Placentation

Question 1

Which species have a luteo-placental shift?

Answer 1

Horses, sheep, humans, cows

Question 2

What is the luteo-placental shift

Answer 2

Shift in production of progesterone from luteal to placental

Question 3

How does the luteoplacental shift affect the use of PGF2a to terminate pregnancy?

Answer 3

• If shift occurs, PGF2a can only be used to terminate pregnancy before the shift
• If there is no shift, then PGF2a can always be used to terminate pregnancy

Question 4

What is a placenta?

Answer 4

The close attaachment of foetal membranes to the uterine wall to facilitate physiological exchange of gases, nutrients and waste products

Question 5

Name the foetal membranes

Answer 5

• Amnion
• Yolk sac
• Allantois
• Chorion

Question 6

Describe the amnion

Answer 6

• Innermost fluid filled membrane (reptile, bird, mammal)
• Allows symmetrical growth and protection of the foetus
• Temperature control and foetal movement

Question 7

Describe the yolk sac

Answer 7

• Surrounds yolk in reptile and bird eggs

- In higher mammals has nutritional role in early pregnancy

Question 8

Describe the allantois

Answer 8

• Sac from hindgut
• Connection to foetus becomes umbilical cor
• Collects waste products from foetus

Question 9

Descibe the chorion

Answer 9

• Outer membrane
• Becomes foetal contribution to placenta
• All placentas are chorionic at some stage of development

Question 10

What are the layers in the submucosa of the uterine wall?

Answer 10

Perimetrium, myometrium, endometrium

Question 11

What are the 3 stages of implantation?

Answer 11

Apposition, adhesion, firm attachment or invasion of trophoblast into uterus

Question 12

Describe apposition

Answer 12

Blastocyst or foetal membranes become closely apposed to uterine lining (epithelium)

Question 13

Describe adhesion

Answer 13

Complex biochemical interaction between molecules on the trophoblast and epithlium

Question 14

Outline firm attachment or invasion of trophoblast into uterus

Answer 14

On species, can be non-invasive or invasive

Question 15

Describe non-invasive attachment of trophoblasts to uterus

Answer 15

• Cow, sheep
• Blastocyst undergoes elongation, long when attaches to uterus
• During apposition aligns with lining of uterus
• During attachment trophoblast layer in contact with uterine epithelium

Question 16

Describe invasive attachment of trophoblasts to uterus

Answer 16

• Quickly after arrival of blastocyst to uterus
• Blastocyst remains spherical
• Invades uterine lining following apposition and attachment

Question 17

What needs to occur to allow invasive attachment of the blastocyst?

Answer 17

• Specific window of time

- Presence of proteoglycan MUC1 needs to be down-regulated to allow attachment

Question 18

What are the different methods of classification of placental structure?

Answer 18

• Foetal extraembryonic membranes
• Source of nutrition
• Maternal tissue shedding at birth
• Histological structure
• Macroscopic structure

Question 19

What are the different types of nutrition possible in the placenta?

Answer 19

• Haemotrophic: nutrition from circulating maternal blood

- Histotrophic: nutrition from endometrium

Question 20

What are the different types of maternal tissue shedding at birth?

Answer 20

• Deciduate vs non deciduate

- Deciduate: lining of uterus shed with lining of placenta at parturition

Question 21

How can histological structure be used to calssifies placentas?

Answer 21

Different number of tissue layers interposed between maternal and foetal circulations

Question 22

How can macroscopic anatomy of placentas be used for classification?

Answer 22

• Nutrient exchange areas
• Distribution of chorionic villi on chorionic sav and relationship with endometrium
• e.g. diffuse, cotyledonary, zonary

Question 23

What are the placental classifications based on the number of tissue layers (Grosser classification)?

Answer 23

• Epitheliochorial
• Endotheliochorial
• Mesochorial

Question 24

What are the 3 foetal layers of the placenta? (moving towards the maternal side)

Answer 24

• Foetal blood vessel endotehlium
• Foetal connective tissue/mesenchyme
• Foetal trophoblast

Question 25

What are the 3 possible maternal layers of the placenta? (moving towards the foetal side)

Answer 25

• Maternal blood vessel endothelium
• Maternal connective tissue/mesenchyme
• Maternal epithelium

Question 26

What layers are present in the epitheliochorial placenta?

