L34-35 Normal Hemostasis and Thrombosis

Question 1

What is the difference between a thrombus and an embolus?

Answer 1

Thrombus: stationary clot Embolus: clot broken from a primary site that travels to a secondary site

Question 2

What are the two parts of normal hemostasis?

Answer 2

1. Ruptured vessels undergo changes which prevent blood loss. 2. Prevention of excessive loss of blood from a ruptured blood vessel

Question 3

What is the major event of hemostasis?

Answer 3

Formation of a hemostatic plug that fills the leakage site in the injured vessel

Question 4

What are the two parts of abnormal hemostasis?

Answer 4

1. Formation of a clot within intact blood vessels 2. Loss of blood into surrounding soft tissues when a rupture occurs

Question 5

Upon what three entities does hemostasis depend?

Answer 5

1. Blood vessel wall (endothelium and sub-endothelial substances) 2. Platelets 3. Coagulation and fibrinolytic systems

Question 6

What are the 4 hemostatic responses?

Answer 6

1. Vasoconstriction 2. Primary hemostasis 3. Secondary hemostasis 4. Formation of platelet-thrombin plug

Question 7

Vasoconstriction occurs immediately and briefly through reflex ___ mechanisms. It may also mediate ___ released from the endothelium. What is the primary purpose of vasoconstriction?

Answer 7

Neurogenic; humoral factors; reduce blood loss

Question 8

___ is a potent vasoconstricting agent released from the endothelial cells in distress.

Answer 8

Endothelin

Question 9

How is the extracellular matrix involved in vasoconstriction?

Answer 9

Contractile fibers

Question 10

Describe the steps of primary hemostasis broadly.

Answer 10

1. Platelets adhere to damaged vessels. 2. Platelets undergo a shape change. 3. Granule release from platelets. 4. Activated platelets recruit other platelets. 5. Aggregation/hemostatic plug formation

Question 11

Describe the steps of secondary hemostasis broadly.

Answer 11

1. Tissue factor is released from the site of injury; this promotes coagulation by combining with platelet factors to initiate the coagulation cascade. 2. Surface phospholipids are expressed; this also promotes coagulation (coagulation proteins form complexes on the platelet surface utilizing the phospholipids). 3. Thrombin is generated via the coagulation cascade 4. Fibrin polymerizes via Factor 13a

Question 12

What happens during formation of the permanent plug?

Answer 12

Thrombin stimulates recruitment and activation of additional platelets. It also converts fibrinogen to fibrin. The clot forms a permanent plug; RBCs and WBCs become part of the thrombus.

Question 13

Discuss the anti-platelet activity of the endothelium.

Answer 13

Intact endothelium prevents platelets and coagulation proteins from coming into contact with sub-endothelial collagen. They secrete prostacyclin and NO to prevent aggregation.

Question 14

Discuss the anti-coagulant activity of the endothelium.

Answer 14

1. Heparin-like molecules bind anti-thrombin III; this binds and inactivates thrombin. This can also inactive 10a and 9a. 2. Thrombomodulin binds thrombin. This activates protein C, which lyses 5a and 8a.

Question 15

What does active protein C require to function?

Answer 15

Protein S

Question 16

Discuss the fibrinolytic effect of the endothelium.

Answer 16

Endothelial cells secrete t-PA (plasminogen activators) which promote fibrinolysin. Plasminogen is converted to plasmin and dissolves the clot.

Question 17

Discuss the prothrombotic effects of the endothelial cells.

Answer 17

1. Secrete von Willebrand factor, which forms a molecular bridge between platelets and subendothelial collagen. 2. Synthesize and secrete tissue factor, which activates the extrinsic coagulation cascade (cytokines can stimulate cells to synthesize more TF)

Question 18

What is the role of tissue factor?

Answer 18

Promotes generation of thrombin and formation of a clot

Question 19

What are platelets?

Answer 19

Discoid, anuclear cells which play a major role in hemostasis

Question 20

The plasma membrane contains many ___ receptors. What do they do?

Answer 20

Glycoprotein; play a role in the attachment of platelets to subendothelial proteins (via von Willebrand) and inter-adherence between platelets (via fibrinogen)

Question 21

What is contained in the light (alpha) granules?

Answer 21

1. Fibrinogen 2. Fibronectin 3. Factors 5 and 8 4. Platelet factor 4 (heparin-binding chemokine) 5. Growth factors (PDGF and TGF-beta)

Question 22

What is contained in the dark (beta) granules)?

Answer 22

1. ADP 2. ATP 3. Ionized Ca2+ 4. Histamine 5. Serotonin 6. Epinephrine

Question 23

What are the 5 platelet receptors?

Answer 23

1. Glycoprotein 2b3a 2. Glycoprotein 1b 3. Thrombin 4. Serotonin 5. ADP

Question 24

With vessel injury, circulating proteins are exposed to subendothelial proteins which cause platelets to undergo what three reactions?

