Repro Session 8

Question 1

What does the yolk sac become after the primitive gut tube has formed?

Answer 1

Proximal umbilical cord

Question 2

What causes the amniotic sac to increase in size?

Answer 2

Foetus and fluid

Question 3

What is the chorionic sac occupied by?

Answer 3

Expanding amniotic sac

Question 4

What obliterates the chorionic cavity?

Answer 4

Amniochorion formation

Question 5

What are the aims of implantation?

Answer 5

Establish basic unit of exchange, anchor placenta and to establish maternal bloodflow

Question 6

How is the basic unit of exchange established in implantation?

Answer 6

Villi development

Question 7

Describe the different stages of villi in their development.

Answer 7

Primary: early finger-like projections of trophoblast
Secondary: invasion of mesenchyme into core
Tertiary: invasion by foetal BV

Question 8

Why is implantation said to be interstitial?

Answer 8

Uterine epithelium is breached and the conceptus implants in the stroma

Question 9

Why is the placental membrane said to be haemomonochorial during implantation?

Answer 9

1 layer of trophoblast between maternal blood and foetal capillaries

Question 10

Is there usually mixing of maternal and foetal blood?

Answer 10

No due to haemomonochorial placental layer

Question 11

How is the placenta anchored in implantation?

Answer 11

Establishment of outermost cytotrophoblast shell

Question 12

What has happened in embryonic development by the end of the 2nd week?

Answer 12

Conceptus has implanted; embryo, amniotic cavity and yolk sac are suspended by the connecting stalk in the chorionic cavity

Question 13

What are the alternative names of the smooth and villous chorion?

Answer 13

Smooth = chorionic sac. Villous = placenta

Question 14

What can uncontrolled invasion by the blastocyst at an inappropriate site of implantation lead to?

Answer 14

Haemoperitoneum

Question 15

What is placenta praevia?

Answer 15

Implantation in lower 1/3 of uterine segment

Question 16

When is C-section necessary in placenta praevia?

Answer 16

If internal os is occluded

Question 17

What is there a risk of in placenta praevia?

Answer 17

Haemorrhage

Question 18

What is placenta accreta?

Answer 18

Excessive invasion of chorionic villi

Question 19

How do placenta accreta, increta and percreta differ?

Answer 19

Accreta = invasion of myometrium
Increta = into myometrium
Percreta = through myometrium

Question 20

What is the pathogenesis of pre-eclampsia?

Answer 20

Failure of epithelial to endothelial transformation at 20+ wks results in unknown circulating factor causing maternal hypertension and proteinuria

Question 21

What is the cycle of events in placental insufficiency?

Answer 21

Failure of maternal artery remodelling to low resistance; increased vascular resistance in fetoplacental vascular bed; deceased metabolically active placenta

Question 22

What are prepared in each uterine cycle in anticipation of implantation?

Answer 22

Pre-decidual cells

Question 23

Why can pre-decidual cells be considered “check point” cells?

Answer 23

Decidual reaction provides balancing force for invasive trophoblast

Question 24

How far does the trophoblast invade into the endometrium normally?

Answer 24

To spiral arterioles but no further

Question 25

What happens when the cytotrophoblast from ends of anchoring villi attach to terminal ends of spiral arteries?

Answer 25

Undergo epithelial to endothelial transformation

Question 26

How are the BV of the endometrium altered upon implantation?

Answer 26

From small diameter with high resistance to large diameter, low resistance vessels

Question 27

How do the villi on the surface of the chorion develop?

Answer 27

Those on chorionic pole grow to form chorion frondosum. On aembryonic pole they degenerate to form chorion laeve

Question 28

What decidua layer covers the chorion frondosum?

Answer 28

Basalis

Question 29

What is the decidua basalis?

Answer 29

Decidual plate with glycogen that will form placenta

Question 30

What happens to the decidua capsularis membrane over the chorion laeve?

Answer 30

Stretches and degenerates

Question 31

What does the chorion laeve fuse with?

Answer 31

Uterine wall

Question 32

How can foetal membranes be shared by monozygotic twins?

Answer 32

One zygote with separate implantation sites–> 2 amnions and chorions. One morula with 2 intracellular masses and bilaminar discs forms 2 amnions and 1 chorion. One blastocyst and bilaminar disc with 2 primitive streaks forms shared amnion and chorion

Question 33

What is there a risk of in a shared amnion and chorion between monozygotic twins?

Answer 33

Twin-to-twin transfusion

Question 34

What layers are present in the first trimester placenta?

