Haem 6: Haemostasis and Bleeding disorders

Question 1

Describe the process of Haemostasis?

Answer 1

1. Damage to endothelium leaves sub-endothelial structures exposed
2. Platelet adhesion:
   DIRECTLY - via Glp1a
   INDIRECTLY - via binding to vWF via Glp1b (More important)
3. This leads to release of mediators ADP and Thromboxane A2 by platelets
4. This promotes platelet aggregation and they attach to each other using the GlpIIb / IIIa receptor (aka fibrinogen recepton - fibrinogen can also bind to this receptor)

Question 2

What are the 3 stages of the coagulations cascade?

Answer 2

1. Initiation
2. Amplication
3. Propagation

Question 3

Outline the initiation phase of the clotting cascade.

Answer 3

Damage to the endothelium results in exposure of tissue factor which binds to factor 7 and activates it to factor 7a

The tissue factor-factor 7a complex then activates factors 9 and 10

Factor 10a binds to factor 5a resulting in the first step of the coagulation cascade

Question 4

Outline the amplification phase of the clotting cascade.

Answer 4

Activated factors 5 and 10 will result in the production of a small amount of thrombin

This thrombin will activate platelets
Thrombin will also activate factor 11 which activates factor 9
Thrombin also activates factor 8 and recruits more factor 5a

Factors 5a, 8a and 9a will bind to the activated platelet

Question 5

Outline the propagation phase of the clotting cascade

Answer 5

Activated factors 5, 8 and 9 will recruit factor 10a

This results in the generation of a large amount of thrombin (thrombin burst)

This enables the formation of a stable fibrin clot

Question 6

List some pro-coagulant factors in the body

Answer 6

Platelets

Endothelium

vWF

Coagulation cascade

Question 7

List some anti-coagulant factors in the body

Answer 7

Fibrinolysis

Anti-thrombins

Protein C/S

Tissue factor pathway inhibitor

Question 8

How can disorders of haemostasis be categorised and what do these mean?

Answer 8

Disorders of primary or secondary haemostasis

• Primary – platelet adhesion and aggregation (quantitative and qualitative defects)
• Secondary – coagulation cascade (inherited and acquired)

Question 9

What are disorders of thrombosis caused by?

Answer 9

Due virchow’s triad

Inherited causes = Factor V leiden, Anti-thrombin deficiency and protein C/S deficiency

Accquired = HIT, malignancy and immobilisation

Question 10

What is Virchow’s triad?

Answer 10

Stasis of blood flow

Endothelial injury

Hypercoagulability

Question 11

What does a dysfunction in primary haemostasis cause? How can this be categorised?

Answer 11

Bleeding disorders (superficial bleeding)

Qualitative defect in platelets – von Willebrand disease

Quantitative defect in platelets – ITP, HIT (heparin induced thrombocytopaenia)

Question 12

What does a dysfunction in secondary haemostasis cause? How can this be categorised?

Answer 12

Coagulation disorders (deep bleeding):

Inherited disorders – haemophilia A, haemophilia B

Acquired disorders – liver disease, vitamin K deficiency

Question 13

What are some causes of platelet disorders ?

Answer 13

Decreased Number (Thrombocytopaenia) ​

• Decreased production  ​
• Decreased survival (ITP) ​
• Increased consumption (DIC)  ​
• Dilution ​

Defective Platelet Function ​

• Acquired (e.g. aspirin, end-stage renal failure)  ​
• Congenital (e.g. thrombasthenia) ​

Question 14

What are the different causes of platelet disorders?

Answer 14

Immune-Mediated ​

• Idiopathic ​
• Drug-induced (e.g. quinine, rifampicin, vancomycin) ​
• Connective tissue disease (e.g. rheumatoid arthritis, SLE) ​
• Lymphoproliferative disease ​
• Sarcoidosis ​

Non-Immune Mediated ​

• DIC ​
• MAHA ​

NB: this isnt really tested that much

Question 15

What is the most common coagulation disorder and how is this inherited?

Answer 15

Von Willebrand disease - AD (mainly) (1/10,000)

Question 16

What are the subtypes of vWD? main symptom?

Answer 16

Type I – AD, quantitative defect

Type II – AD, qualitative defect

Type III – AR, quantitative and qualitative defects

Superficial bleeds eg mucocutaneous bleeding

Question 17

What can ix show in vWD?

Answer 17

↓platelet adhesion, ↓factor VIII (generally vWF prevents VIII breakdown in circulation), abnormal ristocetin

Clotting screen: ↓platelet count, ↑bleeding time, ↑APTT, normal PT

Question 18

What are the differences and similarites between vWD and Haemophilia A?

Answer 18

Very similar to haemophilia A because there is a strong relationship between vWF and factor 8 ​(both go down together)

These cases will both present similarly however in vWD there will be REDUCED PLATELET ADHESION which you would not see in Haemophilia A

Question 19

What are ddx to consider in vWD?

Answer 19

These present similarly however have different findings on ix:
Bernard-Soulier disease (large platelets) and

Glanzmann’s thrombasthaenia (normal ristocetin)

Question 20

Mx of vWD?

Answer 20

Desmopressin, vWF and factor VIII concentrates

Question 21

What is ITP? pathophysiology?

