Development and aging

Question 1

What is the fertilisation age?

Answer 1

Measured from the time of fertilisation.

Question 2

Limitations of fertilisation age?

Answer 2

Difficult to know time of fertilisation exactly unless IVF.

Question 3

What is the gestational age?

Answer 3

Calculated from the time of the beginning of the last menstrual period.

Question 4

How is gestational age calculated?

Answer 4

Fertilisation date + 14 days. Early obstetric ultrasound and compare to embryo size charts.

Question 5

What is carnegie stage?

Answer 5

Based of embryo features not time. Use 23 stages of embryo development as reference.

Question 6

Advantages of carnegie stage?

Answer 6

Allows comparison of developmental rates between species.

Question 7

How many days of fertilisation age does carnegie stage cover?

Answer 7

0-60 days - Embryo development. After embryo develops into fetus.

Question 8

What happens during embryogenic stage?

Answer 8

Development of early embryo from fertilised oocyte. Formation of two population of cells. Pluripotent embryonic cells and extraembryonic cells.

Question 9

What do pluripotent embryonic cells contribute to?

Answer 9

Development of fetus.

Question 10

What do extraembryonic cells contribute to?

Answer 10

Support structures such as the placenta.

Question 11

When does the embryogenic stage take place?

Answer 11

14-16 days post fertilisation.

Question 12

What happens during the embryonic stage?

Answer 12

Establishment of germ layers and differentiation of tissue types. Establishment of body plan.

Question 13

When does the embryonic stage take place?

Answer 13

16-50 days post fertilisation.

Question 14

What happens during fetal stage?

Answer 14

Extensive growth to acquire fetal viability. Development of major organ systems. Migration of some organ systems to final location such as the reproductive system in males (testes).

Question 15

When does the fetal stage take place?

Answer 15

50 to 270 days post fertilisation.

Question 16

Stages in the few days spanning before and after fertilisation?

Answer 16

Ovulated oocyte to zygote. Cleavage stages from zygote to 8 cell embryo. 8 cell cleaved embryo to morula. Morula to blastocyst.

Question 17

What is a zygote?

Answer 17

Single cell with sperm and oocyte nucleus.

Question 18

When does the maternal to zygotic transition roughly take place?

Answer 18

4-8 cell stage.

Question 19

What is happening before maternal to zygotic transition?

Answer 19

Embryo is dependent on maternal mRNA’s and proteins. None of the embryo’s genes are being transcribed.

Question 20

When are the maternal mRNA’s and proteins used in the embryo during early embryo development produced?

Answer 20

Produced during oocyte development.

Question 21

What happens during the maternal to zygotic transition?

Answer 21

Transcription of embryo genes (Zygotic gene activation), increase protein synthesis, organelle maturation (mitochondria, Golgi).

Question 22

When does compaction take place?

Answer 22

8 cell stage or later.

Question 23

What happens during compaction?

Answer 23

Formation of 2 distinct population of cells (outer and inner cells). Outer cells connect to each other through tight gap junctions and desmosomes. This forms a barrier to diffusion between inner and outer cells of embryo (outer and inner cells exposed to different environments). Outer cells become polarised (formation of apical and basolateral domains).

Question 24

What happens after compaction?

Answer 24

Formation of blastocoel cavity.

Question 25

How is the blastocoel cavity formed?

Answer 25

Formed by trophoblasts (outer layer) pumping Na+ into cavity to produced fluid filled cavity.

Question 26

What is the layer of outer cells referred to as?

Answer 26

Trophoectoderm

Question 27

What kind of a cells are in the inner cell mass?

Answer 27

Pluripotent embryonic cells.

Question 28

What kind of a cells are in the outer cell layer?

Answer 28

Extra-embryonic cells.

Question 29

Zona pellucida function?

Answer 29

Prevents polyspermy and protects early embryo.

Question 30

How does the blastocyst hatch?

Answer 30

Enzymatic digestion and cellular contractions.

Question 31

Why does the blastocyst hatch?

Answer 31

To escape zona pellucida and implant in uterine endometrium.

Question 32

How does the blastocyst implant in the uterine endometrium?

Answer 32

Fusion of trophoblasts with uterine endometrium to form syncitiotrophoblasts. Forms interface between embryo and maternal blood supply.

Question 33

When blastocyst implantation occurs, what are the two types of cells that the inner mass cells differentiate into?

Answer 33

Epiblast and hypoblast.

Question 34

What will the epiblasts form?

Answer 34

Fetal tissues.

Question 35

What will the hypoblasts form?

