Normal Haemostasis

Question 1

What are blood coagulation?

Answer 1

haemostatic response to injury and assists in maintaining theintegrity of the vascular system

Question 2

Where does the coagulation - fibrin clot - usually take place?

Answer 2

surface membrane of a monocyte or platelet

Question 3

What is the first principle of haemostasis?

Answer 3

Require a normal number of normally functioning blood platelets, normally functioning vascular endothelium and functional coagulation cascade

Question 4

What does the vascular endothelium do? (4)

Answer 4

produce prostaglandins and thromboxane ,
regulating tissue factor expression,
control angiogenesis, vascular permeability and vascular tone provide links with inflammatory pathways

Question 5

Waterfall theory of coagulation cascades - what two bits of pathway did this have and what did they both produce?

Answer 5

Intrinsic and extrinsic pathway both producing factor 10

Question 6

Waterfall theory - what starts the intrinsic pathway?

Answer 6

Contact with a surface which activates factor 12 with HMWK and Prekallikrein to make activated factor 12 a.

Question 7

Waterfall theory - what does the activated pathway need?

Answer 7

Tissue factor and activated factor 7 to make activated factor 10 a from factor 10.

Question 8

Waterfall cascade - How many pathways make factor 10 A

Answer 8

2 - extrinsic and intrinsic

Question 9

Waterfall theory - how does the common pathway make thrombin using factor 10a?

Answer 9

Factor Xa as the enzyme, cleaves the substrate, factor II also known as “prothrombin” in the presence of a co-factor, factor Va, enabling the generationof thrombin.

Question 10

Waterfall Theory - what does thrombin do after being produced by this cascade?

Answer 10

cleaves fibrinopeptides from fibrinogen to generate fibrin strands,

Question 11

Waterfall theory - what happens to the fibrin strands after being cleaved from fibrinogen?

Answer 11

Cross-linked by factor 13a to become a fibrin clot

Question 12

Why is the waterfall theory not accurate when reflecting homeostasis in clinical scenarios?

Answer 12

• Patients with factor XII deficiency do not bleed even though they should as the clotting cascade should not work.
• Patients with factor VII deficiency do bleed despite there being a functioning intrinsic pathway e.g. they shouldnt bleed.
• Patients with factors VIII and IXdeficiency have a severe haemorrhagic tendency, yet their extrinsic clotting pathway appears to befunctioning normally,

Question 13

The new theory - what happens after vessel injury?

Answer 13

It will expose tissue factor

Question 14

The new theory - after vessel injury what happens (this is called extrinsic tenase)?

Answer 14

With the tissue factor generated from the vessel injury (aka factor 3) and in the presence of ionised calcium and activated factor 7, factor 10 is converted into activate factor 10a.

Question 15

New theory - What is the self dampening of extrinsic tenase know as and how does it work?

Answer 15

Tissue factor pathway inhibitor which makes a quarternary product with tissue factor, factor 7, 10 and 10aswitching of the pathway.

Question 16

New theory - What does activated factor 10a do?

Answer 16

Catalyses the production of thrombin from prothrombin

Question 17

New theory - How does activated factor 10a make thrombin from prothrombin and what does this require?

Answer 17

Through the macromolecular enzyme complex prothrombinase which required a negatively charged phospholipid surface membrane, ionised calcium and activated factor Va

Question 18

New theory - What does the thrombin that is generated then go on to do?

Answer 18

Cleave fibrinopeptides from fibrinogen to form fibrin monomers. It also allows a short burst of platelet aggregation which enables initial blood clotting to take place.

Question 19

New theory - what type of pathway does activated Xa and thrombin work in?

Answer 19

positive feedback loop

Question 20

New Theory - what does the activated factor 10a and thrombin activate in their positive feedback loop?

Answer 20

activate factor 9

Question 21

New theory - what does the activate factor 9a do in the presence of factor 8, ionised calcium and a phospholipid surface membrane do? And what is this pathway called?

Answer 21

cleave factor 10

intrinsic tenase

Question 22

What is quicker the extrinsic tenase or the intrinsic tenase?

Answer 22

Extrinsic

Question 23

What does intrinsic tenase make?

Answer 23

Factor 10a which helps maintain the thrombin and therefore the fibrin clot.

