HAEMOSTASIS AND THROMBOSIS

Question 1

What is primary and secondary haemostasis?

Answer 1

Primary: formation of unstable platelet plug (platelet adhesion and aggregation)

Secondary: Stabilisation of the plug with fibrin (blood coagulation)

Question 2

What are the mechanisms of haemostasis in order?

Answer 2

Vessel constriction - limits blood flow
Primary haemostasis- limits blood loss + provides surface for coagulation
Secondary haemostasis - stops blood loss
Fibrinolysis - restores vessel integrity

Question 3

How can the balance of haemostasis be tipped towards bleeding?

Answer 3

Increased fibrinolytic factors, anticoagulant proteins
Decreased coagulant factors, platelets

Could be lacking a coagulant factor due to failure of production or increased consumption/clearing
Could be defective function of a factor

Question 4

Describe the process primary haemostasis

Answer 4

Platelet binding to VWF on endothelial cells with GPIb
Or
Direct platelet adhesion with GPIa to the collagen

This causes release of ADP, thromboxane and granular contents of platelet activating the platelets

This activates/flipflops the GPIIb/IIIa receptor which binds the platelet to fibrinogen
The fibrinogen links up multiple platelets forming the plug

Question 5

What are the causes of disorder of primary haemostasis ?

Answer 5

Problem with platelets
Problem with VWF
Problem with vessel wall

Question 6

What could cause problems with platelets?

Answer 6

Thrombocytopenia:

• Bone marrow failure e.g. leukaemia, B12 def
• Accelerated clearance e.g. auto ITP
• Pooling and destruction in splenomegaly

Impaired function:

• Hereditary absence of glycoproteins or storage granules
• Acquired due to drugs e.g. aspirin, NSAIDs

Question 7

What occurs in auto-immune thrombocytopenia Purpura (auto-ITP)?

Answer 7

Antiplatelet autoantibodies bind to sensitised platelet which is then phagocytoses my macrophages

Question 8

Name 3 hereditary platelet defects and occurs

Answer 8

Glanzmann’s thromboasthenia - lack of GPIIa
Bernard Soulier syndrome - lack of GPIIb
Storage pool disease - problem with platelet granules

Question 9

When is anti-platelet therapy used?

Answer 9

To prevent cardiovascular and cerebrovascular disease

Question 10

How does aspirin work?

Answer 10

Irreversibly blocks cycle-oxygenase (COX) preventing downstream production of thromboxane A2 and thus platelet aggregation.

Downstream prostacyclin also inhibited but it is also made by endothelial cells so its ok

Effects ~7 days until most platelets been replaced

Question 11

How does clopidogrel work?

Answer 11

Irreversibly blocks ADP receptor on platelets preventing platelet activation

Question 12

What could cause problems with VWF?

Answer 12

Von Willebrand disease

• Hereditary decrease of quantity + function
• Acquired due to antibody (rare)

Question 13

What are the functions of VWF in haemostasis?

Answer 13

Binding to collagen and capturing platelets
Stabilising factor VIII (coagulating)
- low VWF may cause low factor VIII

Question 14

In type 1 and 3 VWD what is the effect on VWF?

Answer 14

Deficiency of VWF

Question 15

In type 2 VWD what is the effect on VWF?

Answer 15

VWF with abnormal function

Question 16

What could cause problems with the vessel wall?

Answer 16

Hereditary haemorrhage telangiectasia Ehlers-Danlos syndrome and other connective tissue disorders

Acquired:

• Steroid therapy (atrophy of collagen)
• Ageing (senile purpura) (atrophy of collagen)
• Vasculitis
• Scurvy (Vit C def causing defective collagen synthesis)

Question 17

Describe how a fault primary haemostasis bleeding typically looks

Answer 17

Immediate
Prolonged bleeding from cuts
Nose blees > 20 min
Gum bleeding prolonged
Menorrhagia
Bruising (ecchymosis)
Prolonged bleeding after trauma/surgery

Question 18

What is the difference between petechiae, Purpura and ecchymosis?

Answer 18

All caused by bleeding under skin

Petechiae < 3mm
Purpura 3-10mm
Eccymosis (bruise) > 10mm

Purpura doesn’t blanch when pressure is applied

Question 19

What are some tests you can carry out for primary haemostasis disorders?

Answer 19

Platelet count, platelet morphology
Bleeding time/PFA100 in lab (platelet function analysis)
Assays of VWF
Clinical observation

Question 20

What would the results of a coagulation screen (prothrombin time, APTT) be in individuals with primary haemostasis disorders?