Answer 35

Yolk sac (extra-embryonic structure).

Question 36

What are cytotrophoblasts?

Answer 36

Inner layer of trophoblasts. Interior to syncitiotrophoblasts.

Question 37

How does an embryo ready itself for gastrulation?

Answer 37

Formation of new cavity called amniotic cavity. This forms a bi-laminar embryonic disc which separates the two cavities.

Question 38

What is the amnion?

Answer 38

Epiblast cells migrate to form a thin membrane called the amnion that surrounds the amniotic cavity, separating it from the cytotrophoblast.

Question 39

What is the bi-laminar disc made up of?

Answer 39

Epiblast and hypoblast.

Question 40

Before gastrulation what is secreted from what cell that provide basis of pregnancy testing?

Answer 40

Syncitiotrophoblasts secrete hCG and beta hCG in blood/urine is detected in pregnancy test.

Question 41

What is gastrulation?

Answer 41

Establishment of germ layers.

Question 42

What does the primitive streak define?

Answer 42

Major body axis (cranial end and caudal end).

Question 43

What happens at the cranial end of the primitive streak?

Answer 43

Expands to form primitive node.

Question 44

What is the circular depression at the primitive node?

Answer 44

Primitive pit.

Question 45

What is the primitive groove?

Answer 45

Depression along primitive streak.

Question 46

What is the process of cells falling into the primitive groove called?

Answer 46

Invagination.

Question 47

What cells fall into the primitive groove?

Answer 47

Epiblast cells.

Question 48

What do the first cells to invaginate the primitive groove do?

Answer 48

Replaces hypoblast cells.

Question 49

What do the first cells to invaginate the primitive groove form?

Answer 49

Definitive endoderm.

Question 50

What are the cells don’t fall through the primitive groove called?

Answer 50

Ectoderm.

Question 51

What are the cells that don’t fall fully through primitive groove called?

Answer 51

Mesoderm.

Question 52

Where does the notochord form?

Answer 52

Along the embryo midline under the ectoderm (through mesoderm).

Question 53

Function of notochord?

Answer 53

Organising centre for neurulation and mesoderm development.

Question 54

What is neurulation?

Answer 54

Formation of neural tube and CNS.

Question 55

How does formation of the neural tube happen?

Answer 55

Notochord signals direct the neural plate ectoderm to invaginate to form the neural groove. This create two neural folds that run along cranial caudal axis. Neural folds move together over neural groove and fuse forming a hollow tube. Migration of neural crest cells to other tissues.

Question 56

What cells do neural folds contain?

Answer 56

Neural crest cells.

Question 57

What is the neural plate?

Answer 57

Portion of ectoderm that is specified to become the neural ectoderm.

Question 58

What is it called when there is a failure to close neural tube at head end? What can be seen in this condition?

Answer 58

Anencephaly. Absence of most of skull and brain.

Question 59

What is it called when there is a failure to close neural tube at tail end.

Answer 59

Spina bifida.

Question 60

What are neural crest cells derived from?

Answer 60

Ectoderm.

Question 61

What are the 5 divisions of neural crest cells?

Answer 61

Cranial, Cardiac, trunk, vagal and sacral.

Question 62

What do trunk neural crest cells form?

Answer 62

Dorsal root ganglia, sympathetic ganglia, adrenal medulla, aortic nerve clusters and melanocytes.

Question 63

What do vagal and sacral neural crest cells form?

Answer 63

Parasympathetic ganglia and enteric nervous system ganglia.

Question 64

What are somites?

Answer 64

Paired blocks of paraxial mesoderm.

Question 65

Describe somitogenesis

Answer 65

Blocks of paraxial mesoderm condense and bud off in somite pairs with one of each pair on either side of the neural tube.

Question 66

Where does somitogenesis start at?

Answer 66

Head end and progresses down long axis of the embryo.

Question 67

What are the two types of tissue that somites form? What do these two types of tissue form?

Answer 67

Sclerotome and dermomyotome.

Sclerotome forms vertebrae and rib cartilage. Dermomyotome which forms dermatome and myotome.

Dermatome gives rise to dermis of skin, fat and connective tissue.

Myotome gives rise to muscles of the embryo.

Question 68

What are the two folding processes that form the primitive gut? Describe each one

Answer 68

Ventral and lateral folding.

Ventral folding - Where the head and tail ends curl together.

Lateral folding - Where the two sides of the embryo roll.

Question 69

How does ventral and lateral folding form the primitive gut?

Answer 69

Pinches off part of the yolk sac.

Question 70

What are the 3 segments of the primitive gut?