Question 24

Why do people with factor 8 or 9 (aka haemophilia) bleed slower instead of just bleeding outright after an injury?

Answer 24

They don’t have factor 8 or 9 and therefore the intrinsic tenase does not produce factor 10. However, they are still able to produce factor 10a from the extrinsic tenase and therefore still form a clot. A few hours after an injury they may begin to bleed as the intrinsic tenase maintains the clot as it is not stable and so they may bleed later.

Question 25

What is the treatment for haemophilia?

Answer 25

Replacement of factor 8 or 9

Question 26

Where are factos 8 and 5 found?

Answer 26

In the phospholipid layer

Question 27

What is the role of factor 8 and factor 5?

Answer 27

Find the circulating enzyme - serine protease and the substrate in the phospholipid surface membrane to help with catalytic activity.

Question 28

What do both prothrombinate and intrinsic tenase have in common?

Answer 28

They are both vitamin K dependant serine protease.

Question 29

What is the serine protease for intrinsic tenase?

Answer 29

factor 9a

Question 30

what is the serine protease for prothrombinase

Answer 30

vitamin k dependant factor 10a

Question 31

What is required for surface membrane enzyme complexes?

Answer 31

Calcium Ions and negatively charged phospholipid, with the appropriate ratio of phosphatidyl serine to phosphatidylcholine

Question 32

When would the catalytic advantage be at its highest?

Answer 32

If the full combinations of the components of the complex are present and the appropraite temperature of 37 degrees

Question 33

What domain is on the bottom of the catalytic domain that comes out of the phospholipid layers?

Answer 33

Gla domain

Question 34

How do the two catalytic domains come together to generate factor 10a?

Answer 34

Factor 9 and factor 10 come together enabling the two catalytic domains to come near one another and therefore factor 10a can be generated

Question 35

What would happen if there was mutations in factor 9, 10 or 8a?

Answer 35

The exact structural arrangement cannot take place, it can lead to reduced catalytic efficiency of the enzyme complex.

Question 36

What is the molecular basis of haemophilia?

Answer 36

Reduced amount of factor 8 or genetic mutations in the factor 8 gene or defective factor 9 molecules

Which cause the failure of structural arrangements to bring the catalytic domains together. These therefore results in less factor 10a and then downstream reduced formation of thrombin.

Question 37

What does emicizumab do?

Answer 37

This replaces factor 8a which usually holds the factor 10a and 9 catalytic domains together - this can help those suffering from haemophilia

Question 38

What are the natural inhibitors that prevent the overactivity of the clotting cascade and what they effect?

Answer 38

Tissye factor inhibitor which regulates extrinsic tenase
Antithrombin which controls thrombin and factor 10a, 9a and 11a
Protein C pathway which inhibits factor 5 and factor 8a

Question 39

How does the protein C pathway work?

Answer 39

Through thrombin modulin feedback loops

Question 40

What are the laboratory measurements?

Answer 40

Prothrombin time (PT)
Activated partial thromboplastin time (APTT)
Fibrinogen

Question 41

What does prothrombin time measure?

Answer 41

It is measured in seconds and reflects the extrinsic pathway and the common pathway

Question 42

What does the activated partial thromboplastin time measure?

Answer 42

It is measured in seconds and measures the intrinsic and common pathways

Question 43

What does fibrinogen measure?

Answer 43

Is measured in grammes per litre and reflects the functional activity of the fibrinogen protein.

Question 44

Haemophilia A - what is this?

Answer 44

Its a rare x-linked recessive disorder in males.

Question 45

What causes haemophilia A?

Answer 45

Deficiency of factor 8

Question 46

The clinical severity of haemophilia A relies on what?

Answer 46

The levels of factor 8 you still have (the less you have the worst it is)

Question 47

Symptoms of haemophilia A?

Answer 47

Large bruising after a traumatic bleed (this causes soft tissue bleeds)
Random and acute bleeding into joints.
Swelling
Joint disease - chronic arthropathy caused by repeated bleeding into joints.

Question 48

What causes aquired haemophilia later in life?

Answer 48

Connective tissue problems, malignancy, after pregnancy and skin conditions

Question 49

Where do you bleed in congenital haemophilia?

Answer 49

Joints, muscles and soft tissues

Question 50

Where do you bleed in acquired haemophilia?

