Physiology of Pregnancy

Question 1

Length of trimester

Answer 1

12 weeks- measured from the first day of the menstrual cycle. Conception typically occurs in week 3 coinciding with ovulation.

Question 2

What is decidualisation?

Answer 2

Changes to endometrium stromal cells of the uterus to prepare for embryo implantation. It involves change from fibroblast cells -> metabolically active decidual cells which forms the base of the placenta called the decidua. This is driven by progesterone.

Question 3

What changes occur in decidualisation?

Answer 3

Endometrium of uterus undergoes changes to support the growth of the embryo in the early stages via histotrophic support

->Secretion of prolactin to provide uterine milk to the embryo
->Increase in vascularisation where arteries become more spiral and
->Cells become filled with glycogen and fat

Endometrial glands have the greatest secretion following blastocyst implantation once it hatches from the zona pellucida.

Question 4

How does the embryo receive blood supply?

Answer 4

Intervillous space, located between the chorionic villi

Question 5

What is the glycocalcyx in the embryo?

Answer 5

Epithelium progenitor which is important in cell-adhesion and signalling.

Question 6

How does the synctiotrophoblast form?

Answer 6

Fusion of the cytotrophoblast. It is a single celled multineucleated unit which is highly invasive into the endometrium for remodelling of endometrial spiral arteries by altering their structure to enter spaces called lacunae in order to provide blood supply to the embryo.

Where it terminates in the lacunae is the foetal lobule that is the foundation of maternal nutrient supply.

Question 7

What happens in the implantation stage?

Answer 7

Blastocyt hatches from the zona pellucida and glycocaclyx and causes alterations in the glycoprotein mucins of the endometrium, using fibronectin and integrin to bind to the uterus. Villi of the trophectoderm of the embryo interdigitate with villi epithelia for interaction with uterus. Portion of the trophoblast called the synctiotrophoblast fuses and invades into the endometrium for spiral artery remodelling.

Question 8

What is required in initial implantation?

Answer 8

Blastocyt must use protease to alter mucin glycoproteins on the uterus which are anti-adhesive.

Question 9

Which hormones are important in embryo implantation?

Answer 9

Oestrogen, leukemia inhibitory growth factor and epithelial growth factor.

Question 10

What is the role of oestrogen?

Answer 10

Regulates implantation window and inhibits FSH and LH release.

Produced by the corpus luteum which improves vascularisation of the uterus. It stimulates the growth of the foetal adrenal gland. Responsible for foetal development of the organs and organ development.

Question 11

What is the role of progesterone?

Answer 11

Progesterone causes systemic vasodilation of blood vessels and venous distensibility resulting in hypotension.

Question 12

How is oestrogen synthesised in the foetus?

Answer 12

Foetal adrenal glands synthesise androgens which are converted to oestrogen via reductase enzyme.

Question 13

What promotes attachment of the embryo to the uterus?

Answer 13

Leukemia inhibitory factor-cytokine which is induced by high levels of progesterone

Question 14

What regulates the implantation window?

Answer 14

Oestrogen and progesterone.

Question 15

When is the embryonic stage of pregnancy?

Answer 15

Week 3 to Week 8 of pregnancy- after fertilisation, the blastocyt becomes an embryo and begins to develop the body organs

Question 16

When is the foetal stage of pregnancy?

Answer 16

Week 9 of pregnancy until birth

Question 17

What happens in the first trimester in the embryo?

Answer 17

Fertilisation, implantation, initial development of bones, muscles and all body organs.

Question 18

What happens in the first trimester in the mother?

Answer 18

Weight gain and nausea, nocturia

Question 19

What happens in the 2nd trimester in the foetus?

Answer 19

Spine straightens, proportions of foetus changes, hair development, nervous system develops for Pain sensation.

Question 20

What happens in the second trimester in the mother?

Answer 20

->Placental growth to accommodate growing foetus
-> Uterus rises to reduce bladder pressure
-> Hypervolemia occurs due to higher oestrogen and progesterone levels which increase RAAS system activity

Question 21

What are the physical changes in trimester 2?