Answer 34

Complete syncytiotrophoblast and cytotrophoblast layer

Question 35

What forms the foetal component of the first trimester placenta?

Answer 35

Trophoblast with secondary and tertiary villi and extramebryonic mesoderm (chorionic plate)

Question 36

What forms the maternal component of the first trimester placenta?

Answer 36

Uterine endometrium

Question 37

What are stem villi?

Answer 37

Extensions of mesoderm from chorionic plate to cytotrophoblast shell to give extraembryonic vasculature

Question 38

What happens in endovascular invasion of the first trimester placenta?

Answer 38

Maternal vessels are eroded so that blood flows into intevillous spaces

Question 39

How do the stem villi in the first trimester placenta?

Answer 39

Free villi extend from them

Question 40

What happens to the syncytium in the first trimester placenta?

Answer 40

Becomes thin and breaks off as syncytial knots in maternal circulation

Question 41

How does the foetal aspect of the placenta appear?

Answer 41

Umbilical vessels radiate to chorionic vessels under transparent amnion

Question 42

How does the maternal aspect of the placenta appear?

Answer 42

Surrounding amniochorion ruptured, cotyledons separated by decidual septa and covered by thin layer of decidua basalis

Question 43

What changes have occurred from the first trimester to term placenta?

Answer 43

SA for exchange dramatically increased, placental barrier thin, cytotrophoblast layer lost, discoid with 15-25 cm diameter

Question 44

Why is a small population of cytotrophoblast cells retained in the term placenta?

Answer 44

For repair

Question 45

What blood vessels are present in the umbilical cord?

Answer 45

2 umbilical arteries carrying deoxygenated blood from foetus to mother and 1 umbilical vein carrying oxygenated blood from placenta to foetus

Question 46

Which blood vessels in the umbilical cord are oxygen rich and poor?

Answer 46

Umbilical arteries are oxygen poor, veins oxygen rich

Question 47

What are the metabolic functions of the placenta?

Answer 47

Synthesis of glycogen, cholesterol and fatty acids

Question 48

Why does the latent a synthesis cholesterol?

Answer 48

For steroid hormone synthesis

Question 49

What are the endocrine functions of the placenta?

Answer 49

Produce protein and steroid hormones

Question 50

What protein hormones does the placenta produce?

Answer 50

hCG, hCsommatomammotrophin (placental lactogen), hCthyrotrophin, hCcorticotrophin

Question 51

What is hCG and analogue of?

Answer 51

LH

Question 52

What is the function of placental lactogen?

Answer 52

Diabetogenic mother and breast development

Question 53

What steroid hormones does the placenta synthesise?

Answer 53

Progesterone and oestrogen

Question 54

What effect does progesterone have on appetite in the pregnant female?

Answer 54

Increases

Question 55

Why do trophoblast disease and choriocarcinoma cause very raised hCG?

Answer 55

Endocrine function of placenta is in syncytiotrophoblast

Question 56

What does the placenta take over steroid hormone production from in the 11th week?

Answer 56

Corpus luteum

Question 57

What happens to hCG levels when the placenta takes over steroid hormone production?

Answer 57

Decrease

Question 58

What is a molar pregnancy?

Answer 58

When the outer cell mass only develops

Question 59

What is choriocarcinoma?

Answer 59

Malignant trophoblast if cancer

Question 60

How is exchange of water, electrolytes, urea and uric acid achieved by the placenta?

Answer 60

Simple diffusion

Question 61

How is AT of a.a. And iron achieved by the placenta?

Answer 61

Specific transporters in syncytiotrophoblast

Question 62

How is glucose transported across the placenta?

Answer 62

Facilitated diffusion

Question 63

Describe gas exchange across the placenta.

Answer 63

O2, CO2 and CO via simple diffusion limited by flow

Question 64

Why does gas exchange across the placenta need careful monitoring, especially in childbirth?

Answer 64

Cord compression can be rapidly fatal as foetal oxygen stores are small

Question 65

What makes complement components in the first trimester?

Answer 65

Foetus

Question 66

What happens at 14wks that causes development of passive immunity for the foetus?

Answer 66

Maternal IgG transported via receptor-mediated process so foetal [IgG] exceeds those in maternal circulation

Question 67

What does development of passive immunity depend on?

Answer 67

Mother’s exposure to pathogens

Question 68

Is the placenta a protective or true barrier and why?

Answer 68

Protective because some substances readily access foetus via placenta

Question 69

Give some examples of known teratogens.

Answer 69

Thalidomide, alcohol, therapeutic drugs, drugs of abuse

Question 70

What effect does maternal smoking have on pregnancy via an unknown mechanism?

