Test 3 Study Guide Part 3

Question 1

Von Willebrand’s factor:

Answer 1

Von Willebrand’s factor which are bound to collagen, they then bind thrombocytes and anchor them so blood flow does not move them away.

Question 2

What is within the granules of thrombocytes?

When is it released?

Answer 2

Serotonin
Thromboxane A2 (promotes binding/clotting of thrombocytes)
ADP (promotes binding/clotting of thrombocytes)
Platelet release reaction

Question 3

The release of Thromboxane A2, ADP, and Seratonin is called what?

Answer 3

A platelet release reaction.

Question 4

Describe the complete arc of platelet plug formation, starting from the normal state.

Answer 4

endothelial cells produce: NO-, prostacyclin. (which act as vasodilators and inhibit clotting)

Endothelial cells also have CD39 on their plasma membrane surface, which ADP -> AMP (ADP promotes clotting so this is important)

Wounding exposes the collagen of the tissue behind the endothelium, which results in clotting. Thrombocytes bind to Von Willebrands factor, which in turn binds to collagen.

There are two signalling changes which have occurred. Death of endothelium has likely resulted in decreased production of prostacyclin two, and decreased production of NO (and a little less CD39 activity). Additionally a platelet release reaction has occurred, and the platelets have released granules of ADP, thrombaxane A2, and serotonin.

The platelet plug will form, and can stop bleeding, but requires fibrin reinforcement to be able to hold.

Question 5

Platelets also help produce what change in fibrinogen?

Answer 5

It converts it fibrin, which is insoluble, and helps form the clot.

Question 6

What does the color of a clot tell you?

Answer 6

Fibrin forms a mesh which traps other cells within it, if it traps a great deal of RBCs, it will form a red clot. If it is in an artery, it will not trap as many and the clot will be white.

Question 7

Clot retraction can occur because:

Answer 7

Contractile actin myosin system, as is seen elsewhere in the body.
- Step called clot retraction

Question 8

Serum redefined:

Answer 8

Plasma without fibrinogen (as it has been used in clot formation)

Question 9

Extrinsic pathway:

Answer 9

Tissue Factor (thromboplastin, factor III) -> factor VII -> VII complex (tissue factor, factor VII, and Ca2+) -> Common Pathway (factor X)

Question 10

Intrinsic Pathway:

Answer 10

Activator (collagen) -> Factor XII -> Factor XI -> Factor IX -> VIII complex (factor IX activated, factor VIII, Ca2+)

Question 11

Common Pathway:

Answer 11

X -> V complex (factor five V, X activated, Ca2+) -> factor II (Prothrombin) which becomes thrombin -> fibrinogen -> fibrin

Question 12

How is the clotting pathway stopped in plasma tubes?

Answer 12

Ca2+ is chelated, which stops it from participating in clotting complexes

Question 13

Aim of coagulation:

Answer 13

Create fibrin from fibrinogen (factor 1)

Fibrin stabilizing factor (factor VIII)

Question 14

Common Pathway pneumonic:

Answer 14

1 * 2 * 5 = 10
Factor ten forms complex five (X activated, factor V, Ca2+) activates prothrombin into thrombin (thrombin/prothrombin is factor II) -> fibrinogen (factor I) -> fibrin

Question 15

Extrinsic pathway pneumonic:

Answer 15

3 + 7 = 10
factor III (tissue factor, thromboplastin), complexes with factor VII, and Ca2+

Question 16

Intrinsic pathway pneumonic:

Answer 16

Factors 12 to 8 are involved in the intrinsic pathway, excluding factor X which is the common.

XII -> XI -> IX -> VIII complex (VIII, IX, Ca2+)

Question 17

(plasminogen is the inactive precursor) Plasmin:

Answer 17

Decays blood clots (like fibrin)

Question 18

How is the extrinsic pathway started?

Answer 18

Tissue is damaged, and cell innards are revealed, including thromboplastin (Factor III), which can now bind with factor 7, calcium and phospholipids to start activate factor 10

Question 19

Which pathway generates thrombin and fiber the most quickly? Which is predominant in vivo?

Answer 19

The extrinsic pathway

The extrinsic pathway

Question 20

What role does phosphatidylserine play in blood clotting?

Answer 20

It anchors clotting factor VIII and V on the platelet surface, and greatly increases thrombin production.

Question 21

What is the main role of the intrinsic pathway supposedly?