Answer 20

Normal except for more severe VWD cases where factor VIII is low

Question 21

At what platelet count does severe spontaneous bleeding occur?

Answer 21

< 10 x 10^9/L

Question 22

At what platelet count is spontaneous bleeding common?

Answer 22

< 40 x 10^9/L

Question 23

At what platelet count does no spontaneous bleeding occur, but bleeding with trauma occur?

Answer 23

< 100 x 10^9/L

Question 24

What is the normal range of platelet count?

Answer 24

100 x 10^9/L to 400 x 10^9/L

Question 25

What are the treatments for failure of production/function in primary haemostasis?

Answer 25

Replace missing factor/platelets (prophylactic/therapeutic)

Stop drugs e.g. aspirin/NSAIDs

Question 26

What are the treatments for destruction by immune system in primary haemostasis?

Answer 26

Immunosuppression e.g. prednisolone (steroids)

Splenectomy for ITP

Question 27

What are the treatments for increased consumption in primary haemostasis?

Answer 27

Treat cause of abnormal coagulation

Replaces as necessary

Question 28

What are some additional treatments for abnormal haemostasis?

Answer 28

• Desmopressin (vasopressin analogue, releases endogenous stores of VWF so only useful in mild disorders)
• Tranexamic acid (antifibrinolytic)
• Fibrin glue/spray (during surgery)
• Other approaches e.g. hormonal for menorrhagia

Question 29

What is the role of coagulation in secondary haemostasis?

Answer 29

To generate thrombin (IIa) which converts fibrinogen to fibrin

Question 30

What are the disorders of coagulation which cause a deficiency of coagulation factor production?

Answer 30

Hereditary:

• Haemophilia A (factor VIII)
• Haemophilia B (factor IX)

Acquired

• Liver disease/failure (only VWF and factor V aren’t synthesised in liver)
• Anticoagulant drugs e.g. warfarin, DOACs

Question 31

What are the disorders of coagulation which cause a dilution of coagulation factor?

Answer 31

Blood transfusion (insufficient plasma given causing dilution)

Question 32

What are the disorders of coagulation which cause an increased consumption of coagulation factor?

Answer 32

Acquired:

• Disseminated intravascular coagulation (DIC) - common
• Immune autoantibodies - rare

Question 33

What is the genetics of haemophilia?

Answer 33

Sex linked (1 in 10^4 births)
Others very rare

Question 34

What is haemophilia?

Answer 34

Genetic disease causing a failure to generate fibrin to stabilise platelet plug

Question 35

What is the hallmark of haemophilia?

Answer 35

Haemoarthrosis: spontaneous synovial lining joint bleeding causing significant joint deformity

Usually prophylactic factor replacement therapy should be started at ~ 9 months of age but in developing countries not that common

Question 36

Why should intramuscular injections be avoided in patients with haemophilia?

Answer 36

Causes extensive haematoma

Question 37

If a patient has an absence of factor VIII/IX (haemophilia) how bad is it and what occurs?

Answer 37

Severe but compatible with life

Spontaneous joint and muscle bleeding

Question 38

If a patient has an absence of factor II (prothrombin) how bad is it?

Answer 38

Lethal

Question 39

If a patient has an absence of factor XI how bad is it?

Answer 39

Bleed after trauma but not spontaneously

Question 40

If a patient has an absence of factor XII what occurs

Answer 40

No bleeding at all

Question 41

What is disseminated intravascular coagulation (DIC) and what are its affects?

Answer 41

Generalised activation of coagulation causing excessive consumption and depletion of coagulation factors.

Platelets are also consumed causing thrombocytopenia.

Activation of fibrinolysis depletes fibrinogen and raised D-dimer (breakdown product)

Deposition of fibrin in vessels causing organ failure

Associated with sepsis, major tissue damage and inflammation

Question 42

What are the clinical features of coagulation/secondary haemostasis disorders?

Answer 42

Superficial cuts don’t bleed
Bruising is common, nosebleeds rare
Spontaneous bleeding deep into muscles and joints
Bleeding after trauma may be delayed and is prolonged
Bleeding frequently restarts after stopping

Question 43

List the tests for coagulation disorders

Answer 43

Clotting screen:

• Prothrombin time (PT)
• Activated partial thromboplastin time (APTT)
• Full blood count (platelets)

Coagulation factor assays
Tests for inhibitors

Question 44

Which pathway does the prothrombin time measure and thus which factors?

