11. Clinical Haemostasis and Thrombosis

Question 1

What needs to be balanced for haemostasis?

Answer 1

• Fibrinolytic factors + anticoagulant proteins vs. coagulation factors + platelets

Question 2

How does the balance in haemostasis change during bleeding?

Answer 2

• More coagulation factors + platelets

* Less fibrinolytic factors + anticoagulant proteins

Question 3

What are the characteristics of abnormal bleeding?

Answer 3

• Spontaneous
• Out of proportion to the injury
• Unduly prolonged
• Restarts after appearing to stop

(prolonged nose bleeds: >15min)

Question 4

How does the endothelial cell lining respond to injury?

Answer 4

• Vessel constriction (VSMCs contract locally to limit blood flow)
• Primary haemostasis: formation of an unstable platelet plug to limit blood loss and provide a surface for coagulation
• Secondary haemostasis: stabilisation of the plug with fibrin to stop blood loss
• Vessel repair (cell migration/proliferation) and dissolution of the clot (fibrinolysis)

Question 5

What 3 things can negatively impact the effects of collagen in haemostasis?

Answer 5

• Steroid therapy
• Ageing
• Scurvy

Question 6

What is thrombocytopenia?

Answer 6

A relative decrease in the number of platelets in the blood

Question 7

What is Von Willebrand Factor disease?

Answer 7

• Deficiency in Von Willebrand Factor
• Less primary haemostasis
• Platelets pass the damaged endothelium and can’t form a primary plug

Question 8

What are the patterns of bleeding of a defect in primary haemostasis?

Answer 8

• Immediate
• Easy bruising
• Prolonged nosebleeds
• Prolonged gum bleeding
• Menorrhagia (anaemia)
• Bleeding after trauma/surgery
• Petechiae (specific for thrombocytopenia)

Question 9

What are petechiae?

Answer 9

• Small spots in people who are thrombocytopenic
• Appear spontaneously
• Normally, platelets constantly plug small holes in blood vessels - continuous repair, but this is made difficult

Question 10

Briefly outline secondary haemostasis

Answer 10

• Prothrombin => thrombin
• This converts fibrinogen => fibrin
• Fibrin forms an insoluble mesh around the platelets

Question 11

Why is there are lag in the thrombogram before the rise in thrombin?

Answer 11

Time needed for cofactors and anticoagulant enzymes to be generated

Question 12

How is haemophilia visualised in a thrombogram and why does the condition lead to prolonged bleeding?

Answer 12

• Factor VIII is missing
• Failure of thrombin burst
• Slower increase in thrombin
• Not as much thrombin is produced
• Failure to produce a fibrin mesh is formed - clot is not stabilised
• Left with a primary platelet plug which can fall apart easily

(• Generally fine when dealing with small cuts - primary haemostasis still works)

Question 13

Which coagulation factors does a defect of secondary haemostasis involve?

Answer 13

• I to XIII

Question 14

What are common examples that lead to defects of secondary haemostasis?

Answer 14

• Haemophilia (Factor VIII or IX)
• Liver disease (most coagulation factors are made in the liver)
• Drugs (warfarin inhibits the synthesis of coagulation factors)
• Dilution (volume replacement)
• Consumption (disseminated intravascular coagulation)

Question 15

What is disseminated intravascular coagulation?

Answer 15

• Acquired coagulation disorder (aka consumptive coagulopathy)
• Generalised activation of coagulation (tissue factor is expressed in the blood when it doesn’t need to be)
• Small clots develop throughout the bloodstream
• Consumes and depletes coagulation factors and platelets
• Activation of fibrinolysis depletes fibrinogen
• Associated with sepsis, major tissue damage and inflammation

Question 16

What are the patterns of bleeding of a defect in secondary haemostasis?

Answer 16

• Often delayed
• Prolonged
• Deeper: joints and muscles
• Don’t tend to bleed excessively from small cuts (primary haemostasis is usually enough)
• Nosebleeds are rare
• Bleeding after trauma/surgery
• Bleeding after intramuscular injections
• Easy brusing

Question 17

What is the hallmark of haemophilia?

Answer 17

• Haemarthrosis - bleeding into joints
• Pressure builds up and joints become swollen and painful
• Characteristic of severe haemophilia A and B

Question 18

What are 2 types of excess fibrinolysis?

Answer 18

• Excess fibrinolytic (plasma, tPA) e.g. therapeutic administration, some tumours
• Deficient antifibrinolytic (antiplasmin) e.g. antiplasmin deficiency (genetic)

Question 19

Give examples of anticoagulant excess

Answer 19

• Usually due to therapeutic administration:

• Heparin
• Thrombin inhibitor
• Xa inhibitor

Question 20

What can a thrombosis in the artery and vein cause?

