response to the presence of these villi, we decidual cells begin to clear out, leaving behind empty spaces known as Lacunae
- The maternal arteries start to grow into the Desidua from the mother’s size. They fill these spaces with oxygenated blood. These blood filled spaces will merge into a single pool of blood. All of this is known as the Junctional Zone. The junctional zone is the circulatory foundation for the formation of the placenta.
What are some functions of the placenta?
- Steroidogenesis - oestrogens, progesterone, HPL, cortisol
- Provision of maternal O2, CHO, fats, amino acids, vitamins, minerals, antibodies, etc.
- Removal of CO2, urea, NH4, minerals
- Acts as a barrier against, for example, bacteria, viruses, drugs, etc.
How is the placenta adapted to be good at its job?
- a huge maternal uterine blood supply, at low pressure
- a huge reserve of function
- a huge surface area in contact with maternal blood
- highly adapted and efficient transfer system
What happens in the maternal-foetal exchange?
The placenta in this exchange takes up:
- O2 and glucose
- Immunoglobins
- Hormones
- Toxins
Drops off:
- CO2
- Waste products
It is important for you to know that the umbilical cord is usually made up of two arteries and one vein.
What is pre-eclampsia?
A condition in pregnant woman whereby women who have not had high blood pressure before develop it.
It results in placental insuffiency, which is inadequate blood supply to the placenta from the mother.
What are some risk factors for pre-eclampsia?
- Patients going through their first pregnancy
- Women undergoing multiple gestations (twins, triplets)
- Increased maternal age (>35 yo)
- Hypertension
- Diabetes
- Obesity
- Family history of pre-eclampsia
What are the symptoms of pre-eclampsia?
Main symptoms are new maternal hypertension (high blood pressure which shows up during the pregnancy), and proteinuria (presence of protein in the urine due to the glomerular damage).
The symptoms range from mild to life threatening. For example, if the pre-eclampsia is accompanied by seizures, it results in eclampsia, and at this point is a medical emergency. The seizures are due to the eventual damage that would occur to other body systems as a result of the maternal hypertension and the degeneration of the spiral arteries.
What causes pre-eclampsia?
The primary cause of eclampsia is still unclear, but we know it is characterised by narrowing of the maternal spiral arteries.
In normal pregnancy, the spiral arteries that supply the placenta dilate to allow more blood flow, but in pre-eclampsia they are usually fibrous and they narrow, which limits blood supply. As a result the placenta responds to this by secreting pro-inflammatory proteins, which make their way into the maternal circulation and cause dysfunction of endothelial cells. This will cause a domino affect and affect body systems a result. The initial signs you would see are the proteinuria and the hypertension, because of the link between blood pressure and kidney disorders. Eventually, these will go on to affect other body systems, which is where the seizures come from.
List the chain of events that arises from the endothelial cell dysfunction?
1) Vasoconstriction, which affects the arteries that supply the kidney, as well as the capillaries around the glomerulus
2) This causes glomerular damage, causing proteinuria
3) Vasoconstriction would also cause hypertension
What is placental abruption?
This is premature separation of all or part of the placenta from the endometrium.
