Biochemistry of Hemostasis

Question 1

Why is the coagulation cascade often compared to a staged waterfall?

Answer 1

The coagulation cascade operates in stages, where each stage depends on the function of the previous stage, similar to a waterfall with cascading stages.

Question 2

How does the extrinsic pathway differ from the intrinsic pathway in the coagulation cascade?

Answer 2

The extrinsic pathway depends on tissue factor and factor 7, while the intrinsic pathway involves factors 8, 9, 11, and 12. Both pathways contribute to thrombin production.

Question 3

What is the purpose of anti-thrombotic factors in the coagulation cascade?

Answer 3

Anti-thrombotic factors help control the coagulation cascade and maintain a balance in the blood clotting process.

Question 4

How is a blood clot ultimately destroyed in the coagulation cascade?

Answer 4

Plasmin, a protein, is produced to degrade fibrin, leading to the dissolution of the blood clot.

Question 5

What factors in the coagulation cascade are vitamin K dependent?

Answer 5

Factors 2, 7, 9, and 10 are vitamin K dependent.

Question 6

How do you describe the coagulation cascade in a summarized manner?

Answer 6

The coagulation cascade is a staged process, initiated by tissue factor and involving extrinsic and intrinsic pathways. Thrombin production, amplification, and fibrin formation lead to stable blood clot formation. Anti-thrombotic factors provide control, and plasmin destroys clots.

Question 7

What is the definition of hemostasis?

Answer 7

the collection of processes that stops bleeding by keeping blood within a damaged blood vessel.

Question 8

Why is hemostasis important, and what must it achieve?

Answer 8

it prevents blood loss after an injury. It must be fast, localized, and reversible to maintain the balance between coagulation and anti-coagulation factors.

Question 9

What are the consequences of an imbalance in hemostasis?

Answer 9

An imbalance can lead to thrombosis (clot in the wrong place) or hemorrhage (uncontrolled bleeding), both of which can be life-threatening.

Question 10

What factors can influence the balance in hemostasis?

Answer 10

The balance can be influenced by inherited conditions, environmental factors, and drugs.

Question 11

What are the key phases of hemostasis, and what are their main goals?

Answer 11

The phases include vessel constriction, platelet activation (formation of a platelet plug), the coagulation cascade (producing fibrin), and fibrinolysis (clot dissolution).

Question 12

What substances are secreted by endothelial cells and what role do they play in hemostasis?

Answer 12

Endothelial cells secrete prostacyclin, nitric oxide, heparan sulfate, tissue factor pathway inhibitor, and thrombomodulin. These substances inhibit thrombus formation and maintain normal vessel function.

Question 13

How is hemostasis initiated, and what processes are triggered by vessel injury?

Answer 13

Vessel injury exposes collagen and tissue factor, initiating two parallel processes: platelet activation and the coagulation cascade.

Question 14

What is the goal of platelet activation, and what substances are crucial for it?

Answer 14

Platelet activation aims to form a platelet plug. Important substances include von Willebrand factor and fibrinogen.

Question 15

What is the objective of the coagulation cascade, and what is the role of thrombin in this process?

Answer 15

The coagulation cascade aims to produce thrombin. Thrombin is a serine protease that converts fibrinogen into fibrin, which forms a stable clot.

Question 16

What is fibrinolysis, and how is it activated?

Answer 16

Fibrinolysis is the process of dissolving a blood clot. Plasmin is a key player in this process, and it reverses clot formation.

Question 17

What are platelets?

Answer 17

small, disc-shaped blood cells that play a crucial role in blood clotting and wound healing.

Question 18

Platelets arise from

Answer 18

megakaryocytes, found in bone marrow

Question 19

What is the function of von Willebrand Factor (vWF) in hemostasis?

Answer 19

mediates platelet adhesion by bridging GpIb on platelets and collagen, playing a crucial role in blood clot formation.

Question 20

Where is von Willebrand Factor (vWF) normally found in the body?

Answer 20

circulating in the blood and is secreted constitutively by endothelial cells, megakaryocytes, and connective tissue.

Question 21

How do platelets release von Willebrand Factor (vWF)?

Answer 21

upon degranulation, contributing to the formation of platelet plugs in response to vascular injury.

Question 22

Besides platelet adhesion, what other roles does von Willebrand Factor (vWF) play in hemostasis?

Answer 22

platelet aggregation and the coagulation cascade, contributing to the overall process of blood clot formation.

Question 23

Adhesion to collagen triggers

Answer 23

platelet activation

Question 24

Platelet activation includes:

Answer 24

• Shape change
• Degranulation
• GpIIbIIIa activation and aggregation

Question 25

Activation of fibrinogen
(GPIIb-IIIa) receptors facilitates

Answer 25

platelet aggregation (interaction between multiple platelets)

Question 26

Collagen, thrombin, ADP, and
TXA2 all activate

Answer 26

platelets

Question 27

Endothelial cells secrete substances that inhibit

Answer 27

thrombus formation

Question 28

platelets support hemostasis by

Answer 28

• Adhering to endothelial surface
• Secreting platelet-activating substances and
  vasoconstrictors
• Aggregating
• Providing a surface that facilitates formation of a fibrin network and stabilizes the clot

Question 29

Which clotting factors, when bound to calcium, adopt a conformation that binds the phospholipid surface of platelets?

Answer 29

Factors II (prothrombin), VII, IX, and X.

Question 30

Why is the binding of these clotting factors to the phospholipid surface of platelets important in hemostasis?

Answer 30

This binding concentrates clotting factors at the site of injury, promoting localized fibrin formation, and facilitating blood clot formation.

Question 31

How are platelets localized to the site of injury, where these clotting factors are concentrated?