Answer 21

Uterus fundus rises to create bump
Fluid retention- Hypervolemia
Placenta overtakes endocrine role as corpus luteum regresses and cause drop in hCG
Foetus triples in size and eventually becomes larger than placenta
Quickening

Question 22

What is quickening?

Answer 22

Sensation of movement of foetus in womb.

Question 23

What happens in the third trimester in the foetus?

Answer 23

Growth in weight and development of body, brain, lungs and blood cells.

Question 24

What happens in the third trimester in the mother?

Answer 24

Tiredness
Lactation of colostrum milk which is nutrient dense
Back pain
Restricted breathing: increased oxygen demands
Braxton-Hicks
Relaxin production

Question 25

Why does shortness of breath occur in pregnancy?

Answer 25

Diaphragm rises which reduces lung capacity and increases lung resistance. High progesterone levels increase the sensitivity of the respiratory centre to carbon dioxide. Higher oestrogen levels increases the sensitivity of progesterone receptors in the brain.

Question 26

What is Braxton-Hicks?

Answer 26

Contraction and relaxation of the womb during the second and third trimester typically in preparation of true labour.

Question 27

How does oestrogen cause physiological changes in the mother?

Answer 27

Increases levels of nitric oxide for vasodilation, that results in increased blood volume. It also increases blood flow.
Increases hepatic angiotensin II for the RAAS system.

Question 28

How does progesterone cause changes in pregnancy?

Answer 28

Causes vasodilation and increases aldosterone levels that leads to greater thirst and fluid retention. Combined with high oestrogen, it leads to swolle ankles/pitting oedema.

It relaxes the intestinal muscles and lower oesophageal sphincter which can cause constipation and gastric reflux. The gall bladder is also relaxed and increases risk of cholestasis due to reduced contraction.

Question 29

What are the cardiac changes in pregnancy?

Answer 29

Heart function increases by 30-50% with Higher cardiac output, blood volume and faster heart rate and stroke volume due to oestrogen .There is an Increase in heart size and atrial size.

->Dilation of the blood vessels prevents hypertension due to effects of progesterone

Cardiac output will peak in 3rd trimester.

Question 30

How much does heart size increase in pregnancy?

Answer 30

Heart increases in size by 12%.

Question 31

What are the respiratory changes in pregnancy?

Answer 31

Lung function increases by 40% which causes 16-20% more oxygen to be consumed.
Diaphragm elevates to accommodate for foetus which reduces the functional residual capacity so the Rib cage is displaced upwards.

Thoracic breathing which means quicker, shallower breathing and higher tidal volume due to progesterone increasing the responsiveness to CO2, resulting in a mild state of respiratory alkalosis. The sensitivity of chemoreceptors is lowered

Question 32

How do the kidneys change in pregnancy?

Answer 32

Kidneys produce more EPO which increase the levels of RBC and reticulocytes in order to compensate for increasing oxygen demands from the foetus.

Kidney size increases because of increased excretion.

Increased blood flow due to progesterone causing afferent arteriolar vasodilation which increases GFR and kidney size

Question 33

How does the urinary system change in pregnancy?

Answer 33

Ureters are displaced which decreased bladder tone (contraction) This increases capacity for storage, leading to stasis and higher UTI risk

Question 34

How does hameatocrit change in pregnancy?

Answer 34

Low Haematocrit/relative anaemia
Increase in RBC due to higher EPO production, however there is greater salt and water retention that causes increased plasma volume

More pro-coagulation factors are produced and platelet aggregation is more likely to occur, increasing the risk for hypercoagubility.

Question 35

How does MCV change in pregnancy?

Answer 35

Mean size of RBC does not change

Question 36

When does implantation occur in pregnancy?

Answer 36

Day 6

Question 37

Source of progesterone production in non-pregnant women?

Answer 37

Granulosa cells within the Corpus luteum

Question 38

Source of progesterone production in pregnant women?