Answer 70

Foregut, midgut and hindgut.

Question 71

What are the first cells that are produced from gonadal cells in XY embryos?

Answer 71

Sertoli cells.

Question 72

What gene drives male development?

Answer 72

SRY gene that is only present on y chromosome.

Question 73

What gene drives female development in embryo?

Answer 73

Lack of SRY gene due to lack of Y chromosome.

Question 74

What is major cause of early pregnancy loss?

Answer 74

Aneuploidy in embryo.

Question 75

What kind of pregnancy increases exponentially in with maternal age?

Answer 75

Risk of trisomic pregnancy.

Question 76

During oogenesis how many meiotic arrests are there?

Answer 76

2.

Question 77

Why does aneuploidy of embryo increase with maternal age?

Answer 77

Loss of cohesin proteins between chromatids. This results in a loss in cohesion between chromatids. Chromatids can separate and drift during meiotic division leading to cells with wrong number of chromosomes during division of the cells.

Question 78

What are the main cohesin proteins?

Answer 78

REC8 and SMC2.

Question 79

What is an ectopic pregnancy?

Answer 79

Implantation of embryo at a site other than uterine endometrium.

Question 80

Why can ectopic pregnancies be life threatening for the mother?

Answer 80

Can rupture and lead to severe internal bleeding.

Question 81

Why does smoking increase risk of ectopic pregnancy?

Answer 81

Inhibits cilia function. Decreases contractility of the smooth muscle layer surrounding the fallopian tube. Smoking induces apoptosis of epithelial layer of fallopian tube by triggering expression of pro apoptosis proteins. Loss of epithelial cells results in loss of cilia and so embryo can’t move down fallopian tube properly.

Question 82

Risk factors for ectopic pregnancy?

Answer 82

Prior ectopic pregnancy.
Prior fallopian tube surgery.
Smoking.

Question 83

Describe histiotrophic nutrition?

Answer 83

Nutrition derived from breakdown of endometrial tissue.

Question 84

Describe haemochorial type placenta

Answer 84

Maternal blood is in direct contact with fetal membranes.

Question 85

What is the chorion?

Answer 85

Outer membrane that surround the fetus while it is still being formed.

Question 86

What is the connecting stalk?

Answer 86

Links developing embryo unit to chorion.

Question 87

What are trophoblastic lacunae?

Answer 87

Large spaces filled with maternal blood formed by the breakdown of maternal capillaries and uterine glands.

Question 88

What do trophoblastic lacunae become?

Answer 88

Form placenta by becoming intervillous spaces and maternal blood spaces.

Question 89

What does the amnion form in the 5th week?

Answer 89

Fluid filled sac that encapsulates and protects the fetus.

Question 90

What forms the chorion?

Answer 90

Yolk sac and trophoblast.

Question 91

What do outgrowths of cytotrophoblast from chorion give rise to?

Answer 91

Chorionic villi.

Question 92

What does fluid accumulation in amnion result in?

Answer 92

Contact with chorion forming the amniotic sac.

Question 93

What are the 2 layers of the amniotic sac?

Answer 93

Amnion on the inside. Chorion on the outside.

Question 94

What is the allantois?

Answer 94

Outgrowth of yolk sac that grows along connecting stalk from embryo to chorion.

Question 95

What does the allantois develop into and how?

Answer 95

Becomes coated in mesoderm and vascularises to form the umbilical cord.

Question 96

How are primary chorionic villi formed?

Answer 96

Cytotrophoblasts form finger like projections through synciotrophoblast layer into maternal endometrium.

Question 97

Secondary phase of chorionic villi development

Answer 97

Growth of fetal mesoderm into the primary villi.

Question 98

Tertiary phase of chorionic villi development

Answer 98

Growth of umbilical artery and vein into the villus mesoderm providing vascalature.

Question 99

What kind of structure do terminal villus have and why is this important?

Answer 99

Convuluted knot of vessels. Covered with trophoblasts. Slows blood flow enabling exchange between maternal and fetal blood.

Question 100

How does the thickness of cytotrophoblast layer around terminal villus change through pregnancy?

Answer 100

Decreases. Allows for faster exchange later on in pregnancy.

Question 101

Maternal blood vessel branching before reaching endometrium

Answer 101

Uterine artery branches to give arcuate arteries. Arcuate arteries branch to give radial arteries. Radial arteries branch to give basal arteries. Basal arteries branch to give spiral arteries. Spiral arteries invade endometrium.

Question 102

When do the basal arteries form the spiral arteries?

