Hemostasis and Coagulation (Exam III) Stephen's Cards

Question 1

About how long can clot dissolution occur after it has formed?

Answer 1

• minutes to days later

Question 2

Coagulation proteins are typically found in what form?

Answer 2

• inactivated form

Question 3

What are two reasons why clotting factors do not attach to the endothelium of the vessel?

Answer 3

• Endothelium is smooth
• Undamaged endothelium doesn’t express tissue factor or collagen

Question 4

If the endothelium becomes damage or is injured what does that cause?

Answer 4

• Tissue Factor and Collagen expression → platelet plug formation and coagulation cascade.

Question 5

What are the three layer of a blood vessel?

Answer 5

• Intima → endothelial layer
• Media → subendothelial layer (middle)
• Adventitia → outer layer

Question 6

Which clotting mediators/factors belong to the intima (endothelial) layer?

Answer 6

• VWF
• Tissue factor
• Prostacyclin
• Nitric oxide

Question 7

Which clotting factors belong to the Media (subendothelial) layer?

Answer 7

• Collagen
• Fibronectin

Question 8

How do the endothelial cells of the intima modulate hemostasis?

Answer 8

Synthesize and secrete:

• Procoagulants
• Anticoagulants
• Fibrinolytics

Question 9

Which two vascular mediators are released by the Intima endothelial cells?

Answer 9

• Vasoconstrictors
• Vasodilators

Question 10

What does vWF do?

Answer 10

vWF → help platelets adhere to subendothelial layer

Question 11

What does Tissue Factor (TF) do?

Answer 11

• TF → activates clotting cascade when vessel is injured

Question 12

Which mediators that are released by the endothelial cells cause vasoconstriction? Which cause vasodilation?

Answer 12

• Constrict → thromboxane A2 and ADP
• Dilate → NO and PGI₂

Question 13

What are the functions of the following Procoagulants:

• Coagulation factors
• Collagen
• vWF
• Fibronectin
• Thrombomodulin

Answer 13

• Coagulation factors → coagulation
• Collagen → tensile strength & plt adhesion
• vWF → plt adhesion
• Fibronectin → cell to cell adhesion
• Thrombomodulin → anticoagulation

Question 14

What are the functions of the following Anticoagulants:

• Antithrombin IlI
• Tissue pathway factor inhibitor (TFPI)

Answer 14

• Antithrombin IlI → Degrades factors XII XI X IX II (2, 9, 10, 11, 12)
• TFPI → Inhibits TF

Question 15

What are the functions of the following Fibrinolytics:

• Plasminogen
• tPA
• Urokinase

Answer 15

• Plasminogen →Converts to plasmin
• tPA → Activates plasmin
• Urokinase → Activates plasmin

Question 16

Besides vasodilation what other function does Prostacyclin provide?

Answer 16

• Inhibits aggregation

Question 17

Which layer of a blood vessel is extremely thrombogenic and very active?

Answer 17

• Media (subendothelial)

Question 18

Which two substances does the media contain that play important roles in clotting? What does each substance do?

Answer 18

• Collagen → potent stimulus for platelet attachment to vessel wall
• Fibronectin → Facilitate anchoring of fibrin during hemostatic plug formation

Question 19

How does the adventitia control blood flow?

Answer 19

• Influences blood flow via vessel contraction using NO and prostacyclin

Question 20

How does vasodilation of the adventitia limit the activity of procoagulant mediators?

Answer 20

• ↑ BF washes the procoagulants away

Question 21

Briefly explain how NO enables vasodilation?

Answer 21

NOS → L-arginine to NO → NO activates sGC in muscle → sGC activates cGMP → relaxation/dilation

• Nitro Oxide Synthaze converts L-arginine to NO
• NO diffuses into VSM and activates soluble guanylate cyclase (sGC)
• sGC activates cGMP which then causes VSM relaxation

Question 22

What are Eicosanoids?

Answer 22

PGs and other compounds such as:

• Prostacyclin
• Leukotriene
• Thromboxane

Question 23

What are the 4 phases of Hemostasis and Coagulation?

Answer 23

• Vascular phase (Vascular spasm)
• Primary hemostasis (Formation of platelet plug)
• Secondary hemostasis (Coagulation and formation of fibrin)
• Fibrinolysis (Lysis of clot)

Question 24

What happens during the Vascular Phase of hemostasis and coagulation?

Answer 24

• Damaged blood vessels cause vascular spasm of smooth muscle in vessel wall
• Localized to the injured area

Question 25

What are the primary hormones involved in the Vascular Phase of hemostasis and coagulation? What do they do?

Answer 25

• Endothelins → stimulate VSM and cell division of endothelial smooth muscle and fibroblast cells which help repair damaged site

Question 26

Vasospasm MAY slow down/stop bleeding depending on what?

Answer 26

BP

Question 27

What phase occurs after vascular contraction causes tamponade?

Answer 27

• Primary hemostasis

Question 28

What two things occur during Primary Hemostasis?

Answer 28

• Injured blood vessel attracts platelets
• Initiates the phases of platelet formation

Question 29

What are the three phases of platelet plug formation?

