Coagulation

Question 1

4 steps of hemostasis

Answer 1

• Vascular spasm
• Platelet plug formation (primary hemostasis – fastest)
• Coagulation and formation of fibrin (secondary hemostasis– slower)
• Fibrinolysis once is clot is no longer needed

Question 2

These are procoagulants in the blood

Answer 2

Factors 1-13
Fibrinogen
Fibronectin
vWF

Question 3

These are anticoagulants in the blood

Answer 3

Proteins C & S
Antithrombin 3
Tissue pathway factor inhibitor

Question 4

These are fibrinolytics in the blood

Answer 4

tPA
Plasminogen
Urokinase

Question 5

These are antifibrinolytics in the blood

Answer 5

2 things and both work against plasminogen (which is a fibrinolytic)

1) alpha- antiplasmin
2) Plasminogen activator inhibitor

Question 6

Half life of platelets

Answer 6

1-2 weeks

Question 7

How to plts travel in the blood

Answer 7

Because they are small, they are pushed towards the vessel wall and slide against it, which places them close to their site of action

Question 8

These are inside plts

Answer 8

Actin and myosin (plt contaction)
Thrombosthenin (assists with contraction)
ADP (plt acivation and aggregation)
Calcium (Factor 4 – has many functions in the coagulation cascade)
Fibrin stabilizing factor (Factor 13 – crosslinks fibrin)
Serotonin (Activates nearby plus)
GF (helps to repair the damaged vessel)

Question 9

The healthy endothelium inhibits plt functioning by secreting

Answer 9

• Prostaglandin I2 (inhibits vWF, TxA2, and release of storage granules)
• NO (inhibits the TxA2 receptor, which is a platelet activator)

Question 10

How does the vessel contract in response to damage

Answer 10

The tunica media contracts as a result of SNS reflexes, myogenic response, and release of vasoactive substances like TxA2

Question 11

Purpose of vessel spasm

Answer 11

1) Reduces bloos loss

2) Keeps procoagulants in the area so they can do their job

Question 12

3 steps of platelet plug formation (primary hemostasis)

Answer 12

1) Adhesion
2) Activation
3) Aggregation

Question 13

How long does it take to make the plt plug?

Answer 13

About 5 minutes

Question 14

Plt adhesion

Answer 14

• Endothelial injury exposes collagen, which binds to plts at the Gp1a/2a and Gp IV receptors
• vWF is made and released from the endothelium, binding to GpIb plt receptor, anchoring the plt to the subendothelium

Overall, collagen is exposed and vWF is made and released, these bind to the plt via various receptors and adheres the plt to the vessel wall

Question 15

Plt activation

Answer 15

• Injured endothelium releases TF, and the TF activates plts
• Activated plts release ADP and TxA2 (these activate other nearby plts to facilitate aggregation. TxA2 is also a vasoconstrictor)
• Activated plts then contract to release the contents of their alpha granules (fibrinogen, fibronectin, vWF, PF4, and platelet growth factor). These call other plts to the site.
• Activated plts become swollen, weirdly shaped, and sticky. This weirdly shaped, sticky mass helps plts adhere to the injured vessel and other plts.
• Activated plts express two extra GPs on their surface (GpIIb and GPIIIa)

Question 16

Platelet Aggregation

Answer 16

• GpIIb/IIIa receptors form complexes with fibrinogen (which was released by the granules) to form a platelet plug
• ADP and TxA2 are needed for the receptor complex to accept fibrinogen

For microinjuries, a plt plug is good enough.
For larger vascular injury, the coagulation cascade is needed to make fibrin threads that will strengthen the clot.

Question 17

Pneumonic to remember the factors by name

Answer 17

Foolish people try climbing long slopes after christmas. Some people have fallen.

Question 18

How are the intrinsic and extrinsic pathways activated?

Answer 18

Extrinsic is activated when the cascade is initiated OUTSIDE of the vascular space

Intrinsic is activated when the cascade is initiated INSIDE the vascular space

Question 19

What is the cell based model of coagulation?

Answer 19

Our current understanding of coagulation, which is a hybrid of the intrinsic and extrinsic pathways.

In this model, coagulation is started by release of TF (3), which is the extrinsic pathway. The intrinsic pathway serves to AMPLIFY the thrombin generating effect of the extrinsic pathway.

Called cell based, bc it starts with the injured cells releasing TF. Remember that TF is released by the injured tissues, setting off the extrinsic pathway and activating platelets.

Question 20

Classical Extrinsic Pathway

Answer 20

1) TF is released from the subendothelium, initiating the extrinsic pathway and activating plts
2) TF activates factor 7. Activated factor 7 in the presence of calcium then activates factor X (Common final pathway).
3) Prothrombin Activator (as well as tissue phospholipids), turn prothrombin (Factor 2) into Thrombin. Prothrombin activator is another term for the collection of coagulation factors that leads to thrombin activation.

Question 21

Is the extrinsic pathway fast or slow?

