Haemostasis

Question 1

What is haemostasis?

Answer 1

“the cellular and biochemical processes that enables both the specific and regulated cessation of bleeding in response to vascular insult”

Question 2

Why is haemostasis important?

Answer 2

Needed for the:
- Prevention of blood loss from intact vessels
- Arrest bleeding from injured vessels
- enable tissue repair

Question 3

Describe the mechanism of haemostasis following injury to endothelial cell lining

Answer 3

1. Vessel constriction:
   Vascular smooth muscle cells contract locally
   Limits blood flow to injured vessel
2. PRIMARY HAEMOSTASIS: Formation of an unstable platelet plug:
   platelet adhesion
   platelet aggregation
   Limits blood loss + provides surface for coagulation
3. SECONDARY HAEMOSTASIS: Stabilisation of the plus with fibrin:
   blood coagulation
   Stops blood loss
4. FIBRINOLYSIS: Vessel repair and dissolution of clot:
   Cell migration/proliferation & fibrinolysis
   Restores vessel integrity

Question 4

Why do we need to understand haemostatic mechanisms?

Answer 4

Diagnose and treat bleeding disorders

Control bleeding in individuals who do not have an underlying bleeding disorder

Identify risk factors for thrombosis

Treat thrombotic disorders

Monitor the drugs that are used to treat bleeding and thrombotic disorders

Question 5

Normal haemostasis is a delicate balance between what 2 factors?

Answer 5

1. Fibrinolytic factors: anticoagulant proteins (bleeding)
2. Coagulant factors: platelets (thrombosis)

Question 6

What can cause the balance of haemostasis to tipp towards bleeding?

Answer 6

Increased fibrinolytic factors and/ or Coagulation factor deficiencies:
1. Lack of a specific factor:
- Failure of production: congenital and acquired
- Increased consumption/clearance
2. Defective function of a specific factor:
Genetic
- Acquired: drugs, synthetic defect, inhibition

Question 7

List the disorders of primary haemostasis associated with the platelets

Answer 7

1. PLATELETS
   - Low numbers: thrombocytopenia
   * Bone marrow failure eg: leukemia, B12 deficiency (bone marrow infiltrated by leukemic cells or megaloblasts in Vit B12 deficiency)
   * Accelerated clearance eg: immune (ITP), Disseminated Intravascular Coagulation (DIC)
   (platelets destroyed in the peripheral circulation)
   *Pooling and destruction in an enlarged spleen
   (splenomegaly)
   - Impaired function
   * Hereditary absence of glycoproteins or storage granules (rare)
   * Acquired due to drugs: aspirin, NSAIDs, clopidogrel (common)

Question 8

What is Immune Thrombocytopenic Purpura (ITP)

Answer 8

Condition where the immune system mistakenly attacks and destroys platelets
- Antiplatelet auto-antibodies bind to platelets -> sensitised platlets
- the sensitised platelets are cleared by the macrophages of the reticulo-endothelial system in the spleen
- ITP is a very common cause of thrombocytopenia

Question 9

What are the different types of hereditary Platelet defects?

Answer 9

1. Glanzmann’s thrombasthenia= absence of the GPIIbIIa receptor on platelets
2. Bernard Soulier syndrome= resulting from an absence of GpIb receptors
3. Storage Pool disease= Refers to reduction in the granular contents of platelets (dense granules)

Question 10

What antiplatelet therapy is used to treat cardiovasuclar/ cerebrovascular disease?

Answer 10

1. Aspirin
2. Clopidogrel

Question 11

Describe the mechanism of action of aspirin

Answer 11

• Inhibits the production of thromboxane A2
• by irreversibly blocking the action of Cyclo-oxygenase (COX)
• Resulting in reduction in platelet aggregation
• Effects of aspirin last for 7 days until most f the platelets present at the time of ingestion have been replaced by new platelets

Question 12

Describe the mechanism of action of Clopidogrel

Answer 12

• Irreversibly blocks the ADP receptor P2Y12, which is on the platelet cell membrane

Question 13

List the disorders of primary haemostasis associated with Von Willebrand factor:

Answer 13

Von Willebrand disease: (VWF is reduced or defective)
* Hereditary decrease of quantity +/ function (common)
* Acquired due to antibody (rare)
* VWF has two functions in haemostasis:
- Binding to collagen and capturing platelets
- Stabilising Factor VIII (Factor VIII may be low if VWF is very low)
* VWD is usually hereditary (autosomal inheritance pattern):
- Deficiency of VWF (Type 1 or 3)
- VWF with abnormal function (Type 2)

