Heritable bleeding disorders

Question 1

What are the primary and secondary stages in haemostatic plug formation?

Answer 1

Primary - platelet aggregation

Secondary - coagulation cascade forming a fibrin clot which stabilises the platelet plug

Question 2

What are the 3 basic steps in platelet adhesion and activation?

Answer 2

1) Sight of vascular injury which platelets adhere to (via vWF which sticks to collagen in vessel wall)
2) As they adhere to the damaged endothelium they become activated
3) Activated platelets activate other platelets and they aggregate into a thrombus

Question 3

How are clotting screen tests carried out?

Answer 3

Get rid of the cells from the blood so you are left with just plasma and activate the plasma by adding a reagent - time from when reagent added to fibrin clot formation (also add calcium as many of the reactions are calcium dependent)

Question 4

What does the thrombin time measure?

Answer 4

The time taken for thrombin to cleave fibrinogen to fibrin

Question 5

Which clotting factor cleaves pro-thrombin?

Answer 5

Factor 10a along with 5a which acts as a co factor

Question 6

On what 2 surfaces does a lot of the clotting cascade take place?

Answer 6

1) Tissue factor bearing cells

2) Activated platelets

Question 7

In vivo what is the role of the intrinsic pathway?

Answer 7

More of an amplification process

Question 8

What is the sequence of the intrinsic pathway?

Answer 8

12-11-9-8

Common pathway 5 and 10 cleave prothrombin to thrombin which cleaves fibrinogen to fibrin

Question 9

How is the extrinsic pathway activated?

Answer 9

TF activates 7 and TF-7a complex combine to cleave 10 to 10a

Question 10

Platelets and clotting factors are the 2 procoagulants, name the 4 anti-coagulants?

Answer 10

1) Protein C
2) Protein S
3) Anti-thrombin 3
4) Fibrinolytic system

Question 11

Which enzyme breaks down fibrin?

Answer 11

Plasmin (from plasminogen)

Question 12

Which enzyme cleaves plasminogen?

Answer 12

Tissue plasminogen activator - an enzyme from the tissues

Question 13

Name an enzyme involved in mopping up extra plasmin?

Answer 13

alpha 2 anti plasmin

Question 14

Do congenital bleeding disorders often involve a single defect or multiple?

Answer 14

A single defect

Question 15

Do acquired bleeding disorders often involve a single defect or multiple?

Answer 15

Multiple

Question 16

People with defects in the primary coagulation pathway (platelets) tend to have what sort of bleeding pattern?

Answer 16

Bleeding into mucosa/skin, GI bleeding, menorrhagia, epistaxis, easy bleeding

Question 17

People with defects in the secondary coagulation pathway (clotting factors) tend to have what sort of bleeding pattern?

Answer 17

Deep muscular and joint bleeds and bleeding following trauma

Question 18

What are the 4 types of platelet/vessel wall defects (all of which give rise to a prolonged bleeding time)?

Answer 18

1) Reduced number of platelets (thrombocytopenia)
2) Abnormal platelet function (nb, drugs/aspirin)
3) Abnormal vessels wall
4) Abnormal interaction between platelets and vessel wall (von willebrand disease)

Question 19

What is a petechial rash?

Answer 19

Small red dots in the skin which don’t blanch when you press them caused by bleeding into the skin

Question 20

‘Petechiae and superficial bruises’ v ‘deep spreading haematoma’ - which is likely to be a coagulation defect and which a wall/platelet defect?

Answer 20

Petechiae and superficial bruises - platelets

Deep spreading haematoma - coagulation

Question 21

‘skin and mucous membranes bleeding’ v ‘haemarthrosis’ - which is likely to be platelets/wall and which coagulation?

Answer 21

Skin and mucous membranes - vascular/ platelet

Haemarthrosis - coagulation

Question 22

‘Spontaneous bleeding’ v ‘retroperitoneal bleeding’ which is likely to be platelets/wall and which coagulation?

Answer 22

Spontaneous bleeding - platelets

Retroperitoneal bleeding - coagulation

Question 23

‘Bleeding prolonged and often recurrent’ v ‘bleeding immediate, prolonged and non recurrent’ - which is likely to be platelets/wall and which is coagulation?

Answer 23

Bleeding prolonged and recurrent - coagulation

Bleeding immediate, prolonged and non recurrent - wall/platelets

Question 24

Are petechiae palpable?

Answer 24

No

Question 25

What is the role of vWF?

Answer 25

Facilitates adhesion of platelets to vessel wall and under high shear conditions promotes platelet aggregation

Question 26

Where is VWF synthesised?

Answer 26

Endothelial cells

Question 27

How many types of von willebrand disease exist?

Answer 27

3

Question 28

What is the structure of vwf?

Answer 28

Multimeric protein (made up of many multimers)

Question 29

What are the 3 types of VW disease, what is the defect in each?

Answer 29

1) Mild type 1 - reduced production of normal molecule (less severe)
2) Type 2 - normal amount of abnormally structured vWF (likely missing the high molecular weight multimers important in adhesion)
3) Type 3 - complete absence of vWF (very severe)

Question 30

Do people with VW disease always have a genetic abnormality?