Answer 21

Amplification of the clotting cascade, after it has been initiated by the extrinsic pathway.

Question 22

What activates plasmonigen into plasmin?

Answer 22

Kallikrein

Question 23

What does Kallikrein stand for?

What does the kallikrein do?

Answer 23

Sweet = Kalli, Flesh = Krein

It activates plasminogen -> plasmin which eats away clots

Question 24

What does plasmin digestion produce?

Answer 24

Split products (fibrin degradation products)

Question 25

What are potential activators for plasminogen?

Answer 25

Kallikrein
Tissue plasminogen activator (TPA)
Urokinase
Streptokinase

Question 26

How does plasminogen get into the clots?

Answer 26

It is incorporated into them as the clots are formed.

Question 27

Where does tissue plasminogen activator come from?

Answer 27

It is released slowly by damaged epithelium.

Question 28

Thrombus:

Answer 28

a blood clot which obstructs a vessel. (a coagulation of your blood within your body)

Question 29

Where does tissue urokinase and streptokinase come from?

Answer 29

Bacteria

Question 30

Factor V Leiden:

Answer 30

Inherited defect. Uncontrolled and vigorous factor V activation of clotting.

Question 31

Atherosclerosis:

Answer 31

Build up of a fatty plaque under the endothelial cells of the vein. Causes the vein to shrink. Can eat its way into the interior of the vein, causes collagen to activate thrombus formation

Question 32

Varicose Vein:

Answer 32

Caused by weakened one way valves in the legs

Question 33

What causes an increased chance of clot formation?

Answer 33

Bed ridden (there is less blood flow in legs, and thrombus form)
Factor V leiden (a defect in factor V, which resists inactivation)
Atherosclerosis
Varicose Veins.
Inflamed Veins (phlebitis)
Infection

Question 34

Swelling is proinflamatory, and damage can expose collagen promoting clot formation

Answer 34

Phlebitis:

Question 35

Where are you most likely to form clots?

Answer 35

In the veins of your legs, because this is where the blood flows the slowest.

Question 36

What is an embolus:

Answer 36

Any mass of undissolved material carried away within the blood.

Question 37

What is a common cause of pulmonary embolism?

Answer 37

A thrombus in the leg, which breaks off a piece, which travels to the lungs, and causes loss of blood flow somewhere there.

Question 38

Cerebral infarction (infarction is a region of tissue deprived of blood):

Answer 38

Is often caused by an embolus which originates in the left side of your heart. Thrombus formation here could be caused by damaged tissue from a heart attack.

Question 39

Anticoagulants (list them):

Answer 39

Aspirin (interferes with thromboxane A2 formation):
EDTA (chelates Ca2+):
Sodium Citrate (chelates Ca2+):
Heparin (inhibits thrombin):
Warfarin:

Question 40

Aspirin:

Answer 40

Inhibits thromboxane A2 formation (and other prostaglandins) which stops platelets from releasing Thromboxane A2 in their coagulation formation
Permanently inactivates platelets so that they cannot clump
Bleeding time test (prolonged by taking aspirin)

Question 41

Sodium Citrate (chelates Ca2+) metobolism:

Answer 41

Chelates Ca2+

This is metabolized within the bloodstream to deactivate it.

Question 42

What does EDTA stand for?

Answer 42

Ethylenediaminetetraacetic acid

Question 43

Heparin:

Answer 43

activates Antithrombin III which inactivates thrombin (resulting in no new fibrin formation). Antithrombin III: Inactivates thrombin, factor IX and factor X

Question 44

Warfarin:

Answer 44

Stops cellular activation of vitamin K.

Question 45

Details of the pathway which warfarin interrupts

Answer 45

Gamma-glutamyl carboxylase (uses vitamin K) adds a carboxyl group factor II (prothrombin), factor VII, IX, and X.
Addition of carboxyl group oxidizes vitamin K
Another enzyme Vitamin K epoxide reductase reduces vitamin K.
Warfarin blocks Vitamin K epoxide reductase

Question 46

Which factors are vitamin K dependent?

Answer 46

Factor II, IIV, IX, and X

Question 47

Why isn’t Warfarin (coumadin) used immediately?

Why is heparin used immediately?

Answer 47

Warfarin: prevents factor II, IIV, IX and X synthesis (but does not remove current levels of these)
Heparin:
Activates Antithrombin III which inactivates thrombin (immediate effect)