Answer 26

All 3 foetal and all 3 maternal layers

Question 27

Describe the epitheliochorial placenta

Answer 27

• 6 layers between blood circulations
• Present in sow and mare
• Least invasive type of placenta
• Chorion in contact with epithlium of maternal uterine wall

Question 28

What layers are present in the endotheliochorial placenta?

Answer 28

• 3 foetal

- 1 maternal (maternal blood vessel endothelium)

Question 29

Describe the endotheliochorial placenta

Answer 29

• Chorion in contact with endothelium of maternal blood vessel
• 4 layers present
• Present in bitch, queen
• Specialised version in ruminant

Question 30

How many layers are present in the haemochorial placenta?

Answer 30

3 - only foetal layers

Question 31

Describe the haemochoral placenta

Answer 31

• Endothelial cell layer around blood vessel incomplete
• Pool of maternal blood direclty in contact with the chorion
• Foetal layer thicker as more trophoblasts present
• Humans, primates, mice
• Most invasive

Question 32

What are the classifications based on type of nutrient exchange area in the placenta?

Answer 32

• Diffuse
• Cotyledonary
• Zonary
• Discoid

Question 33

What is the function unit of the foetal placenta?

Answer 33

The chorionic villus

Question 34

Describe the appearance of the chorionic villus

Answer 34

• Normally quite visible

- Interdigitation between villi of chorion and endometrium

Question 35

Describe placentas with a diffuse nutrient exchange area

Answer 35

• Sow and mare
• Villi attach to crypts in endometrium
• Mare forms micro-cotyledons

Question 36

Describe cotyledonary nutrient exchange areas

Answer 36

• Cow and ewe

- Cotyledons attach to caruncles to form a placentome

Question 37

Describe zonary nutrient exchange areas

Answer 37

• Bitch and queen

- Band around middle of foetus on chorioallantoic membrane

Question 38

Describe discoid nutrient exchange areas

Answer 38

• Humans and primates

- Plate shape/discoid arrangement of villi

Question 39

Describe the placenta of the sow

Answer 39

• Epitheliochorial
• Diffuse
• Non-deciduate
• Embryotroph
• By day 24, allantois around the periphery of the embryo

Question 40

Describe the uterine milk in sows

Answer 40

• Secretions important for development
• High P4 and E2
• Uteroferrin important for nutrition and Fe transport

Question 41

Describe the placenta found in the ewe and cow

Answer 41

• Synepithliochorial
• Cotyledonary
• Non-deciduate

Question 42

Explain synepitheliochorial placentation

Answer 42

• Specialised epitheliochorial pacenta
• Uninucleate trophoblast cells undergo division without cytokinesis = binucleate giant cells with small granules
• Migrate to maternal layer, fuse with maternal cells
• Produce hybrid cell
• Once fused, release contents into maternal circulation

Question 43

What is contained within the granules of the binucleate cels?

Answer 43

Placental lactogen

Question 44

Describe placentomes

Answer 44

• Foetal cotyledon + materna caruncle
• Can be convex or concave
• Are the exchange regions in the placenta
• Each placentome connected to umbilicus by a chorionic stalk

Question 45

Describe a convex placentome

Answer 45

• Found in cow

- Cotyledon sits on top of and surrounds the caruncle

Question 46

Describe a concave placentome

Answer 46

• Sheep, goat

- Cotyledon sits within the caruncle

Question 47

Describe the placenta found in horses

Answer 47

• Epitheliochorial, diffuse, non-deciduate
• Forms endometrial cups
• Microcotyledons on chorioallantoic memrbane

Question 48

What do the endometrial cups develop from?

Answer 48

Chorionic girdle cells

Question 49

Describe the microcotyledons found in equine placentas

Answer 49

• Fit into mini-crypts in endometrium
• Small collections of villi
• See around week 8 gestation onwards
• Rough appearance of inside of placenta

Question 50

Describe the formation of the chorionic girdle

Answer 50

• Choriovitelline forms in secnd week of pregnancy
• 4th week, chorioallantioc begins to form
• Around 30 days have both together
• Junction between these forms the chorionic girdle
• Yolk sac regresses (mostly disappeared at day 50), leaves girdle

Question 51

What is the function of the chorionic girdle in horses?