Answer 102

During menstrual cycle endometrium thickening.

Question 103

What results in spiral artery remodelling?

Answer 103

Extra villus trophoblast cells invade down into maternal spiral arteries forming endovascular extra villus trophoblast. Endothelium and smooth muscle of blood vessels is broken down.

Question 104

How are spiral arteries remodelled?

Answer 104

Opens up spiral artery to form low pressure, high capacity conduit for maternal blood flow.

Question 105

How is oxygen exchanged across placenta?

Answer 105

Diffusion.

Question 106

How is glucose exchanged across placenta?

Answer 106

Facilitated diffusion.

Question 107

How are electrolytes exchanged across placenta?

Answer 107

Diffusion and active transport.

Question 108

How is calcium exchanged across placenta?

Answer 108

Actively transported by magnesium ATPase calcium pump.

Question 109

How are amino acids exchanged across placenta?

Answer 109

Active transport.

Question 110

What cardiovascular and pulmonary changes occur in the mother during pregnancy?

Answer 110

Maternal cardiac output increases (stroke volume and heart rate increase). Maternal blood volume increases (greater number of erythrocytes and plasma). Pulmonary ventilation increases.

Question 111

Where does gas exchange take place in the fetus?

Answer 111

Placenta.

Question 112

How do the lungs develop in late fetal development?

Answer 112

Primitive air sacs form. Surfactant production begins and fetus makes rapid respiratory movements during REM sleep.

Question 113

What does the pancreas of the fetus do in mid 2nd term?

Answer 113

Starts forming insulin.

Question 114

What does the liver of fetus do as it moves towards end of pregnancy?

Answer 114

Build up glycogen stores.

Question 115

What is meconium? What makes up meconium?

Answer 115

Meconium is the earliest stool of an infant. Amniotic fluid and bile.

Question 116

What drives fetal organ maturation?

Answer 116

Corticosteroids.

Question 117

Nature of labour?

Answer 117

Inflammatory. Immune cell infiltration, inflammatory cytokine and prostaglandin secretion.

Question 118

What are the two phases of the first stage of labour?What occurs in the first stage of labour?

Answer 118

Latent phase - Slow dilation of cervix. Active phase - rapid dilation of cervix.

Question 119

What occurs in the second stage of labour?

Answer 119

Maximal myometrial contractions to deliver fetus.

Question 120

What occurs in third stage of labour?

Answer 120

Expulsion of placenta and fetal membranes. Post partum repair.

Question 121

What is the cervix made out of?

Answer 121

Collagen fibres embedded in proteoglycan matrix.

Question 122

Why does the cervix need to be remodelled?

Answer 122

Its stretch resistant and rigid at first. Needs to dilate later on in pregnancy.

Question 123

How is the cervix remodelled for labour?

Answer 123

Softening in first trimester. Monocyte infiltration and IL6,IL8 secretion along with hyaluron deposition in weeks before pregnancy causing ripening. Dilation is caused by breakdown of hyaluron due to increased expression of hyaluronidases, MMP’s break down collagen.

Question 124

What hormone initiates labour?

Answer 124

Corticotrophin releasing hormone. Rises exponentially towards end of pregnancy.

Question 125

What does corticotrophin releasing hormone from fetus do in labour?

Answer 125

Promotes fetal ACTH and cortisol release. Increase in cortisol induces positive feedback and drives placental production of CRH. Stimulates DHEAS production by the fetal adrenal cortex which is a substrate for oestrogen production.

Question 126

Why do progesterone receptors on uterus switch when approaching term?

Answer 126

High progesterone maintains uterine relaxation. Expression of progesterone receptor B and C instead of progesterone receptor A. Progesterone receptor B and C are repressive isoforms and result in uterus becoming unresponsive to progesterone action.

Question 127

What receptor in the uterus is expressed more nearer to term?

Answer 127

Estrogen receptor alpha.

Question 128

What hormones does the uterus respond to nearer term?

Answer 128

Unresponsive to progesterone and sensitised to oestrogen action.

Question 129

What stimulates oxytocin release in labour?

Answer 129

Stretch receptors and rising oestrogen levels.

Question 130

What inhibits oxytocin receptor expression in early pregnancy?

Answer 130

High levels of progesterone. Keeps uterus relaxes early on.

Question 131

What kind of receptor is the oxytocin receptor?

Answer 131

G-coupled.

Question 132

What promotes oxytocin receptor expression near labour?

Answer 132

High oestrogen levels.

Question 133

How does oxytocin increase uterine contraction?

