Haemostasis

Question 1

In tact endothelial function is needed for normal circulation.

Which naturally occurring substances prevent thrombus formation on an intact endothelium? (5)

Answer 1

• Nitric oxide
• Prostacyclin
• Heparans
• Tissue factor pathway inhibitor (TFPI)
• Thrombomodulin

Question 2

What happens when you cut yourself?

Answer 2

• You bleed at the site of the injury
• The bleeding stops and you form a clot => Platelets, vWF, Coagulation Factors
• The clot remains confined to the site of injury => natural Anticoagulants
• And then about 1 week later the clot has vanished => Fibrinolytic System

Question 3

When there is damage to the endothelial lining a clot is required.

Q. What are the 2 key signals that let resting platelets and coagulation factors know that they need to become activated to start the process of clot formation?

Answer 3

Abnormal surface – damaged vessel wall leads to rough collagen surface and the platelets recognise this abnormal surface and stick to it to plug the hole

Physiological activator - tissue factor - when you damage a blood vessel you release a small amount of the normal physiological activator of coagulation into the circulation

Question 4

How are endothelial cells connected to subendothelial collagen?

Answer 4

By Von Willebrand factor (VWF)

Question 5

What important structures do platelets have on their surface that helps them to do their job in clot formation? (2)

Answer 5

Cell surface receptors:

• ADP receptor
• Epinephrine receptor
• Thrombin receptor

When erythrocytes and endothelial cells are damaged they release ADP and Epinephrine into the circulation and form thrombin. These then bind to receptors on the platelet surface and allow it to behave normally and make a clot.

Platelet glycoproteins

These are binding sites for important ligands that are involved in coagulation such as:

• GP 2b/3a = fibrinogen
• GP 1b/5/9 = VWF
• GP 1a/2a and GP 6 = collagen

Question 6

Platelets have an open canalicular system. What is meant by this?

Answer 6

• Platelets have canals that allow the content of the platelet to be released into the circulation.
• Within platelets there are dense and alpha granules and lysosomes that are released into the circulation as required to perform different functions.
• When platelets are activated the actin and myosin within contracts and squashes the cell, pushing the granules out through the canals onto its surface which makes it sticky.

Question 7

What do dense granules produce? (3)

Answer 7

• ADP/ATP
• Calcium
• Serotonin

Question 8

What do alpha granules produce? (2)

Answer 8

• Thrombin
• VWF

Question 9

What are the 3 A’s in haemostasis?

Answer 9

• Adhere
  
  • to collagen through GP 1a and GP 6
  • to fibrinogen through GP 2b/3a
  • to vWF through GP 1b
• Activation
  
  • p2y12 pathway - activated by ADP that is released by damaged cells/tissues
  • COX pathway - produces thromboxane which results in platelet aggregation
• Aggregation
  
  • Thromboxane causes the platelets to aggregate

Question 10

Which drug interferes/blocks the Cyclooxygenase (COX) pathway to prevent production of thromboxane?

Answer 10

Aspirin - prevents thromboxane production which prevents platelet aggregation (prevents the stickyness of platelets basically)

Question 11

What is the p2y12 pathway?

Answer 11

• p2y12 is a chemoreceptor on the surface of platelets in which ADP binds to, triggering reactions within the cell.
• The P2Y12 receptor is involved in platelet aggregation

Question 12

Which drugs inhibit/block the p2y12 pathway? (3)

Answer 12

• Clopidogrel
• Prasugrel
• Ticagrelor

These are commonly used in patients who have had a STEMI or PCI

Question 13

When people speak about dual anti-platelet therapy what are they referring to?

Answer 13

The use of aspirin with one of the p2y12 inhibitors therefore blocking both the COX and p2y12 pathways

Question 14

What does the enzyme scramblase do and why is it important?

Answer 14

Scramblase allows the phopholipid layer to be expressed on the external surface to act as a site for coagulation reactions can take place on

Question 15

Why is vWF so important in clot formation?

Answer 15

vWF is basically a big sticky molecule that you want around when making a clot because:

• It binds to factor 8 which you always want to make a clot
• It binds to the surface of platelets through GP 1b
• It binds to collagen through a couple of receptor sites

Question 16

Describe the process of platelet plug formation. This happens within 30 seconds to a minute of injury.

Answer 16

• Platelets adhere to the damaged vessel - bind to collagen and to von W factor
• The platelets become activated (p2y12) and start to aggregate together to form a platelet plug (COX pathway)
• Once the platelets become activated they slightly change their conformation which allows them to bind to fibrinogen via GP 2b/3a - this happens at the same time as the other steps

However, next step => need to get fibrin as platelets are not enough.

Question 17

How is a fibrin clot formed after formation of a platelet plug?

Answer 17

• The clotting cascade is activated
• The fibrinogen bound to the platelets is cleaved to form fibrin
• This creates a fibrin clot which stops the bleeding

Question 18

Normal clotting cascade

Answer 18

Normal clotting sequence will act like dominos – cascade starts and if everything is in place then fibrinogen will be cleaved to form fibrin net over the platelet plug and this forms the stable clot

Question 19

Defective clotting cascade

Answer 19

• If there is an abnormality in the clotting sequence the clotting sequence starts but when it gets to a point where there is absent or reduced clotting factor then it all goes wrong.
• When that happens fibrinogen is not cleaved and the bleeding in the organ continues (haemophilia)

Question 20

Haemophilia A is caused by a deficiency of which clotting factor?