Answer 51

Is what implants into the uterus (and forms endometrial cups)

Question 52

Describe teh formation of the endometrial cups

Answer 52

• Cells from girdle invade maternal endometrium
• Destroy epithelium
• Bunch up and form endometrial cups
• Secrete equine chorionic gonadotrophin (eCG)
• LImited life span
• Invade at day 38-40
• Leukocytes gather around edge of cups
• Around day 100, these invade into cups and destroy, slough from lining of uterus

Question 53

Describe the placenta in the dog

Answer 53

• Endotheliochorial
• Zonary
• Deciduate

Question 54

What are the zones of the canine placenta?

Answer 54

• Transfer zone in middle (chorionic villi)

- Pigmented zone either side of transfer zone

Question 55

What is the function of the pigmented zone?

Answer 55

Iron transfer

Question 56

Describe the human placenta

Answer 56

Haemochorial, invasive, deciduate, discoid

Question 57

Describe the decidual tissue of the human placenta

Answer 57

• Endometrial stromal cells proliferate and enlarge to become decidual cells
• Decidua is the maternal placenta and is shed when foetus is delivered
• Decidual tissue important in communication between mother and foetus
• Limits invasion of trophoblasts

Question 58

What fluid predominates in human pregnancy?

Answer 58

Amniotic, not allantoic

Question 59

What are the exchange zones in human placenta?

Answer 59

• Pools of maternal blood in these zones

- Is area where nutrient and waste exchange takes place

Question 60

Between what structures does the umbilical cord run?

Answer 60

Placenta and foetus

Question 61

What does the umbilical vein carry?

Answer 61

From palcenta, carrying oxygenated blood

Question 62

Describe blood flow from the umbilical vein

Answer 62

• From placenta through umbilical vein
• Bypasses liver via ductus venosus, into cauda vena cava, into right atrium, left atrium, aorta , systemic circulation, cranial vena cava, into ventricle ductus arteriosus to bypass pulmonary and back to placenta via umbiliac arteries

Question 63

What are the umbilical arteries derived from?

Answer 63

The interna iliac arteries

Question 64

Where are the umbilical arteries located?

Answer 64

Either side of the foetal bladder

Question 65

What is the true placenta?

Answer 65

The allantochorion

Question 66

How is each piglet a separate unit in utero?

Answer 66

• Uterine horn convoluted forming pockets, each of which contains a piglet
• Each foetus has own foetal membranes
• Each end of the unit is necrotic
• Glue together towards end of pregnancy to form single tube along each horn

Question 67

How is free-martinism avoided in pigs?

Answer 67

• Tips of each piglet unit are necrotic

- Prevents vascular anastomoses between units

Question 68

What colour is the amniotic fluid?

Answer 68

Clear

Question 69

What is the function of hormones produced by the placenta?

Answer 69

Prepare for lactation

Question 70

How long can the uterine tract of the pig get during gestation?

Answer 70

2m long

Question 71

Describe the expulsion of the placenta in the mare at birth

Answer 71

• Foetus breaks through cervial start of placenta, descends into vagina, umbilicus goes with it
• Placenta loosely attached to endometrium and so is pulled inside out

Question 72

What may occur if some of the placenta is retained in mares?

Answer 72

• Bacterial proliferation

- Bacterial toxins enter blood, damage laminae of hoof wall leading to laminitis

Question 73

Differentiate between the amniotic cavity and the allantoic cavity

Answer 73

• Amniotic cavity is between amnion and foetus

- Allantoic cavity is within the allantois

Question 74

Where does the umbilical cord arise?

Answer 74

From bilaminar omphlopleur (bounded by sinus terminalis of conceptus)

Question 75

Describe the vessels within the umbilical cord

Answer 75

• 2 veins fuse to one vein at amnion

- 2 arteries that run into the placenta

Question 76

Where does the umbilical cord enter the foetus?

Answer 76

Via the urachus

Question 77

What happens in the umbilical cord at birth?

Answer 77

• Umbilicus snapped, but is full of arterial blood
• Smooth muscles very responsive to stretch
• Contract to prevent blood loss
• Is irreversible and cuts of blood supply so animal needs to breath for oxygen

Question 78

List the functions of the placenta:

Answer 78

• Replaces the function of adult organs
• Lungs: delivery of gases
• Gut: delivery of nutrients
• Kidney: excretion of waste products
• Liver: storage/reservoir of energy
• Endocrine: placental derived hormones
• Protective: toxic substances, some immune function

Question 79

Describe placental blood flow

Answer 79

Increase in uterine and umbilical blood flow increase as gestation progresses

Question 80

Compare foetal and placental growth during gestation

Answer 80

• Foetus grows in size
• Placenta has some, but limited increase in weight
• Suggests foetal growth related to increased blood flow rather than increased size of placenta

Question 81

Describe the cotyledonary microvascular density as pregnancy progresses

Answer 81

• Increases to match foetal growth
• Vascular density in both compartments of placentome increases
• Dramatic increase in cotyledon, less dramatic increase on caruncular side

Question 82

Broadly, what are the transport mechanisms for nutrients and waste across the placenta?