Answer 44

Extrinsic pathway
Tissue factor (III)
Factor VII

Question 45

Which pathway does the APTT measure and thus which factors?

Answer 45

Intrinsic pathway

Factors I, II, IX, X, XI, and XII

Question 46

If APTT is abnormal and PT normal what could be the cause?

Answer 46

Haemophilia

Question 47

If PT is abnormal and APTT normal what could be the cause?

Answer 47

Factor VII deficiency

Question 48

If both PT and APTT are abnormal what could be the cause?

Answer 48

Liver disease
Anticoagulant drugs
DIC
Dilution

Question 49

What are the different methods for replacing missing coagulation factors?

Answer 49

Fresh frozen plasma (all factors)
Cryoprecipitate (rich in fibrinogen, VWF, VIII, XIII)
Factor concentrates (available for all factors except V)
Recombinant forms of VIII and IX to treat bleeds or as prophylaxis to prevent bleeds

Question 50

What are some novel treatments for haemophilia?

Answer 50

Gene therapy (haem A/B)

Bispecific antibodies (heam A) - mimics procoagulant function of VIII

RNA silencing (haem A/B) - targets natural anticoagulant antithrombin

Question 51

What does pulmonary embolism (PE) present as?

Answer 51

Tachycardia
Hypoxia
Shortness of breath
Chest pain
Haemopysis (coughing blood)
Sudden death

Question 52

What does deep vein thrombosis (DVT) present as?

Answer 52

Painful leg
Swelling
Red
Warm
May embolism to lungs causing PE
Post thrombotic syndrome (long standing damage to valves causing long pain and swelling)

Question 53

What is Virchow’s triad?

Answer 53

Three contributory factors to thrombosis:

• Blood (dominant in venous)
• Vessel wall (dominant in arterial)
• Blood flow (contributes in both)

Question 54

What is thrombophilia?

Answer 54

Increased risk of venous thrombosis

Question 55

How may thrombophilia present?

Answer 55

Thrombosis at young age
Spontaneous thrombosis
Multiple thromboses (recurrent)
Thrombosis whilst anti-coagulated

Question 56

How can the balance of haemostasis be tipped towards venous thrombosis?

Answer 56

Increase coagulant factors/platelets (VIII, II, V Leiden)

Decrease in fibrinolytic factors, anticoagulant proteins (antithrombin, protein C, protein S)

Question 57

Why might coagulant factors/platelets increase?

Answer 57

Myeloproliferative disorders increase platelets

Surgery, cancer or pregnancy can increase clotting factors

Question 58

Why might there be reductions in anticoagulant protein?

Answer 58

e.g. nephrotic syndrome where it leaks out

Question 59

How do protein C and protein S work?

Answer 59

Inactivates factor Va and VIIIa

Question 60

How does antithrombin work?

Answer 60

Inactivates thrombin, factor II and Va

Question 61

Give 3 examples of anticoagulant proteins

Answer 61

Antithrombin
Protein C
Protein S

Question 62

What factor increases risk of venous thrombosis?

Answer 62

Age

Question 63

What are some inherited thrombophilic traits which increase the risk of venous thrombosis?

Answer 63

Anticoagulant deficiency (antithrombin, protein C/S)
Procoagulant excess (factor V leiden, factor VIII, prothrombin (II))

Question 64

How likely are patients with factor V Leiden develop venous thrombosis?

Answer 64

Usually won’t but if they do its with a combination of another event e.g. pregnancy

Question 65

What do we know about the role of the vessel wall in venous thrombosis?

Answer 65

Very little

Question 66

What causes the relationship between thrombosis and inflammation?

Answer 66

Many proteins active in coagulation are expressed on the surface of endothelial cells and their expression altered in inflammation

Question 67

What type of blood flow increases risk of thrombosis and when may this occur?

Answer 67

Reduced flow (stasis) e.g. in surgery, long haul flights and pregnancy

During pregnancy compression from foetus reduces blood flow

Question 68

Describe the causes of venous thrombosis

Answer 68

Multi-causal arising from interacting genetic and acquired risk factors

Question 69

How can venous thrombosis be prevented?

Answer 69

Asses and prevent risks

Prophylactic anticoagulant therapy

Question 70

How can risk of recurrence/extension of venous thrombosis be reduced?

Answer 70

Lower procoagulant factors e.g. warfarin, DOACs

Increase anticoagulant activity e.g. heparin to prevent a fresh clot from forming