Answer 38

First 10 weeks: corpus luteum
Following 10 weeks: Placenta

Question 39

How does the embryo gain access to maternal blood supply in implantation?

Answer 39

Fragments of spiral arteries are engulf by the synctiotrophoblast which contain pores called lacunae which fill with maternal blood and act as precursors for intervillous lacunae.

Question 40

How does the endometrial blood supply change in implantation?

Answer 40

There is a switch from histotrophic support to haematotrophic support. Synctiotrophoblasts expand and anastomose with spiral arteries and remodel to reduce looping and blood pressure of the arteries, before it enters pores called the lacunae to supply the embryo with low pressure, low resistance blood flow.

Question 41

What is the synctium?

Answer 41

Barrier between the embryo and developing placenta formed by trophoblast cells. It provides protection from the foetus against infection from the mother.

Question 42

What happens post-implantation?

Answer 42

Day 9/Week 3 Lacunae form in synctiotrophoblast which invade spiral arteries.
Cytotrophoblast forms pirmary, secondary, tertiary, stem and floating villi

Embryo receives nutrition from uterine gland secretion and destruction of uterine stroma during implantation via histotrophic support

Question 43

What are the features of cytotrophoblast?

Answer 43

It anchors the foetus to maternal tissue and forms the chorionic villi. Maintains cellular individuality unlike the synctiotrophoblast which is a single unit structure.

Question 44

What provides the embryo with support post-implantation?

Answer 44

Nutrition via:
Destruction of the stromal uterine cells
Histotroph gland secretion

Question 45

What is histotrophic support?

Answer 45

Embryo receives additional nutrition from mother via uterine gland secretions such as uterine milk from prolactin and stores of glycogen and fat in the endometrium. This is the first source of nutrient support post-implantation

Question 46

What is hCG?

Answer 46

LH analogue which binds to LH receptors on the corpus luteum for progesterone production. Produced by trophoblast cells and later placental. It maintains oestrogen and progesterone production of uterine lining thickening.

Question 47

Why is hCG an important indicator in pregnancy?

Answer 47

Present in the blood 10-11 days after conception, peaking between 8-12 weeks. The levels of rapidly increasing hCG are important in tracking the pregnancy and foetus and is eliminated in the urine in the form of beta hCG.

Question 48

What are the symptoms post-implantation?

Answer 48

After 7-9 days following implantation, there is a change in the body to pregnant physiology. There is suppression of menses, tender breasts, nausea and vomiting. Urinary frequency and constipation can occur.

Question 49

What is the precursor to the placenta?

Answer 49

Trophoblast

Question 50

What separates the epiblast and hypoblast in development?

Answer 50

Pluriblast

Question 51

What happens to the hypoblast in development?

Answer 51

Hypoblast spreads down the trophoblast to become outer chorion membrane and outpouch called yolk sac

Question 52

What surrounds the embryo?

Answer 52

Inner layer of the amnion
Outer layer of the chorion

Question 53

What is the amnion?

Answer 53

Thin innermost membrane surrounding the embryo filled with fluid. It is formed from the ectoderm and mesoderm.

Question 54

Which germ layers form the amnion?

Answer 54

Ectoderm and mesoderm

Question 55

What is the chorion?

Answer 55

Outermost membrane surrounding the embryo consisting of the cytotrophoblast and the extra embryonic mesoderm.

Question 56

Which germ layer forms the chorion?

Answer 56

It is formed from the trophoblast and mesoderm.

Question 57

What provides nutrition and gas exchange to embryo prior to placenta formation?

Answer 57

Yolk sac- extraembryonic outpouch which later regresses. Formed of endoderm and mesoderm

Question 58

When does histotrophic support end?

Answer 58

Week 12 where the Growth of embryo means there are greater exchange requirements so requires hameatrotrophic support via the placenta.

Question 59

What is haematotrophic support?

Answer 59

Haematotrophic support is the transport of nutrients from the mother’s blood to the embryo via the placenta

Question 60

What is the function of the chorionic villi?