Answer 21

This is when autoantibodies are generated against platelets ​

Platelets tagged by antibodies are then destroyed in the reticuloendothelial system

Causing an immune mediated thrombocytopaenia

Question 22

What are the different types of ITP + who is more likely to get it?

Answer 22

Acute = children 1:1 (m:f)

Chronic (relapsing-remitting disease) = adults 1:3 (m:f)

Question 23

What are the features of acute ITP? mx?

Answer 23

Generally occurs in children with preceding infection

Mx:

• Can be severe but SELF-LIMITING
• Treatment with steroids and IVIG if platelet count ↓↓↓, major bleeding

Question 24

What are the features of chronic ITP? mx?

Answer 24

More likely in adults, 3:1 female ratio

No trigger
Long-term relapsing-remitting

Mx:
Treatment with steroids, IVIG or splenectomy

Question 25

What is Haemophilia A and what is the inheritance?

Answer 25

X-linked recessive, Factor VIII deficiency (intrinsic pathway)

Question 26

What are the clinical features + ix findings in Haemophillia A

Answer 26

Spontaneous, deep bleeding, haemarthrosis (IMPORTANT), lots of bleeding after dental extractions (IMPORANT)

Normal platelet count, normal bleeding time, ↑APTT, normal PT

Question 27

Which Haemophillia is more common A or B? How can you differentiate between these two?

Answer 27

Haemophillia A > B

Clinically there is no way to differentiate - only possible by factor VIII or IX assay

Question 28

What is Haemophilia A mx?

Answer 28

Factor VIII concentrate

Question 29

What is Haemophilia B and what is the inheritance?

Answer 29

X-linked recessive, Factor IX deficiency (intrinsic pathway)

Question 30

What are the key features of Haemophilia B?

Answer 30

Spontaneous, deep bleeding, haemarthrosis (IMPORTANT), lots of bleeding after dental extractions (IMPORANT)

Normal platelet count, normal bleeding time, ↑APTT, normal PT

Question 31

What is Haemophilia B mx?

Answer 31

Factor IX concentrate

Question 32

What is Vitamin K important for?

Answer 32

For synthesis of factors II, VII, IX and X, protein C/S (natural anticoagulants)

Question 33

What are some common causes of vitamin K deficiency?

Answer 33

Secondary to malabsorption, warfarin (MOST COMMON), antibiotic therapy

Question 34

What factor is the first to be depleted in vitamin K deficiency and why?

Answer 34

Factor VII - has the shortest halflife

Question 35

What are the ix findings in vitamin K deficiency? mx?

Answer 35

Ix - Normal platelet count, normal bleeding time, ↑APTT, ↑PT (affects both extrinsic and intrinsic pathways)

Management – vitamin K replacement, PCC (Prothrombin complex concentrate), FFP (Fresh frozen plasma)

Question 36

What are some differentials to consider in vitamin K deficiency?

Answer 36

Differentials include liver disease (↓platelet count), scurvy (corkscrew hair)

Question 37

What is the most common inherited prothombotic disorder? what is its mode of inheritance?

Answer 37

Factor V Leiden - AD

Question 38

What are the key features of Factor V leiden? mx?

Answer 38

Resistance to protein C -> failure to degrade factor V -> hypercoagulable state

Predisposition to venous thromboembolism (arterial thromboembolism rare)

Mx = long-term anticoagulation

Question 39

What is thrombin used for? what opposes this action?

Answer 39

Covert fibrinogen into fibrin hence increases coagulation

Anti-thrombin acts against this and decreases coagulation

Question 40

What is the inheritance of anti-thrombin deficiency?

Answer 40

AD

Question 41

What are the key features of anti-thrombin deficiency?

Answer 41

Carries highest risk of thrombosis - IMPORTANT

Develop thromboembolism in unusual locations (e.g. splenic or mesenteric veins)

Anti-thrombin assay used to make diagnosis

Key differentials include protein C/S deficiency

Question 42

Mx of anti-thrombin / protein C/S deficiency?

Answer 42

Management – long-term anti-coagulation with warfarin(AVOID WARFARIN IN PROTEIN C/S) and argatroban

Question 43

Which patients are most likely to suffer from warfarin-induced skin necrosis?

Answer 43

Protein C/S deficiency - Paradoxical blood clotting.
Blood clots block the blood vessels and cause necrosis, where an area of skin is destroyed.

Question 44

Inheritance of Protein C/S deficiency?

Answer 44

Autosomal dominant

Question 45

A 19-year-old boy comes in with an acutely swollen knee. He does not recollect any trauma.

He has been known to have history of bleeding after dental extraction. What is the most likely factor deficiency?

Factor X
Factor VII
Factor IX
Factor VIII
Factor XI

Answer 45

Factor VIII - Haemophilia is the dx A or B

A is way more common, no way to clinically distinguish

Question 46

What is the most common inherited Thrombophilia?

VWD
Hereditary Activated Protein C Resistance
Anti-Thrombin Deficiency
Hemophilia B
Protein S Deficiency

Answer 46

Hereditary Activated Protein C Resistance - This is simply there to throw you off -> it’s referring to Factor V Leiden

Question 47

Describe the extrinc,intrinsic and common pathways of coagulation

Answer 47