Answer 20

Artery
• Myocardial infarction
• Stroke
• Limb ischaemia

Vein
• Pain and swelling

Question 21

What can a venous and arterial embolism lead to?

Answer 21

• Venous - pulmonary embolism
• Arterial - usually from heart, may cause stroke or limb ischaemia

(right side of the heart goes to the lungs, left side of the heart goes to the brain)

Question 22

What is the prevalence of venous thromboemboli?

Answer 22

• 1 in 1000-10,000 per annum
• Incidence doubles with each decade
• Pulmonary embolism is the cause of 10% of hospital deaths
• Estimated 25,000 preventable deaths per annum

Question 23

What is the case mortality and recurrence of thrombo-embolism?

Answer 23

• Mortality - 5%

* Reccurence - 20% in first 2 years, 4% per annum after

Question 24

Why is the recurrence high after an initial thrombosis?

Answer 24

• Valve system might be damaged
• More stasis
• More likely to have another thrombosis

Question 25

Give 2 consequences of thromboembolism after the initial treatment

Answer 25

• Thrombophlebitic syndrome

* Pulmonary hypertension

Question 26

What is thrombophlebitic syndrome?

Answer 26

• Swelling and ulcers in the leg

* Due to damaged valves in the veins leading to stasis (lack of venous return)

Question 27

What is pulmonary hypertension?

Answer 27

• Circulation in the lungs never return to normal
• Shortness of breath
• Damages the right side of the heart as it has to work harder
• Can lead to heart failure
• High mortality

Question 28

What factors can play a part in increasing the risk of thrombosis?

Answer 28

• Genetic - doesn’t change
• Ageing - gradual increase
• Acquired risk - sharp, sudden increase
• Other things e.g. inflammatory disorders, pregnancy, combined contraceptive pill etc. may enhance the risk
• When this all passes the ‘thrombotic threshold’, you get a thrombosis

Question 29

What does Virchow’s Triad show?

Answer 29

Three contributory factors of thrombosis (inherited or acquired)
• Blood - dominant in venous thrombosis
• Vessel Wall - dominant in arterial thrombosis
• Flow - complex, contributes to both

Question 30

How does a faster blood flow affect thrombosis?

Answer 30

• More activated coagulation factors get swept away

* Lower chance of a thrombus forming

Question 31

What is thrombocytosis?

Answer 31

Increased number of platelets

Question 32

Why is the vessel wall a contributory factor of thrombosis?

Answer 32

• Less is known about the vessel wall as it’s difficult to study
• Many proteins active in coagulation are expressed on the surface of endothelial cells:
- thrombomodulin
- tissue factor
- tissue factor pathway inhibitor
• These proteins can be altered in inflammation caused by malignancy, infection or immune disorders
• Thrombomodulin is down-regulated in the inflammatory state

Question 33

What is thrombophilia?

Answer 33

• Abnormality of blood coagulation
• Increases the risk of thrombosis
• Thrombosis at a young age
• Idiopathic thrombosis (immune system destroys platelets)
• Multiple thromboses
• Thrombosis whilst anticoagulated

Question 34

Why does pregnancy increase the risk of thrombosis?

Answer 34

• Reduced mobility and flow due to the presence of the uterus
• Rise in Factors VII and VIII
• Decrease in Protein S
• Blood becomes more procoagulant

Question 35

Why does malignancy increase the risk of thrombosis?

Answer 35

• Increased inflammation
• Tumour could secrete tissue factor
• Tumour mass could restrict or block blood flow

Question 36

How does the risk of venous thromboembolism change after an operation?

Answer 36

• Risk peaks after about 3 weeks

* Decreases over the following 7/8 weeks

Question 37

How can you lyse a clot (treatment)?

Answer 37

Use tPA (although this increases the risk of bleeding)

Question 38

Name 3 direct procoagulant inhibitors

Answer 38

• Rivaroxaban (Xa)
• Apixaban (Xa)
• Dabigatran (IIa - thrombin)

Question 39

When is thrombolytic therapy given?

Answer 39

• Only when a thrombosis leads to a stroke
• Not done more often due to the increased risk of bleeding
• Could lead to a cerebral haemorrhage so you need to balance the risks

Question 40

Which 2 main treatments can be used to increase anticoagulant and lower procoagulant factors?

Answer 40

• Increase anticoagulant activity - heparin

* Lower procoagulant factors - Warfarin (blocks the production of vitamin K1 which is needed for some clotting factors)

Question 41

Why does combined oral contraceptive therapy increase the risk of thrombosis?

Answer 41

Reduced concentration of Protein S