Answer 50

Almost everywhere including the retropharyngeal and retroperitoneal spaces, the brain and compartment syndrome (bleeding in between soft tissue planes and between muscle layers)

Question 51

What is ecchymosis?

Answer 51

Extensive bruising in acquired haemophilia

Question 52

What are the2 main categories of thrombosis?

Answer 52

Venous and arterial

Question 53

What are types of venous thrombosis’?

Answer 53

DVT, pulmonary embolus or thrombosis in the cerebral, mesenteric, axillary, splachnic and splenic

Question 54

What are types of arterial thrombosis’?

Answer 54

Myocardial infarction
CVA (stroke)

Question 55

What are treatments for thrombosis’ and inhibitors of blood coagulation?

Answer 55

Anticoagulants

Question 56

How are anticoagulants taken and what are some common ones?

Answer 56

Oral or parenteral

warfarin and heparin

Question 57

How do anticoagulants work?

Answer 57

Act by inhibiting several points in the coagulant cascade.

Question 58

What is the ideal characteristics of an anticoagulant?

Answer 58

Highly predictable anticoagulant profile
Few drug and food interactions
Oral administrations
No need for monitoring
Simple dosing
Reversal antidote

Question 59

What are some natural anticoagulants?

Answer 59

Leech, tick, rhodniin

Question 60

What direct anticoagulant drugs react directly on factor 10a?

Answer 60

Rivaroxaban, apixaban, edoxaban.

Question 61

Where does dabigatran act on?

Answer 61

Thrombin directly

Question 62

Why are direct anticoagulants not really used?

Answer 62

There wasnt many reversal agents however there has been some developed now

Question 63

How does idarucizumab neutralise dabigatraon activity?

Answer 63

It binds free and thrombin bound dabigatran to neutralise its activity. It has immediate onset of action to immediately stop bleeding.

Question 64

How does Andexanet alpha reverse the inhibition of factor 10a?

Answer 64

It is a recombinant human factor 10a decoy protein and can be used against apixaban and rivarox

Question 65

What does DIC stand for?

Answer 65

disseminated intravascular coagulation

Question 66

What is DIC?

Answer 66

An acquired syndrome of systemic intravascular activation of coagulation (thrombin explosion). This leads to fibrin being deposited in the circulation anf tissue ischemia and multi-organ failure.

Question 67

How is severe bleeding induced in DIC?

Answer 67

Consumption of platelets and coagulation factors to generate thrombin to try and stop the DIC

Question 68

How is vascular patency in DIC maintained?

Answer 68

Plasmin is generated in excess leading to fibrinogenolysis (break down of blood clots)

Question 69

What does the aetiology of DIC include? (theres lots of these)

Answer 69

• Sepsis - gram positive or negative bacterial, fungal or parasitic infections
• Tumours - solid malignancies and haematological malignancy (acute promyelocytic leukaemia).
• Trauma - fat embolims, head injury, burns, lightning strikes
• Pancreatitis
• Obstetric - amniotic fluid embolism, abruptio placentae, pre-eclampsia
• Vascular - aortic aneurysm, kasaback meritt syndrome
• Toxic - recreational drugs, snake bugs, bats, caterpillar bites
• Transfusion of ABO incompatible cells.

Question 70

How would you reverse DIC in a pregnancy?

Answer 70

Deliver the baby

Question 71

What can be seen in some cases of DIC in the blood?

Answer 71

Red cells fragaments

Question 72

In DIC what would the lab results show?

Answer 72

Prolonged prothrombin time
Prolonged activated partial thromboplastin time
Low fibrinogen
Raised D-dimer

Question 73

Covid and venous thromboembolism - what caused this despite treatment with anticoagulants?

Answer 73

Overexpression of tissue factor
Endothelial dysfunction
Activation of complement system
Anctivation of contact pathway
Cytokine storm - inducing a pro-inflammatory state

Question 74

What is the main fetures of covid coagulopathy?

Answer 74

Mild thrombocytopenia
High levels of D-dimer
Slight prolongation of Prothrombin time
Elevated factor 8
Elevated fibrinogen

Question 75

In severe cases of covid coagulopathy what might you find?

Answer 75

Microvascular thrombosis
DVT and PE
Herapin resistance