Answer 70

Causes embryon and placental disruption

Question 71

How do infectious agents lead to birth defects?

Answer 71

Cross placenta to cause foetal infection and subsequent cell death

Question 72

Give some examples of infectious agents that can lead to birth defects.

Answer 72

Varicella zoster, CMV, treponema pallidum, toxoplasma gondii, rubella

Question 73

What is rubella syndrome?

Answer 73

Microcephaly, PDA and cataracts

Question 74

What is the affect of alcohol crossing the placental barrier?

Answer 74

Inhibits bronchial apparatus and CNS development

Question 75

How does haemolytic disease of the newborn arise?

Answer 75

Exposure of maternal blood to foetal circulation mounts maternal antibodies against foetal rhesus group which in a following pregnancy cross placenta and ellicit haemolysis

Question 76

Why is haemolytic disease of the newborn now uncommon?

Answer 76

Mother and father rhesus groups are tested and prophylaxis offered if necessary

Question 77

How is routine antenatal screening conducted?

Answer 77

History and examination for risk factors and FHx, blood tests and urinalysis

Question 78

What is assessed in antenatal blood tests?

Answer 78

Blood group for comparison with father’s, Hb levels for anaemia and any infection

Question 79

Why is UTI a potential problem pregnancy?

Answer 79

Can lead to pre-term labour

Question 80

What change is seen in cardiac output during pregnancy?

Answer 80

Increase of 40% from T1

Question 81

What change is seen in stroke volume during pregnancy?

Answer 81

Increase of 35% from T1

Question 82

Why does cardiac output increase in pregnancy?

Answer 82

To account for potential significant haemorrhage at birth

Question 83

Why does stroke volume increase in pregnancy?

Answer 83

Blood volume has significantly increased

Question 84

What changes are seen in TPR during pregnancy?

Answer 84

Decreases 25-30% from T1

Question 85

Why does TPR change during pregnancy?

Answer 85

Foetal gas exchange depends on flow

Question 86

How does blood pressure change during pregnancy?

Answer 86

Decreases during T1 and T2 but returns to normal in T3

Question 87

What causes blood pressure changes during pregnancy?

Answer 87

Decreased vascular resistance due to progesterone

Question 88

Why should women in T3 not lie on their back?

Answer 88

Causes aortocaval compression by gravid uterus leading to hypotension

Question 89

What is the treatment for pre-eclampsia?

Answer 89

Deliver baby

Question 90

How is pre-eclampsia identified?

Answer 90

Maternal hypertension and proteinuria

Question 91

What changes in renal perfusion are seen during pregnancy?

Answer 91

Increases by 60-80%

Question 92

Why does RPF change in pregnancy?

Answer 92

Cardiac output increases

Question 93

What change is seen in GFR during pregnancy?

Answer 93

Increases of 55%

Question 94

Why does GFR change in pregnancy?

Answer 94

Progesterone causing afferent and efferent dilation

Question 95

What complications can progesterone action on GFR cause?

Answer 95

Hydroureter and urinary stasis

Question 96

What change is seen in creatinine clearance in pregnancy?

Answer 96

Increases by 40-50%

Question 97

What happens in protein excretion during pregnancy?

Answer 97

Increases

Question 98

What happens to urea levels during pregnancy?

Answer 98

Decreases by 50%

Question 99

What accounts for the changes in creatinine clearance, protein excretion and urea levels in pregnancy?

Answer 99

Filtration capacity of kidneys

Question 100

What change is seen in bicarbonate levels during pregnancy?

Answer 100

Decreased

Question 101

What change is seen in creatinine levels during pregnancy?

Answer 101

Decreases

Question 102

Why does the bicarbonate level change during pregnancy?

Answer 102

Functional renal reserve decreases as GFR increases

Question 103

What do normal non-pregnant ranges of urea, bicarbonate and creatinine indicate in pregnancy?

Answer 103

Renal dysfunction

Question 104

What respiratory changes are seen during pregnancy?

Answer 104

Oxygen consumption increases, resting minute ventilation increases, tidal volume increases, RR VC and FEV1 remain constant

Question 105

What causes physiological dyspnoea during pregnancy?

Answer 105

Increased respiratory drive due to progesterone

Question 106

Why does tidal volume increase during pregnancy?

Answer 106

AP and transverse diameters of thorax increase

Question 107

Why does FRC decrease in T3?

Answer 107

Diaphragm is displaced by gravid uterus

Question 108

Why are vital capacity and FEV1 constant in pregnancy?

Answer 108

Diaphragm and changes in thorax diameters balance each other out

Question 109

Why is PaCO2 reduced in pregnancy?