Answer 20

Factor 8

Question 21

Haemophilia B is caused by a dificiency of which clotting factor?

Answer 21

Factor 9

Question 22

Describe the clotting cascade process.

• How does it start?
• What order does it go in?
• End product?
• Route/s?

Answer 22

• There are 2 paths, intrinsic and extrinsic which originate separately but converge at a specific point, leading to fibrin activation. Need both pathways as need factor 8 and 9 to stop bleeding

Extrinsic - immediate reaction which produces a small burst of thrombin but not enough to secure haemostasis

• Normal physiological activator = tissue factor is released when we damage tissue and this binds to factor VII and activates it starting the clotting cascade process
• Activated factor VII binds to factor X and activates it
• Factor X with a little bit of help from factor V activates prothrombin to form thrombin
• Thrombin cleaves fibrinogen sitting on surface of platelet to form fibrin

Intrinsic - fed by thrombin

• Factor 11 cleaved to 11a
• 11a cleaves 9 to 9a
• factors 9a and 8a cleave 10 to form factor 10a
• 10a acts on prothrombin bringing about a big burst of thrombin = stable clot + haemostasis

ALL FACTORS NEED TO BE THERE AND FUNCTIONING PROPERLY TO CREATE SECURE CLOT

Question 23

Give 1 congenital, 1 aquired and 1 drug related reason as to why a patient may be missing coagulation factors?

Answer 23

• Congenital - haemophilia
• Acquired - liver disease
• Drug - anti-coagulants

Question 24

Why does the clot stay confined to the area in which you cut yourself?

Answer 24

Due to natural anti-coagulant pathways

Question 25

What are the 3 most important natural anti-coagulant systems?

Answer 25

• TFPI - tissue factor pathway inhibitor
• Activated protein C
• Anti-thrombin

Question 26

Which clotting factors does TFPI bind to and inhibt?

Answer 26

Factor Xa and VIIa which means you don’t make much thrombin and you stop making blood clot

Question 27

How does the activated protein C system work?

Answer 27

• Activated protein c binds to its cofactor protein s and these molecules switch off Factor VIII and factor V
• Again they switch coagulation off and reduce thrombin production thereby reducing clot formation

Question 28

How does anti-thrombin work as a natural anti-coagulant?

Answer 28

• The most powerful of the natural anti-coagulants
• Binds to and inactivates lots of coagulation factors but particularly it binds and inactivates Factor X and thrombin

Question 29

Look

Answer 29

Deficiency of Protein C+S and anti-thrombin increase your predispositon to the development of blood clots

• Those who are deficient don’t switch off coagulation activation in a successful way and form too many DVTs and PE

Question 30

Look

Answer 30

After a secure clot has been formed and bleeding outside of the vessel has stopped we need to remodel the endothelium. We need to start to remove the clot to do so.

= Fibrinolysis

Once you produce plasmin to break down the clot you achieve tissue repair

Question 31

After you form a clot, your endothelial cells respond by secreting 2 things. What are they?

Answer 31

They secrete the activators of plasminogen which are:

• t-PA
• u-PA

Question 32

What do t-PA and u-PA do?

Answer 32

• They cleave plasminogen to form plasmin
• Plasmin attacks the clot and breaks it down
• Breaking down clot releases fibrin and fibrin degradation products

Question 33

What is D-dimer?

Answer 33

The direct result of cleavage of cross linked fibrin by plasmin

Question 34

What are the natural inhibitors of plasminogen?

Answer 34

• Plasminogen activator inhibitor-1 (PAI-1)
• Plasminogen activator inhibitor-2 (PAI-2)

Question 35

What are the natural inibitors of plasmin?

Answer 35

Alpha 2 - antiplasmin

Alpha 2 - macroglobulin

Question 36

Which anti-platelet drugs prevent the binding of fibrinogen to GP 2b/3a? (3)

Answer 36

• Abciximab
• Tirofiban
• Eptifibatide

These are commonly used in PCI situations where patient looks like they are continuing to thrombose their stent even though they’ve been on dual anti-platelet therapy and have had a dose of something like heparin to prevent this etc

Question 37

Which Anticoagulate drugs are commonly used?

Answer 37

Heparins - unfractionated, LMWH - bind to anti-thrombin (natural anti-coagulant) and allows it to cleave thrombin and activated factor 10 more quickly

Warfarin - vitamin K antagonist - vit K is required for post-translational modification of clotting factors 2, 7, 9 and 10. So basically it reduces the function of these 4 clotting factors. It can be reversed by administration of vit K or prothrombin complex concentrate (concentrate including these missing clotting factors)

New drugs - Rivaroxaban, Edoxaban and Apixaban - sit on active site of activated factor 10 and prevent it from cleaving prothrombin to thrombin. So no fibrin produced and no clot formed

Dabigatran (oral) and Bivalirudin/Argatroban (parenteral) - directly inhibt thrombin