Answer 60

Finger like projections to provide maximal contact with maternal blood for nutrient and gas exchange. It forms vessels to minimise the impact of reactive oxygen species due to hypoxia prior to placenta development.

Question 61

What is the lacunae?

Answer 61

Pores in the synctiotrophoblast which allow the accumulation of nutrients to support growth.

Question 62

What happens to maternal arteries at the beginning of pregnancy?

Answer 62

Synctiotrophoblast invasion of the spiral arteries causes remodelling into highly dilated open vessels via reducing looping. This reduces resistance to blood flow for embryo perfusion.

Question 63

What is the blood pressure of the maternal blood supply?

Answer 63

Low blood pressure as spiral arteries are released into the lacunae of the synctiotrophoblast.

Question 64

When do the villi develop?

Answer 64

Begin to develop the 4th week by sprouting from the chorion as primary villi and become fully vascularised between 5th and 6th weeks to become tertiary villi

Question 65

What are the branches of the tertiary villi?

Answer 65

Floating villi and stem villi

Question 66

What are the floating villi?

Answer 66

Villi floating freely in the intervillous space which take up nutrients from maternal blood pooled in the lacunae via diffusion into the embryo.

Question 67

What is the stem villi?

Answer 67

Branch attached to the decidua maternal tissues and connects the tertiary villi to the outer layer.

Question 68

How does the chorion become vascularised?

Answer 68

Secondary villi of the chorion expand into the synctiotrophoblast and contain a core of mesoderm which can form new blood vessels.

Question 69

What is the origin of the chorionic villi?

Answer 69

Originates from the cytotrophoblast.

Question 70

What is the structure of the chorionic villi?

Answer 70

Branching and vascularisation of villi to form tertiary villi become foetal blood vessels

Question 71

What are the phases of the villi?

Answer 71

Primary villi: Villi arising directly from the cytotrophoblast in 3rd week

Secondary villi: Contains a core of extraembryonic mesoderm due to invasion of mesoderm growing through trophoblast

Tertiary villi: Blood vessels penetrating villi causes vascularisation. This penetrates the decidua of the uterus and form a layer.

Question 72

How does the chorionic villi develop?

Answer 72

Primary-> Secondary-> Tertiary villi.

The tertiary villi lie on the synctiotrophoblast and grow towards the maternal decidua and creates a layer which becomes the future foetal side of the placenta called the chorionic plate. Cytotrophoblast regresses in the 2nd trimester, leaving behind the synctiotrophoblast

Question 73

What is hemichorial placenta?

Answer 73

Limited cellular barrier between the mother and the foetus to not mix blood.

Question 74

How is maternal and foetal blood supply separated?

Answer 74

Maternal blood sits in lacunae and bathe the villi of the synctiotrophoblast to prevent physical exchange of blood.

Question 75

What is the placenta?

Answer 75

Organ which is foetal-derived and forms a physical connection between the mother and the foetus.

Question 76

What does the placenta contain?

Answer 76

Contains maternal endometrial/spiral arteries which feed into the intervillous space. The intervillous space contains pools of maternal blood. Drains back into maternal circulation via uterine vein.

2 umbilical arteries: carries deoxygenated blood from body to organ placenta
1 umbilical vein: collects oxygenated blood from placenta organ to the foetus body

Question 77

Where do the maternal and foetal supply join?

Answer 77

Umbilical cord which contains 2 umbilical arteries and 1 umbilical vein- there is an oxygen gradient which is higher in the mother

Question 78

What separates maternal and foetal blood supply in the placenta?

Answer 78

Placental membraneseparates chorion and decidua.

Question 79

What is the CO2 gradient between the maternal and foetal supply?

Answer 79

CO2 is higher in the foetal blood 2-3x more than maternal

Question 80

What are the features of foetal haemoglobin?

Answer 80

Nucleated erythrocytes with a higher affinity for O2 than adult Hb

Question 81

What is the main energy source for the foetus?

Answer 81

Glucose, which is transported across the placenta via GLUT receptors on the synctial membrane for glucose transfer which is oxidised form.

Question 82

Which placental carriers are involved in glucose transport?