Answer 133

Increase connectivity of myocytes in myometrium. Lower membrane potential threshold for contraction. Enhance liberation of intracellular calcium stores.

Question 134

What are the primary prostaglandins involved in labour?

Answer 134

PGE2, PGF2alpha, PGI2.

Question 135

What hormone drives prostaglandin action?

Answer 135

Oestrogen.

Question 136

How does oestrogen drive prostaglandin action?

Answer 136

Activates phospholipase A2 enzyme which generates more arachidonic acid for prostaglandin synthesis. Stimulation of oxytocin receptor expression promotes prostaglandin release.

Question 137

What is PGE2 involved in?

Answer 137

Cervix remodelling. Promotes leukocyte infiltration into the cervix, IL8 release and collagen remodelling.

Question 138

What is PGF2 involved in?

Answer 138

Myometrial contractions. Promotoes connectivity of myocytes and reduces threshold for actional potential for contraction.

Question 139

What is PGI2 involved in?

Answer 139

Myometrial smooth muscle relaxation to allow blood flow into uterus. (constant contraction wouldn’t be good for blood flow)

Question 140

Apart from steroid hormones and prostaglandins what other compounds are involved in cervix remodelling?

Answer 140

Relaxin and nitric oxide.

Question 141

Where is DHEAS converted to oestrogen in labour?

Answer 141

Placenta.

Question 142

Which part of the uterus to contractions start?

Answer 142

Fundus (top part).

Question 143

How do myometrial muscles in the uterus form the birth canal?

Answer 143

Contractions start at the fundus and spread down. Muscle contractions are brachystatic - fibres do not return to full length upon relaxation. This causes lower segment and cervix to be pulled up forming birth canal

Question 144

What occurs after fetal delivery?

Answer 144

Shrinkage of uterus. This results in folding of fetal membranes and area of contact of placenta with endometrium to shrink. Clamping of umbilical cord stops fetal blood flow to placenta which results in collapsing of villi and haematoma formation between decidua and placenta. Contractions expel placenta and fetal tissues.

Question 145

Diagnosis of pre-eclampsia?

Answer 145

New onset hypertension and occurs after 20 weeks gestation. Severe headache present.

Question 146

What is early onset pre eclampsia?

Answer 146

<34 weeks.

Question 147

What is late onset pre eclampsia?

Answer 147

> 34 weeks.

Question 148

Risk factos for pre eclampsia?

Answer 148

Previous pregnancy with pre-eclampsia
BMI >30
Family history
Increased maternal age

Question 149

What is eclampsia?

Answer 149

Severe complication of preeclampsia. Where high blood pressure results in seizures during pregnancy.

Question 150

Pre eclampsia risks for mother?

Answer 150

Damage to kidneys, liver and brain.

Question 151

Pre eclampsia risks for fetus?

Answer 151

Preterm birth due to placental abruption or pregnancy loss.

Question 152

What is a placental abruption?

Answer 152

Separation of placenta from endometrium.

Question 153

How do endovascular cytotrophoblasts contribute to development of pre eclampsia?

Answer 153

Endovascular cytotrophoblast invasion of maternal spiral arteries is limited to decidual layer. Spiral arteries are not extensively remodelled, thus placental perfusion is restricted.

Question 154

What results in endothelial dysfunction in pre eclampsia?

Answer 154

Excess production of Flt-1 by distressed placenta leads to reduction of available pro-angiogenic factors in maternal circulation, resulting in endothelial dysfuction.

Question 155

What is Flt-1 (Vascular Endothelial Growth Factor Receptor-1)?

Answer 155

Soluble receptor for VEGF (Vascular endothelial growth factor) which binds soluble angiogenic factors to limit their bioavailabliltiy.

Question 156

What is placenta growth factor?

Answer 156

Pro-angiogenic factor released in large amounts by the placenta.

Question 157

What tests can be used to determine risk of developing pre eclampsia?

Answer 157

sFlt-1/PlGF ratio or PlGF alone.

Question 158

What is the only way to resolv pre eclampsia?

Answer 158

Delivery of the baby.

Question 159

Treatments for pre eclampsia?

Answer 159

Anti-hypertensive therapies.
Corticosteroids for <34 weeks to promote fetal lung development before delivery.

Question 160

How to prevent pre eclampsia?

Answer 160

Weight loss.

Exercise throughout pregnancy.

Low-dose asprin (from 11-14 weeks) for high risk groups.

Question 161

Impacts on maternal health after suffering from pre eclampsia

Answer 161

Elevated risk of cardiovascular disease, type 2 diabetes and renal disease.