CVS 9: Haemostasis

Question 1

What are the two functions of haemostasis?

Answer 1

1. Prevent blood loss from intact vessels

2. Arrest bleeding from injured vessels

Question 2

What is the first response to vessel wall injury?

Answer 2

Vessel constriction- the smaller blood vessels constrict to stop blood loss

Question 3

What happens during the primary haemostasis phase?

Answer 3

Formation of an unstable platelet plug

• platelet adhesion
• platelet aggregation

Question 4

What happens during the secondary haemostasis phase?

Answer 4

Stabilisation of the platelet plug

• blood coagulation
• activation of fibrin

Question 5

What is coagulation?

Answer 5

The process by which blood is converted from a liquid to a solid state

Question 6

What is Von Willebrand factor?

Answer 6

It’s a plasma proteins secreted by endothelial cells and platelets

Question 7

What triggers haemostasis?

Answer 7

• damage to the endothelial lining

- exposure of sub endothelial layer especially the collagen

Question 8

What are the two ways in which the collagen is recognised?

Answer 8

1. Von Willebrand factor binds to collagen and platelets bind to Glp1b receptor on the VWF
2. Glp1a on platelets directly binds to the collagen

Question 9

Why are there two different mechanisms? And under which circumstances will each of the mechanisms be favoured?

Answer 9

Circumstances within the vessels will vary- stressors in blood are different
- Von Willebrand factor= in small blood vessels with high shear stress

Question 10

What happens once the platelets are activated?

Answer 10

They release ADP and Prostaglandins (Thromboxane in particular)

Question 11

What is the function of the prostaglandins?

Answer 11

To activate other platelets so the platelets aggregate- Glp2b and Glp3a become available for fibrinogen to bind to

Question 12

What molecule is generated during the blood coagulation cascade and what is its function?

Answer 12

Thrombin

• directly activates platelets so that they can aggregate
• platelets have specific receptors for thrombin

Question 13

What happens to activated platelets?

Answer 13

1. Changes shape
2. Changes membrane composition:
   
   • Phospholipids usually inside the platelet come to the outside
   • These phospholipids bind to the coagulation factors
   • Platelets present Glp2b and 3a on its surface= can react with fibrinogen

Question 14

What is the life span of platelets?

Answer 14

8 days

Question 15

Where are clotting factors, fibrinolytic factors and inhibitors synthesised?

Answer 15

1. The liver- most of these made in the liver
2. Endothelial cells- Von Willebrand factor is made in high concs
3. Megakaryocytes==> Platelets - Factor V is synthesised

Question 16

What are the two different clotting cascade pathways and what starts of each of the pathways?

Answer 16

1. Intrinsic pathway: Factor 12 => Factor 12a

2. Extrinsic pathway: When vessel is damaged, blood comes into contact with TISSUE FACTOR and involves factor 7a

Question 17

What do the extrinsic pathway and intrinsic pathway merge at?

Answer 17

The common pathway

Question 18

What is the main driver of coagulation?

Answer 18

Tissue factor > Factor 12

Question 19

What happens to the haemostat platelet plug once it has been stabilised?

Answer 19

It is fibrinolysed

Question 20

What is plasminogen converted to and which enzymes does this?

Answer 20

Plasminogen==> plasmin

by Tissue plasminogen Activator (tPA)

Question 21

The reaction between tPA and Plasminogen does not usually happen, how does it occur then?

Answer 21

The fibrin clot brings the tPA and plasminogen close together on its surface which triggers the cleavage reaction

Question 22

What is the role of plasmin?

Answer 22

Plasmin is a powerful proteolytic enzyme that can break down the fibrin clot

Question 23

What are the breakdown products of the fibrin clot? and when might it be measured for diagnostic therapy?

Answer 23

Fibrin Degradation Products (FDP).

Measured when we are giving thrombolytic therapy

Question 24

What is tPA used to manage in the pharmaceutical industry? Which other enzyme might be used?

Answer 24

tPA and streptokinase (a bacterial activator) used in therapeutic thrombosis for MI

Question 25

Where is tPA formed?

Answer 25

Made locally in the endothelial cells right next to where the clot forms

Question 26

What prevents blood from clotting completely when clotting is initiated?

Answer 26

Coagulation Inhibitory Mechanisms

Question 27

What are the two different Coagulation Inhibitory Mechanisms?

Answer 27

Direct Inhibition

Indirect Inhibition

Question 28

What does direct inhibition involve?

Answer 28

• Direct inhibition of activated coagulation factors
• inhibitor circulates in blood in high cons
• ANTITHROMBIN (III)
• inhibits most coagulation proteinases

Question 29

What does indirect inhibition involve?

Answer 29

• SLOWS DOWN the amount of thrombin that is generated

- activation of protein C in the protein C Anticoagulant pathway

Question 30

What is the function of Heparin?

Answer 30

• Immediate anticoagulation in venous thrombosis and pulmonary embolism.
• accelerates the action of antithrombin

Question 31

How does antithrombin work?

Answer 31

• Excess of coagulation factors
• antithrombins inhibits them by forming a complex with these factors
• complexes cleared from circulation

Question 32

What does an reduction in antithrombin lead to?

Answer 32

Thrombosis

Question 33

Trace amounts of thrombin activates which factors? What do these factors form once they have been activated?

Answer 33

Factor 8 and Factor 5

Become cofactors

Question 34

What are the functions of cofactors?

Answer 34

• bind to the surface of platelets and make coagulation occur faster
• Platelet localisation process makes the reaction occur faster

Question 35

What is the function of Protein C?

Answer 35

• down regulates thrombin generation

- inactivates cofactors 8a and 5a

Question 36

How is Protein C activated?

Answer 36

• Factor 5 and 8 accelerate thrombin generation
• thrombin binds to THROMBOMODULIN on endothelial surface
• thrombin changes shape
• new thrombin, instead of forming a clot, activating platelets and activating factor 5/8, activates protein C==> ACTIVATED protein C and protein S

Question 37

What is Factor 5 Leiden?

Answer 37

• Common polymorphism

- Amino acid change in F5 called F5 Leiden

Question 38

What does Factor 5 Leiden cause and how?

Answer 38

• Factor 5 Leiden can’t be inactivated as well as the wild type
• Protein C anticoagulant pathway can’t inactivate F5 Leiden
• higher risk of thrombosis

Question 39

Name four coagulation inhibitory mechanism failures that lead to an increased risk of thrombosis

Answer 39

• Antithrombin deficiency
• Protein C deficiency
• Protein S deficiency
• Factor V Leiden

Question 40

Which two things need to be balanced for haemostasis?

Answer 40

Fibrinolytic factors (anticoagulant proteins) vs Coagulation factors (platelets)