Answer 82

• Passive

- Active

Question 83

What affects the passive diffusion of gases, fatty acids, alcohol and drugs across the placenta?

Answer 83

• Blood flow (volume and nature)
• Structure (area for exchange)
• Morphology (tissue barriers against exchange, number of layers)
• Electrical gradient (slight, -ve charge encourages +ve charged ions)
• Concentration gradient (maternal to foetal blood gradient for exchange)

Question 84

Compare the pH in adult and foetal blood

Answer 84

Higher [H+] hence lower pH in foetal

- 7.50 vs 7.35

Question 85

Compare partial pressure of oxygen in adult and foetal blood

Answer 85

• Higher partial pressure of oxygen in adult
• Aids diffusion across from adult blood to foetal blood down
  concentration gradient
• 100 vs 25 mmHg

Question 86

Compare oxygen saturation of Hb in adult and foetal blood

Answer 86

• Foetal Hb has higher affinity for oxygen than adult Hb

- Saturation of Hb occurs at lower partial pressures of oxygen (70% vs 95%)

Question 87

Compare partial pressure of Co2 in adult and foetal blood

Answer 87

• Higher in foetus
• Aids diffusion to mother for removal
• 35 vs 50 mmHg

Question 88

Compare amount of Hb in adult and foetal blood

Answer 88

• Higher in adult

- 15 vs 8 g/dl

Question 89

What are the different types of placental blood flow? (going from least to most efficient)

Answer 89

• Concurrent
• Multivillous
• Crosscurrent
• Countecurrent

Question 90

Describe the countercurrent blood flow found in rabbits

Answer 90

• Blood from umbilical artery splits into network of vessels
• Blood from mother flows into distended sinuses that fill with blood
• Maternal blood washes against foetal tissue, blood flows are in oppposite directions to each other
• Facilitates exchange

Question 91

Rank the types of placenta using Grosser classification from lowest to highest transfer efficiency

Answer 91

• Epitheliochorial
• Endotheliochorial
• Haemochorial
• I.e. more layers = less efficient transfer

Question 92

Describe the electrochemical gradient of the placenta

Answer 92

• Generated by endometrium and placenta
• May influence mineral transfer
• Is given with respect to maternal fluid
• Varies by species

Question 93

Explain how the concentration used for glucose transfer is established

Answer 93

• INcreased O2 consumption later in gestation
• Drives increased gradient to encourage further maternal glucose transfer to foetus
• In maternal blood, higher glucose than foetus
• Increased energy useage maintains steep gradient to facilitate transfer

Question 94

What nutrients are transferred using active transport?

Answer 94

Amino acids and glucose

Question 95

What is the active transport of nutrients across the placenta determined by?

Answer 95

• Passive mechanisms

- density and activity of carrier molecules for amino acids and glucose

Question 96

Describe amino acid transport

Answer 96

• Require transport from apical to basal membrane
• 2 stages: uptake, transport into trophoblast, release into foetal circulation
• Capacity, exhcange surface area and density increase with time to meet demands
• Range of transporters present

Question 97

Describe placental glucose transport

Answer 97

• Specific transproters
• GLUT family
• GLUT-1 primary isoform, GLUT-3 important in rats and sheep
• High density of transporters on maternal aspect (microvillous membrane), lower density on basal membrane
• Density on basal membrane is the rate limiting step for transport
• IUGR can be caused by reguced glucose transport due to lack of transproters

Question 98

What is IUGR?

Answer 98

Intra-uterine growth restriction

Question 99

What are the types of anastomoses that can occur leading to Freemartinism?

Answer 99

• Arteriovenous
• Arterio-arterial
• Veno-venous

Question 100

Explain how Freemartinism occurs in cattle

Answer 100

• Anastomosis of allantoic vessels

- Usually single chorionic cavity