Question 14

List the disorders of primary haemostasis affecting the vessel walls

Answer 14

1. Inherited (rare) Hereditary haemorrhagic telangiectasia Ehlers-Danlos syndrome and other connective tissue disorders
   - usually caused by abnormalities in collagen
2. Acquired (common):

• Steroid therapy (can develop atrophy of the collagen fibres supporting blood vessels in the skin)
• Ageing (‘senile’ purpura) (dark purple well defined margins which don’t undergo the color changes of a bruise and can take up to 3 weeks to resolve; most commonly distributed on the extensor surfaces of forearms and the dorsal aspects of hands)
• Vasculitis, Scurvy (Vitamin C deficiency) (leads to defect in collagen synthesis leading to weakening of the capillary walls)

Question 15

What are the clinical features of disorders of primary haemostasis?

Answer 15

1. Typical primary haemostasis bleeding:
   - Immediate
   - Prolonged bleeding from cuts
   - Nose bleeds (epistaxis):prolonged > 20 mins
   - Gum bleeding: prolonged
   - Heavy menstrual bleeding (menorrhagia)
   - Bruising (ecchymosis), may be spontaneous/”easy bruising”- bruising in response to minimal trauma
   - Prolonged bleeding after trauma or surgery
2. Thrombocytopenia – Petechiae
3. Purpura – platelet (thrombocytopenic purpura) or vascular disorders
   (Petechiae and Purpura are caused by bleeding under the skin & Purpura do not blanch when pressure is applied)
4. Severe VWD – haemophilia-like bleeding (due to low FVIII)
5. Increased skin elasticity in connective tissue disorders

Question 16

What are the tests for disorders of primary haemostasis?

Answer 16

1. Platelet count, platelet morphology (need an electron microscope- not visiible under light)
2. Bleeding time (PFA100 in lab)
3. Assays of von Willebrand Factor
4. Clinical observation (e.g high elasticity/ bruising)
5. Note –coagulation screen (PT, APTT) is normal (in disorders of primary homeostasis, except more severe VWD cases where FVIII is low)

Question 17

What is the platelet count/ threshold for Thrombocytopenia that result in bleeding?

Answer 17

• 40-100 (x10 to the power 9/L)= No spontaneous bleeding, but bleeding with trauma
• 10-40 (x10 to the power 9/L)= Spontaneous bleeding common
• <10 (x10 to the power 9/L)= Severe spontaneous bleeding

Question 18

What are the treatment options for abnormal haemostasis?

Answer 18

• Failure of production/function
  1. Replace missing factor/platelets e.g. VWF containing concentrates: (this can be given as a preventative measure e.g. for patients with severe VWF disease before an operation OR to treat bleeding)
  i) Prophylactic
  ii) Therapeutic
  2. Stop drugs e.g. aspirin/NSAIDs
• Immune destruction
  3. Immunosuppression (e.g. prednisolone)
  4. Splenectomy for ITP
• Increased consumption
  5. Treat cause
  6. Replace as necessary
  7. Desmopressin (DDAVP):
• Vasopressin analogue
• 2-5 fold increase in VWF (and FVIII)
• releases endogenous stores (so only useful in mild disorders)
  8. Tranexamic acid (antifibrinolytic- increases factor 8)
  9. Fibrin glue/ spray
  10. Other approaches e.g hormonal (oral contraceptive pill for menorrhagia- heavy menstrual bleeding)

Question 19

Describe the general mechanism of action which would lead to disorders in secondary haemostasis

Answer 19

• The role of coagulation is to generate thrombin (IIa), which will convert fibrinogen to fibrin
• Deficiency of any coagulation factor results in a failure of thrombin generation and hence fibrin formation

Question 20

What can tip the haemostasis balance towards bleeding?

Answer 20

Coagulation factor deficiencies (and increase in fibrinolytic factors/ anti-coagulation proteins)

Question 21

What are the different disorders of coagulation?

Answer 21

1. Deficiency of coagulation factor production
   - Hereditary: Factor VIII/IX: haemophilia A/B
   - Acquired:
   * Liver disease
   * Anticoagulant drugs (warfarin, Direct Oral Anticoagulants DOACs)
2. Dilution
   - Acquired:
   * blood transfusion (lots of RBCs are transfused but with insufficient plasma= dilution of coagulation factors)
3. Increased consumption
   - Acquired:
   * Disseminated intravascular coagulation (DIC)- common
   * (Immune – autoantibodies – rare)

Question 22

What are the hereditary coagulation disorders for disorders in secondary haemostasis?