Answer 29

• Adherence
• Activation
• Aggregation

Question 30

What effect causes the platelet circulating in the blood to be positioned near the vessel wall?

Answer 30

• Platelets are smaller than RBCs/WBCs and get pushed to the sides of the vessel

Question 31

What shape do platelets have that allow them to circulate freely in the blood?

Answer 31

They are round and disk-like

Question 32

Where are platelets formed?

Answer 32

In the bone marrow from megakaryocytes

Question 33

According to our class what is the normal concentration of platelets in the blood? How long do they live?

Answer 33

• 150000 to 300000 /mm3
• 1-2 wk lifespan

Question 34

Which 2 systems clear old platelets from the blood?
How much of the circulating platelets are stored in the spleen?

Answer 34

• Macrophages in the reticuloendothelial system
• Spleen (holds ⅓ of circulating plts)

Question 35

In general what do the glycoproteins on the external membrane of the platelet do? What about GpIb and GpIIb-IIIa?

Answer 35

• Adheres to injured endothelium collagen and fibrinogen
• GPIb → attaches platelet to vWF
• GPIIb-IIIa → links activated platelets together to form plug

Question 36

What do the phospholipids on the surface of the platelet do?

Answer 36

• Substrates to PG synthesis
• Produce TXA2 which activates platelet

Question 37

Which platelet surface glycoprotein doesn’t have a lot of options to reverse its effects?

Answer 37

• GPIIb-IIIa

Question 38

What are the 5 platelet surface receptors for antiplatelet therapy?

Answer 38

• ADP
• GP1b
• GPIIb-IIIa
• Thrombin
• TXA2

Question 39

Describe the role of each of the following substances/structures found inside a platelet:

• Actin and myosin
• ADP
• Calcium
• Fibrin-stabilizing factor
• Growth factor
• Serotonin
• Thrombosthenin

Answer 39

• Actin and myosin → Contraction to form the PLT plug
• ADP → PLT activation and aggregation
• Calcium → Plays a role in the coagulation cascade
• Fibrin-stabilizing factor → Cross links fibrin
• Growth factor → Repairs damaged vessel walls
• Serotonin → Activates nearby PLT
• Thrombosthenin → PLT contraction

Question 40

Explain the process by which platelets adhere to each other?

Answer 40

• vWF released from endothelial cells onto the endothelial lining
• GPIb receptors emerge from platelet surface
• GPIb binds to vWF and this process attracts other platelets

Question 41

What change does the presence of TF cause to the platelet?

Answer 41

• Platelet has conformational change and is activated
• GPIIb-IIIa projects outward from platelets and links them to each other → purpose is to create a platelet plug
• Seal it and heal it…

Question 42

During aggregation which mediators are released from the platelets themselves (when they are activated)?

Answer 42

• alpha and dense granules
• contractile granules
• thrombin

Question 43

During aggregation what is the role of the mediators released from the activated platelets?

Answer 43

• Promote procoagulant activity
• Form a primary unstable clot

Question 44

What is the difference between a primary clot and a secondary clot?

Answer 44

• Small injury → primary clot (or plug) is enough to provide hemostasis
• Large injury → clotting cascade must be activated to create/stabilize secondary clot for hemostasis

Question 45

During secondary hemostasis fibrin production requires which clotting factors in order to proceed?

Answer 45

• all of them

Question 46

Which protein is probably the single most important protein in the clotting cascade?

Answer 46

• Fibrin

Question 47

What is a very general explanation of the clotting cascade?

Answer 47

• A series of enzymatic reactions (clotting cascade) that ultimately activate prothrombin to thrombin which then converts soluble fibrinogen to fibrin

Question 48

What are the 2 paths of the clotting cascade? They ultimately join together to form…?

Answer 48

• Intrinsic
• Extrinsic
• Common path

Question 49

What are the Vitamin K dependent clotting factors?

Answer 49

• Factors II, VII, IX, X

Question 50

What is the name and source of factor I? Is it Vitamin K dependent?

Answer 50

• Name: Fibrinogen
• Source: Liver
• Vit K: no

Question 51

What is the name and source of factor III? Is it Vitamin K dependent?

Answer 51

• Name: Tissue Factor (TF) or Thromboplastin
• Source: vascular wall/extracellular membrane/released from injured cells
• Vit K: No

Question 52

What is the name and source of factor II? Is it Vitamin K dependent?

Answer 52

• Name: Prothrombin
• Source: Liver
• Vit K: Yes

Question 53

What is the name and source of factor IV? Is it Vitamin K dependent?

Answer 53

• Name: Calcium
• Source: Diet
• Vit K: n/a

Question 54

What is the name and source of factor V? Is it Vitamin K dependent?

Answer 54

• Name: Proaccelerin
• Source: Liver
• Vit K: No

Question 55

What is the name and source of factor VII? Is it Vitamin K dependent?

Answer 55

• Name: Proconvertin
• Source: Liver
• Vit K: Yes

Question 56

What is the name and source of factor VIII:C? Is it Vitamin K dependent?