Answer 82

-> GLUT 1 which is found on microvilli and synctial membranes.
->GLUT 3, GLUT 4 and GLUT 12

Question 83

What is the respiration pathway in the foetus metabolism occur in the foetus?

Answer 83

Foetus cannot perform gluconeogenesis due to low oxygen conditions so placenta promotes glycolysis.

Question 84

How does placenta gain alternative energy sources to glucose?

Answer 84

Contains placental lipoprotein lipase which breaks down VLDL and chylomicrons. This creates fat stores in the placenta to synthesise hormones and inflammatory mediators to support pregnancy.

Question 85

What are the placental fat stores?

Answer 85

Free fatty acids
Cholesterol
Glycerol
-> These are attained from lipoprotein lipase action on VLDL and chylomicrons into fat components.

Question 86

Which hormones does the placenta synthesise?

Answer 86

hCG
Oestrogen
Progesterone
Somatomammotrophin

Question 87

Which hormone is an indicator for placental function?

Answer 87

Progesterone which is responsible for the decidualisation reaction. It increases the uterine secretions.
During labour, it reduces uterine contractions.

Question 88

What is the role of placental hCG?

Answer 88

Placental hCG begins to be produced at week 8-12 of pregnancy. It is closely related to TSH and binds to receptors for T3 and T4 production.

Question 89

What is the role of placental oestrogen?

Answer 89

Induces proliferation of the myometrium

Relaxes the pelvic ligaments and increases elasticity of pubic symphysis in preparation for childbirth.

It peaks at week 40.

Question 90

When does oestrogen reach its peak in pregnancy?

Answer 90

Week 40

Question 91

How does the foetus synthesise oestrogen?

Answer 91

1)Uptake of maternal androgens

OR

2) Foetal androgen 16-alpha-hydroxylated steroid from adrenal glands

-> oestrogen via reductase enzyme.

Question 92

What is the role of placental progesterone?

Answer 92

Increases uterine secretions
Induces decidualisation
Inhibits uterine contractions
Causes systemic relaxation of the muscles, blood vessels and airways in the maternal body,

Question 93

What hormone increases uterine contractions?

Answer 93

Oxytocin- it inhibits uterine contraction and stimulates contraction

Question 94

What hormone decreases uterine contractions?

Answer 94

Progesterone- it induces uterine relaxation and inhibits contraction

Question 95

How does oestrogen affect blood volume?

Answer 95

Increases angiogenesis,
Venous distensibility (when BP increases, dilation occurs)
Increased blood flow

Question 96

How does progesterone affect blood volume?

Answer 96

Increases vasodilation. Increases aldosterone and effect of thirst centre which promotes oedema.

Question 97

What is pre-eclampsia?

Answer 97

High blood pressure which occurs after 20 weeks gestation during pregnancy which can lead to kidney damage and proteinuria.

Question 98

What is the average weight gain in pregnancy?

Answer 98

11kg which is mainly from the uterus and placenta. Partly due to higher fluids in body, breast increase and fat stores.

Question 99

What are the increased caloric intakes?

Answer 99

No extra caloric intake in 1st trimester.
Second: 200-300
Third: 400+

Question 100

How does female fertility change?

Answer 100

Reduced ovarian function, reserve and uterine function which reduces chances of conception

Question 101

What causes the oxygen disassociation curve to shift to the left?

Answer 101

Higher Hb affinity for O2 due to lower pCO2, H, 2,3BPG and temperature

Question 102

What causes the oxygen disassociation curve to shift to the right?

Answer 102

Lower Hb affinity for O2 due to
increase in CO2, H+, 2,3BPG and temperature

Question 103

How does foetal Hb affect the oxygen disassociation curve?

Answer 103

Shifts the curve to the left which increases O2 saturation

Question 104

What is eclampsia?

Answer 104

High blood pressure which results in seizures.

Question 105

What is a consequence of excessive uterus size in pregnancy?

Answer 105

Impaired function of the inferior vena cava. This reduces preload and results in varicose veins.