Answer 31

Platelets are localized to the site of injury via collagen, and they are joined by fibrinogen, contributing to the formation of a stable blood clot.

Question 32

What triggers the cascade of enzymatic reactions in hemostasis?

Answer 32

The cascade of enzymatic reactions is triggered by blood vessel injury.

Question 33

What is the key role of thrombin in this cascade?

Answer 33

Thrombin plays a key role by converting fibrinogen to fibrin.

Question 34

How does fibrin contribute to hemostasis and the formation of a stable blood clot?

Answer 34

Fibrin aggregates and crosslinks to form a network, stabilizing the platelet plug.

Question 35

Which clotting factors rely on vitamin K for their activity?

Answer 35

Factors II, VII, IX, and X require vitamin K for their activity.

Question 36

How is the cascade of enzymatic reactions in hemostasis regulated?

Answer 36

It is highly regulated by natural inhibitors.

Question 37

What are PT and aPTT, and how are they used in medical monitoring?

Answer 37

PT and aPTT are laboratory tests used to monitor drug dosage and diagnose diseases related to hemostasis. PT/INR is more sensitive for assessing warfarin, while aPTT is more sensitive for assessing heparin.

Question 38

John Cena, a 46 year old pro-wrestler
accidentally drops his ice cream cone and
slips on it. He falls down and scrapes his
knee. Which hemostatic response will be the
quickest to activate?
a. Extrinsic pathway
b. Intrinsic pathway
c. Vasoconstriction
d. Common Pathway

Answer 38

c. Vasoconstriction happens immediately upon vascular injury and is the first line of defense against bleeding

Question 39

Tirofiban, a GpIIbIIIa antagonist is given to
a patient who is to undergo a PCI procedure
following a STEMI. Based on its drug class,
explain how you think its MOA will prevent
clot formation

Answer 39

As a GpIIbIIIa antagonist, tirofiban prevents
both fibrinogen and vWF from binding to
GpIIbIIIa receptors. This will inhibit platelet
crosslinking, which will stop platelet
aggregation from happening. Without platelet
aggregation, clots cannot form!

Question 40

A mysterious drug, RICEKRISPIES, was trialed for anticoagulant treatment and was designed to only inhibit activation of clotting factor VIII (part of the intrinsic pathway). Would this make an effective anticoagulant?

Answer 40

Most likely no, because inhibiting only factor VIII will not optimally inhibit thrombin production, as there will still be a bit of thrombin production from the extrinsic pathway. Since thrombin is directly responsible for clot formations (which is what we do not want), anticoagulants should aim to either inhibit thrombin formation (e.g. common pathway inhibitors) or inhibit thrombin itself (e.g. direct thrombin inhibitors).

Question 41

One day after giving a STEP session, a student
asks: ‘If the extrinsic pathway responds much faster than the intrinsic pathway, what’s so significant about the intrinsic pathway?’ How would you
explain?

Answer 41

While the extrinsic pathway does induce a much quicker response to injury, the intrinsic pathway is responsible for majority of the thrombin surge that is needed for clot formation, as the enzyme intrinsic ten-ase
(IXa/VIIIa) activates factor X at a rate ~50x-100x faster than extrinsic tenase (VIIa/TF)

Question 42

What is the role of calcium in clotting?

Answer 42

Calcium binds to factors II (prothrombin), VII, IX, and X to help them adhere to the surface of platelets. This localizes the coagulation cascade

Question 43

What is the role of vitamin K?

Answer 43

It modifies factors II, VII, IX, and X (1972), allowing them to bind to calcium. Also, modifies Protein C and S.

Question 44

What do Protein C and S do?

Answer 44

Protein C (with Protein S as a cofactor) inactivate factors Va and VIIIa, thus, inhibiting coagulation

Question 45

What is the MOA of warfarin?

Answer 45

Warfarin inhibits vitamin-k epoxide reductase, an enzyme needed to activate Vitamin K. It depletes functional vitamin K reserves, thus, reducing synthesis of clotting factors which require modification.

Question 46

Endothelial cells secrete substances that inhibit

Answer 46

thrombus formation

Question 47

Prostacyclin + Nitric oxide

Answer 47

• Vasodilates
• Inhibit platelet activation

Question 48

Heparin sulfate

Answer 48

Activates Antithrombin III (ATIII) (which inhibits factors Xa, IXa, VIIa, IIa)

Question 49

Tissue Factor Pathway
Inhibitor

Answer 49

Inhibit TF, Xa, VIIa

Question 50

ADP Phosphatase

Answer 50

Breakdown ADP

Question 51

J.T. (he/him) is rushed into the emergency room. Upon encounter, the patient is alert and stable, face is drooping, and speech is slurred. CT Scan is performed and J.T. is diagnosed with ischemic stroke (due to blood clot forming in the brain). What do you recommend administering and its mechanism of action?

Answer 51

tPA should be recommended. It converts plasminogen into active plasmin, which breaks down fibrin/ the clot

Question 52

After successfully treating J.T., your preceptor asks you to counsel him on his discharge medication - Warfarin. J.T. mentions that his friend gets frequent labs, since he is also taking warfarin. Which test is J.T. referring to?

Answer 52

PT/INR: it is more sensitive to and used to assess warfarin

Question 53

5 days later, J.T. returns due to excessive bleeding that won’t stop and has an elevated INR. What should be administered?

Answer 53

IV Vitamin K -to promote clotting

Question 54

H.F. (she/her) is admitted to the hospital with acute liver failure. She has an elevated INR, but is not on any anticoagulant. Why is her INR elevated?

Answer 54

The liver produces the majority of coagulation proteins needed in the blood clotting cascade. Severe liver injury leads to reduced liver synthesis of clotting factors, resulting in a prolonged PT or increased INR.