Answer 109

Increased metabolic CO2 is blown off by physiological hyperventilation

Question 110

Why does physiological hyperventilation not lead to respiratory alkalosis?

Answer 110

Renal bicarbonate excretion increases

Question 111

Why are pregnant women predisposed to metabolic acidosis?

Answer 111

Renal bicarbonate excretion is increased

Question 112

What changes to carbohydrate metabolism are seen on pregnancy?

Answer 112

Increased maternal peripheral insulin resistance, switch to gluconeogenesis

Question 113

What stimulates changes to carbohydrate metabolism in pregnancy?

Answer 113

Human placental lactogen mainly but prolactin, oestrogen, progesterone and cortisol also contribute

Question 114

What happens to fasting blood glucose pregnancy?

Answer 114

Decreases

Question 115

What happens to post-prandial blood glucose in pregnancy?

Answer 115

Increases

Question 116

What is gestational diabetes?

Answer 116

Carbohydrate intolerance first recognised in pregnancy that does not persist after delivery

Question 117

What are risk factors for developing gestational diabetes?

Answer 117

PCOS, FHx, high maternal age, T2DM, ethnicity, obesity

Question 118

What are the possible consequences of gestational diabetes?

Answer 118

Macrosomic foetus, stillbirth, congenital defects

Question 119

What builds fat stores in early pregnancy for lipolysis in T2?

Answer 119

Progesterone

Question 120

What is the benefit of lipolysis in T2?

Answer 120

Increases plasma free FA that cannot cross placenta therefore increasing glucose available for foetal metabolism

Question 121

Which fatty acids are able to cross the placenta?

Answer 121

Essential

Question 122

Why are pregnant women at a higher risk of ketoacidosis?

Answer 122

Increased FA synthesis combined with physiological increase in renal bicarbonate excretion

Question 123

Why might TSH be low in normal pregnancies?

Answer 123

hCG minimises its function

Question 124

Why does hCG and TSH not lead to high free T4?

Answer 124

Very active liver produces thyroid binding globulins

Question 125

What happens to the appendix during pregnancy?

Answer 125

Moved to RUQ

Question 126

What are the effects of progesterone on the smooth muscle of the GI tract?

Answer 126

Delayed emptying and stasis in biliary tract

Question 127

Why are pregnancy women at an increased risk of pancreatitis?

Answer 127

Progesterone on smooth muscle of biliary racy causes stasis and stone formation

Question 128

Why is pregnancy a pro-thrombotic state?

Answer 128

Need for fibrin deposition at the implantation site and risk of haemorrhage at birth

Question 129

What are the effects of progesterone on the blood during pregnancy?

Answer 129

Increased fibrinogen and clotting factors, decreased fibrinolysis, stasis and venodilation

Question 130

Why can thromboembolic disease in pregnancy not be treated with warfarin?

Answer 130

It is a teratogen

Question 131

How does a physiological aneamia arise during pregnancy?

Answer 131

Due to dilution as red cell mass increases but does not match the plasma volume increase

Question 132

When does iron and folate deficiency anaemia arise in pregnancy?

Answer 132

If increased demands during pregnancy are not met

Question 133

What are the complications of sickle cell disease in pregnant homozygotes?

Answer 133

More frequent crises, pre-eclampsia, thrombosis and infections

Question 134

What are the consequences of sickle cell disease in pregnancy heterozygotes?

Answer 134

May develop crises

Question 135

What are the implications for pregnancy for homozygous beta-thalassaemia pts?

Answer 135

Anaemia in pregnancy is unusual due to iron overload

Question 136

What is the treatment for pregnant homozygous beta-thalassaemia pts with anaemia?

Answer 136

Folic acid without iron

Question 137

What are the consequences for heterozygous beta-thalassameia pts during pregnancy?

Answer 137

Worsening of chronic anaemia

Question 138

Why is non-specific local immune system suppression needed at the materno-foetal interface?

Answer 138

Foetus is an allograft

Question 139

How is the immune system suppression at the materno-foetal interface identified histologically?

Answer 139

Different lymphocytes are found at the trophoblast-endometrial boundary

Question 140

How can a foetus develop an abnormal thyroid state?

Answer 140

Exchange of maternal autoantibodies e.g. In Graves or Hashimoto’s disease

Question 141

What is the treatment for haemolytic disease of the newborn?

Answer 141

IM anti-RH antibodies

Question 142

How does the treatment for haemolytic disease of the newborn act?

Answer 142

Foetal rhesus D+ve destroyed before mother mounts response