Answer 56

• Name: Antihemophiliac factor
• Source: Liver
• Vit K: No

Question 57

What is the name and source of factor VIII:vWF? Is it Vitamin K dependent?

Answer 57

• Name: vonWillibrand Factor
• Source: Vascular endothelial cells
• Vit K: n/a

Question 58

How can we compensate for vWF deficiency?

Answer 58

• DDAVP infusion

Question 59

What is the name and source of factor IX? Is it Vitamin K dependent?

Answer 59

• Name: Christmas Factor
• Source: Liver and other tissues
• Vit K: Yes

Question 60

What is the name and source of factor X? Is it Vitamin K dependent?

Answer 60

• Name: Stuart-Prower Factor
• Source: Liver
• Vit K: Yes

Question 61

What is the name and source of factor XI? Is it Vitamin K dependent?

Answer 61

• Name: Plasma thromboplastin antecedent
• Source: Liver
• Vit K: No

Question 62

What is the name and source of factor XII? Is it Vitamin K dependent?

Answer 62

• Name: Hageman Factor
• Source: Liver
• Vit K: No

Question 63

What is the name and source of factor XIII? Is it Vitamin K dependent?

Answer 63

• Name: Fibrin Stabilizing Factor
• Source: Liver
• Vit K: No

Question 64

Which clotting factors come from the liver?

Answer 64

• All of them except III IV and vWF (VIII:vWF)

Question 65

Explain how the Extrinsic pathway works up to the common path.

Answer 65

For37cents you can purchase theextrinsicpathway
* TF released from subendothelium during injury → TF or factor 7 activates extrinsic path
* TF activates factor 7
* Factor 7 activates factor Xin the presence of factor 4 (Ca++)
* Prothrombin activator and platelet phospholipids activate factor 2 (thrombin) → this leads to common path
* Note: Factor 5 ↑ the production of prothromin activator (+ feedback)

Question 66

If the patient is low on Ca++ how will this effect the extrinisic path of the clotting cascade?

Answer 66

• It won’t work as well

Question 67

How long does it take a clot to form via the extrinsic path?

Answer 67

• 12 to 15 sec

Question 68

Explain how the Intrinsic pathway works up to the common path.

Answer 68

If you can’t buy theintrinsicpathway for $12 you can buy it for $11.98.
* Blood trauma or exposure to Collagen → activates factor XII
* Factor XIIa activates factor XI → this step needs HMW kininogen and accelerated by prekalllikrein
* Factor XIa activates factor IX
* Factor IXa and VIII activate factor X
* Prothromin activator and phospholipids activate factor IIa (thrombin) → leads to common path

Question 69

Which pathologies will prevent factor X from being activated in the intrinsic path?

Answer 69

• Hemophilia A → Factor VIII missing
• Thrombocytopenia → Platelets (phospholipids) missing

Question 70

How long does it take to creat a clot via the intrinsic path?

Answer 70

• 6 minutes

Question 71

Explain how the Common pathway works.

Answer 71

The final common pathway can be purchased at the five(V) and dime(X) for 1(I) or 2(II) dollars on the 13th (XIII) of the month
* Prothrombin activator changes prothrombin (II) to thrombin (lla)
* Thrombin changes fibrinogen to fibrin in the presence of Ca++
* Fibrin is added to platelet plug
* Activated fibrin-stabilizing factor (XIlla) cross-links fibrin-fibers to complete the clot

Question 72

When the clotting cascade gets activated what else does the body activate?

Answer 72

• Fibrinolysis

Question 73

What is fibrinolysis?

Answer 73

• Prevents clotting from going out of control (+ feedback loop)
• Prevents excessive deposition of fibrin

Question 74

What is the primary mechanism that begins Fibrinolysis? What is a secondary activator?

Answer 74

• tPA released by damaged endothelial cells
• urokinase

Question 75

Where is urokinase produced and what is its purpose?

Answer 75

• Produced by kidneys → helps prevent small clots from clogging up kidneys

Question 76

What are two fibrinogenic factors involved in fibrinolysis? What do they do?

Answer 76

• Kallikrein
• Neutrophil elastase
• Convert plasminogen to plasmin → plasmin breaks down fibrin

Question 77

Explain how fibrinolysis works?

Answer 77

• Plasminogen is converted to Plasmin via tPA and UPA
• Plasmin degrades fibrin into “split” products

Question 78

What is a normal platelet values for our class?

Answer 78

• 150,000 to 300,000/mm3

Question 79

What is a normal bleeding time (BT) for our class?

Answer 79

• BT = 3-10 min

Question 80

What is a normal PT for our class?

Answer 80

• PT = 12-14 sec

Question 81

What is a normal aPTT for our class?

Answer 81

• aPTT = 25-35 sec

Question 82

What is a normal thrombin time (TT) for our class?

Answer 82

• TT = 30 secs

Question 83

What is a normal activated clotting time (ACT) for our class?

Answer 83

• ACT = 80-150 secs

Question 84

What is a normal fibrinogen level for our class?

Answer 84

• Fibrinogen ≥ 150 mg/dL