Answer 22

“Haemophilia: failure to generate fibrin to stabilise platelet plug”
- Haemophilia A (Factor VIII deficiency)
- Haemophilia B (Factor IX deficiency):
* sex linked (X linked)
* 1 in 104 births
- Others are very rare (autosomal recessive)

Question 23

What are the hallmarks for hemophilia?

Answer 23

• Haemarthrosis= spontaneous joint bleeding
• Occurs when factors 8 or 9 are low
• Chronic haemarthrosis= Bleeding into a joint
• Muscle wasting (weakening, shrinking, and loss of muscle)

Question 24

What caution must be taken with patients with haemophilia in terms of the use of medical instruments?

Answer 24

Intramuscular injections should be avoided in patients with haemophilia

Question 25

Coagulation factor deficiencies are not all the same, compare the effects of each deficiency

Answer 25

1. Factor VIII and IX (Haemophilia) =
   - Severe but compatible with life
   - Spontaneous joint and muscle bleeding
2. Prothrombin (Factor II) =
   - Lethal
3. Factor XI =
   - Bleed after trauma but not spontaneously
4. Factor XII =
   No bleeding at all

Question 26

What are the acquired coagulation disorders, seen with disorders of secondary haemostasis?

Answer 26

1. Liver failure – decreased production
   - Most coagulation factors are synthesised in the liver (except VWF that is synthesised in the endothelial cells lining blood vessels & factor V- synthesised in platelets)
2. Anticoagulant drugs
3. Dilution
   - Red cell transfusions no longer contain plasma
   - Major haemorrhage requires transfusion of plasma as well as red cells and platelets
   (More common in hospital practice)

Question 27

What is meant by the coagulation disorder “increased consumption”?

Answer 27

• Acquired disease
  1. Disseminated intravascular coagulation- common=
• Generalised activation of coagulation – Tissue factor
• Associated with sepsis, major tissue damage, inflammation
• Consumes and depletes coagulation factors
• Platelets consumed - thrombocytopenia
• Activation of fibrinolysis depletes fibrinogen – raised D-dimer (a breakdown product of fibrin)
• Deposition of fibrin in vessels causes organ failure (can also result in shearing of the RBCs that flow through these vessels- leading to red cell fragmentation)
  2. (Immune- auto-antibodies- rare) e.g. ITP

Question 28

What are the clinical features of coagulation disorders?

Answer 28

• superficial cuts do not bleed (platelets working fine/ platelet plug forming as usual- larger blood vessels causes platelet plug to fall apart- which is normal)
• bruising is common, nosebleeds are rare
• spontaneous bleeding is deep, into muscles and joints
• bleeding after trauma may be delayed and is prolonged
• Bleeding frequently restarts after stopping

Question 29

How can “Increased consumption”- this aquired disorder of secondary haemostasis be prevented?

Answer 29

Only way to switch off this process is to treat the underlying cause but it may be necessary to first use supportive treatment (e.g. replacing CFs- giving FFP and platelets)

Question 30

What is the clinical distinction between bleeding due to Platelet vs Coagulation defects?

Answer 30

Platelet/Vascular:
- Superficial bleeding into skin, mucosal membranes
- Bleeding immediate after injury
Coagulation:
- Bleeding into deep tissues, muscles, joints
- Delayed, but severe bleeding afterinjury.
- Bleeding often prolonged

Question 31

What are the tests for coagulation disorders?

Answer 31

1. Screening tests (‘clotting screen’):
   - Prothrombin time (PT)
   - Activated partial thromboplastin time (APTT)
   - Full blood count (platelets)
2. Coagulation factor assays (for Factor VIII etc)
3. Tests for inhibitors

Question 32

How are “Screening tests” conducted?

Answer 32

1. Measure APTT AND PT
   Aim= to measure the “Activated partial thromboplastin time” (APTT)- measures the ‘Intrinisic’ pathway
   * We trigger this with contact activation using glass, silica acid or ellagic acid
   Aim= to measure the “Prothrombin time” (PT)- measures the ‘Extrinsic’ pathway
   * We trigger this using a form of tissue factor- recombinant
2. Compare with normal
   PT (9.6-11.6s)
   APTT (26-32s)
3. interpret

Question 33

What deficiency is likely if PT is high, and APTT is normal?

