13- Disorders of Blood Coagulation

Question 1

what is clotting?

Answer 1

a tightly regulated localised process

stops bleeding at the site of injury and keeps pathogens from entering the wound

Question 2

what is a clot?

Answer 2

a localised plug formed from a mesh of cross-linked fibrin and aggregated platelets to prevent blood loss

Question 3

what is primary haemostasis?

Answer 3

process for the formation of the platelet plug

Question 4

what is secondary haemostasis?

Answer 4

formation of the fibrin clot

Question 5

what is VWF?

Answer 5

von-Willebrand factor - released by blood vessel endothelium
- important in platelet adhesion by binding to exposed collagen

Question 6

where is VWF stored?

Answer 6

in specialised structures called Weibel-Palade bodies in vessel endothelial cells

Question 7

what is the coagulation cascade?

Answer 7

a series of enzymatic reactions that lead to thrombin formation - activates fibrin and the formation of the fibrin mesh

Question 8

describe primary haemostasis

Answer 8

damage/ injury to vessel exposes subendothelial collagen - endothelial cells release VWF

VWF binds to exposed collagen - platelets have both VWF and collagen receptors = platelets bind to both and become activated (platelet activation)

activate platelets attract more platelets to site of injury (platelet aggregation) - form platelet plug

Question 9

describe secondary haemostasis

Answer 9

tissue factor is expressed on subendothelial vessel cells - exposed upon damage/ injury

tissue factor binds to factor VIIa - becomes a complex, activates coagulation cascade

TF-VIIa complex activate more factors
- factor X converted to factor Xa by tenase enzyme
- factor II/ prothrombin converted to factor IIa/ thrombin

thrombin converts fibrinogen to fibrin - fibrin forms cross-linked mesh with platelets and RBCs = forms a stable clot

Question 10

describe the amplified production of thrombin

Answer 10

thrombin activates platelets - platelets release factors VIIa and Va

factor Va, Ca2+ ions and thrombin together form a Ca2+ dependent prothrombinase

prothrombinase catalyses prothrombin to thrombin conversion = more thrombin produced/ amplified to convert fibrinogen to fibrin

Question 11

what is fibrinolysis?

Answer 11

dissolving/resolving a clot from the site of injury

Question 12

describe the process of fibrinolysis

Answer 12

inactive plasminogen in the clot is converted into active plasmin by tissue plasminogen activator (tPA) in vessel endothelial cells

plasminogen to active plasmin - plasmin breaks down clot into smaller fragments called D-dimers

D-dimers cleared by circulation

Question 13

list two natural antcoagulants

Answer 13

antithrombin
protein C & protein S

Question 14

what is antithrombin?

Answer 14

a serine protease inhibitor that inhibits key factors of the coagulation cascade and turns off thrombin amplification

Question 15

how does antithrombin act as a natural anticoagulant?

Answer 15

inhibits key factors of the coagulation cascade - e.g. factors IXa, Xa and IIa (thrombin)

activity is enhanced by heparin binding to its binding site on endothelial cells - heparin is a therapeutic anticoagulant that prevents coagulation by inhibiting thrombin

turns off thrombin activation and positive feedforward amplification loop = regulates clotting factors and prevents excessive coagulation

(inhibits key factors of the coagulation cascade - especially thrombin, prevents thrombin activation/ amplification, prevent excessive coagulation, activity enhanced heparin binding to heparin binding site and inhibiting thrombin)

Question 16

what are proteins C and S?

Answer 16

natural anticoagulant plasma proteins, regulate thrombin levels

Question 17

how do proteins C & S act as natural anticoagulants?

Answer 17

thrombin is amplified by positive feedback - too much thrombin activates its own anticoagulant pathway

thrombin binds to thrombomodulin endothelial cell surface receptor - protein C is activated by thrombin-thrombomodulin

protein C becomes activated protein C/ APC - protein S is an activation cofactor, helps APC bind to cell surfaces and degrade factors Va and VIIa = inhibits coagulation cascade

Question 18

what does protein C do?

Answer 18

when excess thrombin is produced - it activates its own anticoagulant pathway

thrombin binds to thrombomodulin endothelial cell surface receptor = activates protein C

protein C converted to activated protein C/ APC

APC degrades key cofactors in the coagulation cascade like factor Va and VIIa

Question 19

what does protein S do?

Answer 19

co-factor involved in protein C to activated protein C/ APC conversion

Question 20

what does antithrombin do?