Answer 24

1. Adhesion 2. Activation/Secretion 3. Aggregation

Question 25

Discuss the process of platelet adhesion.

Answer 25

Platelets attach to the subendothelial collagen through a molecular bridge. 1b attaches to von Willebrand factor, which attaches to collagen.

Question 26

Why is adhesion important?

Answer 26

It prevents the blood flow from dislodging the adherent platelets and unplugging the defect.

Question 27

Deficiency of Gp1b causes ___ syndrome.

Answer 27

Bernard-Soulier

Question 28

Deficiency of 2b3a causes ___.

Answer 28

Glanzmann thrombasthenia

Question 29

Discuss the process of platelet activation and secretion.

Answer 29

Activation is initiated by molecules binding with 2b3a. Upon activation, platelets release other granular content (coagulation factors, ADP, calcium, thromboxane A2). The phospholipid complex is activated when negatively charged phospholipids are exposed on the platelet surface.

Question 30

What is the purpose of the phospholipid complex?

Answer 30

The site on which coagulation factors combine with ionized calcium to activate the intrinsic pathway.

Question 31

Discuss the process of aggregation.

Answer 31

The release of ADP and thromboxane A2 from the platelet granules initiates a reaction which serves to recruit, activate, and aggregate platelets. Serotonin and thromboxane A2 vasoconstrict the vessel. Thrombin is formed by the activation of the intrinsic pathway. It also converts fibrinogen to fibrin.

Question 32

The blood coagulation system is comprised of a network of ___.

Answer 32

Proenzymes

Question 33

What is the ultimate goal of the coagulation system?

Answer 33

Formation of thrombin to convert fibrinogen to fibrin.

Question 34

What happens after fibrin is formed?

Answer 34

13a (and TAFIa) converted fibrin to stabilized fibrin.

Question 35

All of the coagulation cascade factors are ___ proteases except for 13a, which is a ___.

Answer 35

Serine; transamidase

Question 36

Draw the coagulation cascade.

Answer 36

Question 37

What is the test for measuring the extrinsic pathway?

Answer 37

PT test (prothrombin time)

Question 38

What is the test for measuring the intrinsic pathway?

Answer 38

PTT

Question 39

What is the central factor in the coagulation cascade?

Answer 39

10

Question 40

What are the factors in the fibrinogen group?

Answer 40

1, 5, 8 13

Question 41

What are the factors in the prothrombin group? What do they have in common?

Answer 41

2, 7, 9, 10; they all contain gamma-carboxy glutamic acid, which is needed for the binding of Ca2+; they are also all synthesized in the liver, require vitamin K, and are suppressed by warfarin.

Question 42

What are the factors in the contact group?

Answer 42

11, 12, Fletcher factor (prekallikrein), Fitzgerald factor (HMW kininogen)

Question 43

What are the inhibitors of the coagulation cascade?

Answer 43

1. Antithrombin III (AT)
2. Heparin cofactor II (HC II)
3. Tissue factor pathway inhibitor (TFPI)
4. Clotting factor inhibitors
5. Lupus anti-coagulant and anti-phospholipid Ab
6. Antibodies to coagulation factors

Question 44

Antithrombin is a plasma inhibitor which also mediates the anticoagulant actions of ___.

Answer 44

Heparin

Question 45

The ___ system is a network of enzymes that are responsible for the dissolution of a formed clot.

Answer 45

Fibrinolytic

Question 46

How is fibrin digested?

Answer 46

Plasmin

Question 47

___ is converted into plasmin. What can inhibit the fibrinolytic system?

Answer 47

Plasminogen; Plasminogen activator inhibitor (PAI), alpha-2-antiplasmin, alpha-2-macroglobulin, Thrombin activatable fibrinolytic inhibitor (TAFI)

Question 48

What is the pathologic transition of the state of blood from fluidity to non-fluidity?

Answer 48

Thrombosis

Question 49

True or false - the thrombogenic mechanisms are the same in the arterial and venous system.

Answer 49

False - they are not the same.

Question 50

What are the three hallmarks of thrombosis (Virchow’s triad)?

Answer 50

1. Hypercoagulability (alterations in blood composition)
2. Endothelial injury (release of tissue factor)
3. Abnormal blood flow (stasis)

Question 51

What are the 3 types of thrombi?

Answer 51

1. Arterial thrombi
2. Venous thrombi and pulmonary emobli
3. Microvascular thrombi

Question 52

What are some factors contributing to a hypercoagulable state?

Answer 52

Age, smoking, oral contraceptives, diet

Primary genetic conditions: molecular thrombophilias and inhibitor deficiences

Secondary acquired conditions: sepsis, cancer, trauma (all high risk); pregnancy, hyperlipidemia, drugs (all low risk)

Question 53

What are the three major molecular deficits contributing to thrombophilia?

Answer 53

1. Factor V Leiden (APC resistance)
2. Prothrombin 20210 (high production of prothrombin)
3. Methylenetetrahydrofolate reductase (MTHFR mutation)