Answer 33

Factor VII deficiency

Question 34

What deficiency is likely if PT is low, and APTT is high?

Answer 34

Haemophilia A
Haemophilia B
Factor XI deficiency
Factor XII deficiency

Question 35

What disease is likely if PT is high and APTT is high?

Answer 35

Liver disease
Anticoagulant drugs e.g. warfarin
DIC (platelets and D dimer)
Dilution following red cell transfusion

Question 36

What different factor replacement therapies are there for treating missing coagulation factors?

Answer 36

• Plasma (fresh frozen plasma FFP)
• Contains all coagulation factors
• Cryoprecipitate
• Rich in Fibrinogen, FVIII, VWF, Factor XIII
• Factor concentrates
• Concentrates available for all factors except factor V.
• Prothrombin complex concentrates (PCCs) Factors II, VII, IX, X
• Recombinant forms of FVIII and FIX are available
• ‘On Demand’ to treat bleeds
• Prophylaxis to prevent bleeds

Question 37

What are the novel treatment options for haemophilia?

Answer 37

1. Gene therapy (Haem A and B)
2. Bispecific antibodies (Haem A):
   - Emicizumab
   - Binds to FIXa and FX
   - Mimics procoagulant function of FVIII
3. RNA silencing (Haem A and B):
   - Targets natural anticoagulant - antithrombin

Question 38

How do disorders of thrombosis present?

Answer 38

VENOUS THROMBOSIS: 2 examples
1. Pulmonary embolism (PE)
Tachycardia
Hypoxia
Shortness of breath
Chest pain
Haemopysis
Sudden death
2. Deep vein thrombosis (DVT)
Painful leg
Swelling
Red
Warm
May embolise to lungs
Post thrombotic syndrome
- Most people die with a ‘haemostatic end-point’

Question 39

What are the features of thrombosis?

Answer 39

“the formation of a blood clot”
- Intravascular coagulation
- Inappropriate coagulation
- Venous (or arterial)
- Obstructs flow
- May embolise to lungs

Question 40

What is “Virchow’s triad”?

Answer 40

Implicates the 3 contributing factors in the formation of thrombosis:
1. Blood: dominant in venous thrombosis
2. Vessel wall: dominant in arterial thrombosis
* Many proteins active in coagulation are expressed on the surface of endothelial cells and their expression altered in inflammation (TM, EPCR, TF)
3. Blood flow: contributes to both arterial and venous thrombosis
* Reduced flow (stasis) increases the risk of thrombosis
e.g. surgery, long haul flight, pregnancy

Question 41

What is thrombophilia?

Answer 41

Thrombophilia means blood has an increased tendency to form clots= Increased risk of venous thrombosis
- Can be congenital or acquired

Question 42

How might thrombophilia present?

Answer 42

Thrombosis at young age (risk increases with age)
‘spontaneous thrombosis’
Multiple thromboses
Thrombosis whilst anticoagulated

Question 43

What can cause the haemostasis balance to tip towards venous thrombosis?

Answer 43

Increased coagulant factors/ platelets:
- Factor VIII
- Factor II
- Factor V Leiden (increase activity due to activated protein C resistance)
- Myeloproliferative disorders (plts increase)

OR

decreased fibrinolytic factors/ anticoagulant proteins:
- Antithrombin
- Protein C
- Protein S

Question 44

Which anticoagulant deficiency has the most powerful effect of causing venous thrombosis?

Answer 44

Antithrombin

Question 45

Venous thrombosis is Multi-Causal Arising from Interacting Risk Factors- what type of risk factors:

Answer 45

• Genetic
• Acquired risk
• Cumulative risk= people may have always had an underlying genetic risk, but it only manifests later OR when some other environmental factor comes along
• Risk of ageing

Question 46

What are the treatment options for venous thrombosis?

Answer 46

1. Prevention
   - Assess and prevent risks: (patients receive “thromboprophylaxis- prevents thrombosis unless there’s a reason not to, e.g. high bleeding risk)
   - Prophylactic anticoagulant therapy
2. If thrombosis does occur, reduce risk of recurrence/extension (embolising):
   - lower procoagulant factors e.g.: warfarin, DOACs
   - increase anticoagulant activity e.g: heparin