Answer 20

inhibits key factors of clotting cascade - thrombin, factors IXa and Xa

regulates factors of the clotting cascade, prevents thrombin production and amplification - heparan binding to its binding site on endothelial cells enhances antithrombin activity

Question 21

examples of blood clotting disorders

Answer 21

haemophilia - haemophilia A, B and von Willebrand disease = bleeding disorders

thrombophilia - excessive clotting leading to thrombosis

disseminated intravascular coagulation/ DIC

Question 22

what is haemophilia? what subtype diseases fall under it?

Answer 22

failure to clot leading to haemorrhage

haemophilia A and B
von Willebrand disease/ platelet disorders
collagen abnormalities

Question 23

symptoms of haemophilia?

Answer 23

bleeding into joints - causes pain, swelling and tenderness
many large/ deep bruises

Question 24

what is haemophilia A?

Answer 24

failure to clot leading to haemorrhage due to a mutation in factor VII

Question 25

what is haemophilia B?

Answer 25

failure to clot leading to haemorrhage due to a mutation in factor IX

Question 26

what is von Willebrand disease? symptoms?

Answer 26

failure to clot leading to haemorrhage due to an inherited defect or deficiency in vWF

symptoms - bleeding of mucous membranes, mostly mild but can vary in severity

Question 27

examples of thrombophilia/ clotting disorders

Answer 27

factor V Leiden mutation
antithrombin deficiency
protein C & protein S deficiency

Question 28

what is factor V Leiden mutation?

Answer 28

mutation in factor V interferes with clotting cascade - causes resistance to activated protein C (a natural anticoagulant)

makes mutant factor V resistant to degradation - it’s continually active and no longer regulated

increases risk of deep vein thrombosis/DVT

Question 29

what is antithrombin deficiency?

Answer 29

deficiency in antithrombin - no inactivation/ regulation of thrombin, factor IXa or Xa

increases clotting - predisposed risk to DVT

Question 30

what is protein C & protein S deficiency?

Answer 30

protein C and protein S are natural anticoagulants - lack of their activity increases risk of DVT

protein C is activated by thrombin-thrombomodulin binding = protein C activated to APC which degrades key factors

protein S is a co-factor for protein C to APC activation

Question 31

how does Virchow’s triad relate to DVT?

Answer 31

Virchow’s triad = increased risk of thrombosis related to 3 factors:
1. hypercoagulability
2. stasis
3. vessel wall injury

changes in blood constituents, normal blood flow or damage to endothelial layer can increase risk for DVT

Question 32

symptoms of DVT?

Answer 32

pain & tenderness of veins

limb swelling – often unilateral/ affecting one limb

superficial venous distension

increased skin temperature

skin discoloration

potential ulceration

Question 33

what is disseminated intravascular coagulation?

Answer 33

the simultaneous occurrence of widespread blood clotting and bleeding throughout the body

occurs as a complication of other conditions - e.g. cancer, sepsis

Question 34

how does DIC happen?

Answer 34

in response to sepsis there’s widespread activation of clotting factors in the body = leads to formation of small clots throughout blood vessels

eventually this continuous clotting depletes the factors involved - decreases ability of blood to clot and leads to excessive bleeding

can cause tissue and organ damage, also death in young children

Question 35

what are anticoagulants? - examples? use?

Answer 35

e.g. warfarin, heparin, direct oral anticoagulants

target specific clotting factors and prevent the clot from getting bigger - let natural fibrinolysis break up the clot

Question 36

what are thrombolytics/ fibrinolytics? - examples? use?

Answer 36

e.g. plasminogen activators: tPA, streptokinase

given in the case of a medical emergency - e.g. pulmonary embolism = breaks up the clot by activating fibrinolysis

Question 37

what investigations are conducted pre-treating a venous thromboembolism?

Answer 37

clotting screen - e.g. prothrombin time, thrombin time
full blood count
renal scree
liver function tests if there’s a suspicion of liver dysfunction

Question 38

treatments for DVT?

Answer 38

anticoagulants - e.g. warfarin, heparin, DOACs

increase antithrombin activity = heparin binds to heparin binding sites on endothelial cells

Question 39

treatments for pulmonary embolism?

Answer 39

thrombolytic agents
- e.g. Alteplase as a tissue plasminogen activator = converts plasminogen to plasmin for fibrinolysis
- e.g. Streptokinase

followed by anticoagulant to prevent recurrence

Question 40

what is Alteplase?

Answer 40

a tissue plasminogen activator - thrombolytic