Answer 30

People may have reduced VWF due to increased clearance of the protein, this is not referred to as VW disease as no genetic abnormality exists, instead it is referred to as reduced VWF which is a risk factor for bleeding

Question 31

Aswell as platelet adhesion what is the other important function of VWF?

Answer 31

Carries factor VIII around the blood stream, without VWF factor 8 has a short half life in the bloodstream

Question 32

Due to the effect on Factor 8 do patients with VW disease present with the symptoms of coagulation defects?

Answer 32

This is very rare

Question 33

What is the most common heritable bleeding disorder?

Answer 33

VW disease

Question 34

What is the pattern of inheritance of VW disease?

Answer 34

Mainly autosomal dominant

Question 35

Do patients with VW disease have reduced factor 8 levels?

Answer 35

Some do but the levels are variable between patients

Question 36

Which blood group has lower levels of VW disease?

Answer 36

Group O

Question 37

What type of bleeding occurs in VW disease? 2

Answer 37

1) Mucocutaneous bleeding including menorrhagia

2) Post operative and post partum bleeding

Question 38

Why is diagnosis of mild types VW disease difficult?

Answer 38

There is variable penetrance for mild types and presentations vary greatly

Question 39

What is the treatment for VW disease? 5

Answer 39

1) Anti-fibrinolytics: tranexamic acid
2) DDAVP (desmopressin) for type 1 vWD - releases vWF from cells causing a temporary rise in vWF in mild disease
3) Factor concentrates containing vWF
4) Vaccination against hepatitis
5) COCP for menorrhagia

Question 40

What is haemophilia A?

Answer 40

Deficiency of factor 8

Question 41

What is haemophilia B?

Answer 41

Deficiency of factor 9

Question 42

What is the inheritance pattern of haemophilia A and B?

Answer 42

Sex linked recessive

Question 43

Aswell as the haemophilias, what 2 factors is it more common to become deficient in and what is the pattern of inheritance?

Answer 43

12 and 11

Autosomal

Question 44

Is it common to become deficient in factors 1,2,5,7,10 and 13?

Answer 44

No, its very rare

Question 45

Which clotting test would you expect to be prolonged in the haemophilias and why?

Answer 45

Prolonged APTT as both 8 and 9 are part of the intrinsic pathway which affects the APTT

Question 46

Which is more common haemophila A or B?

Answer 46

A - affects 1 in 5000 males

B - only affects 1 in 30,000 males

Question 47

Does haemophilia affect males and females?

Answer 47

As it sex linked recessive it is typically expressed in males and carried by females

Question 48

How predictable is the severity of haemophilia when it is passed on?

Answer 48

Severity level is consistent between family members

Question 49

What percentage of cases of haemophilia are new mutations?

Answer 49

30%

Question 50

How are mild, moderate and severe haemophilia classified?

Answer 50

Mild - factor 8 or 9 level = 6-50%
Moderate - factor 8 or 9 level = 1-5%
Severe - factor 8 or 9 level =

Question 51

What are the 5 types of bleed which can occur in haemophilia?

Answer 51

1) Spontaenous/ post traumatic
2) Joint bleeding = haemarthrosis
3) Muscle haemorrhage
4) Soft tissue
5) Life threatening bleeding

Question 52

What are the 6 treatments for haemophilia?

Answer 52

1) Replacement of missing clotting protein - on demand or prophylaxis
2) DDAVP (desmopressin) - for mild/moderate Haemophilia A
3) Factor concentrates - recombinant are products of choice
4) Antifibrinolytic agents
5) Vaccination v hep A and B
6) Supportive measures - icing, immobilisation, rest

Question 53

What are the 4 possible transfusion transmitted infections which are potential compications of haemophilia treatment?

Answer 53

Transfusion transmitted infection:

1) Hepatitis
2) HIV
3) Parvovirus
4) vCJD

Question 54

What is one of the biggest complications of haemophilia treatment?

Answer 54

Development of an inhibitor - Ab against factor 8 or 9 which renders treatment with recombinant factors useless

Question 55

What is the incidence of inhibitor development, is it more common in haemophilia A or B?

Answer 55

Haemophilia A

Occurs in 25% of haemophilia A patients

Question 56

Can inhibitor development be treated?

Answer 56

A potential treatment is eradication of the inhibitor using immune tolerance

Question 57

When in the course of treatment does inhibitor development tend to occur?

Answer 57

Early in exposure - within the first 10 days

Question 58

What are the 9 possible investigations in a patient with a suspected bleeding disorder?

Answer 58

1) FBC and blood film
2) Coagulation screen and Clauss fibrinogen
3) Mixing studies if abnormal results
4) VW profile
5) Coagulation factor assays
6) Inhibitor assays in some cases
7) Platelet function tests
8) In all normal and suspicion remains then factor 8 assays and assay of alpha2 antiplasmin

Question 59

If a patient has a normal coagulation screen but experiencing bleeding, what are the 7 possible diagnoses?

Answer 59

1) Thrombocytopenia
2) Disorder of platelet function
3) vWD
4) Factor 8 deficiency
5) Mild coagulation factor deficiency
6) Vascular disorder
7) Disorder of fibrinolysis: rare