Answer 21

Fast, only taking about 15 seconds. Remember, it’s fast because there are fewer steps compared to the intrinsic pathway.

By contrast, the intrinsic pathway takes about 6 minutes to form a clot.

Question 22

Classical Intrinsic Pathway

Answer 22

1) As blood is exposed to collagen, factor 12 is activated
2) 12a then activates 11
3) 11a then activates 9
4) Factors 9a and 8 work together to activate factor 10.
5) Then, just like in the extrinsic pathway, prothrombin activator and phospholipids work together to activate thrombin (turning factor 2 into 2a).

Question 23

The final common pathway begins with ___ and ends with _____

Answer 23

begins with thrombin (Factor 2a) and ends with the production of cross-linked fibers of fibrin

Question 24

Classical Common Final Pathway

Answer 24

1) Basically, the purpose of both intrinsic and extrinsic pathways are to make the factors that make up Prothrombin Activator, so that we can activate prothrombin to thrombin (Factor II to IIa)
2) The final common pathway begins the activation of II to IIa.

3) Thrombin (IIa), is an enzyme that changes fibrinogen (Factor I) into fibrinogen monomer.
In the presence of Calcium (Factor 4), these fibrin monomers form strands to make fibrin fibers.

4) Remember that the platelet plug is created first (it’s the fastest), and then it is stabilized by incorporating these fibrin fibers. Activated fibrin-stabilizing factor (Factor XIII) facilitates cross linkage of these fibers to complete the clot. Woohoo! This clot will stay in place until the underlying vascular tissue has healed itself.

Question 25

Proteins C & S inhibit these factors

Answer 25

III, V, and VII

Question 26

Process of Fibrinolysis

Answer 26

1) It starts with plasminogen, which is a proenzyme made by the liver and is incorporated into the clot as it’s formed. It lays dormant in the clot until it is activated.

2) Plasminogen is activated by tPA and urokinase into it’s active form plasmin.
- tPA is released by the injured tissue over a period of several days (major mechanism)
- Urokinase is made by the kidneys and released into circulation (minor mechanism)

3) Plasmin goes on to break up fibrin into various fibrin degradation products (which are measured by d-dimer).

Question 27

How is the fibrinolytic process turned off?

Answer 27

1) tPA inhibitor (tPAI) inhibits the conversion of plasminogen to plasmin
2) Alpha-2 antiplasmin inhibits plasmin’s action on fibrin

Question 28

Basics of the contemporary cell based model of coagulation

Answer 28

1) Initiation Phase
- Extrinsic pathway is activated by the expression of TF by damaged cells. Enters common final pathway and a small amount of thrombin is made, but not enough to convert fibrinogen to fibrin.

2) Amplification phase
- The small amount of thrombin that was made on the TF-bearing cells amplifies the coagulation response by activating platelets, factor 5 and factor 11.

3) Propagation Phase
- Begins with factor X becoming activated by Factors 4, 8, and 9 on the surface of a platelet. This results in a positive feedback mechanism that produces enough thrombin to activate fibrin.

Question 29

Heparin inhibits these pathways

Answer 29

Intrinsic and common final

Question 30

How does heparin work?

Answer 30

It binds to antithrombin III (AT3), which is a naturally occurring anticoagulant that circulates in the plasma. Once bound, heparin increases it’s anticoagulant ability 1000x

This heparin-AT3 complex neutralizes thrombin (IIa), and activated factors 9, 10, 11, and 12 (basically the entire intrinsic pathway).

Heparin also inhibits platelet function.

Question 31

What could be the cause of a failed heparinization?

Answer 31

The patient may have an AT3 deficiency.

Question 32

How is heparin eliminated?

Answer 32

Degradation by macrophages and renal excretion

Question 33

Is heparin safe in pregnancy?

Answer 33

Yes, it does not cross the placenta and is safe in pregnancy.

Question 34

Heparin dosing

Answer 34

Cardiac surgery: 300-400 units/kg
DVT prophylaxis: 5000 units SQ BID or TID

If active VTE, give 5000 units IV, then infuse at 1250 units/hour to maintain aPTT 1.5-2.5x normal (25-35 seconds)

Unstable angina/acute MI: Give 5000 units IV, then infusion at 1000 units/hr

Question 35

Activated Clotting Time (ACT)

Answer 35

Normal is 90-120 seconds

Should be > 400 for CPB

ACT should be measured before heparin is given, 3 minutes after it’s given, and every 30 minutes after that

Question 36

ACT is affected by

Answer 36

Hypothermia
Thrombocytopenia
A lack of fibrinogen (I), and factors 7, and 12

Question 37

Protamine (MOA, dose, clearance, and SE)

Answer 37

MOA: Is a highly alkaline compound with strong positive charge. Brings to the negative charge of heparin, which results in heparin’s inactivation.

Dose = 1mg for each 100 units of heparin given

Complex is cleared by the reticuloendothelial system

When given alone, it’s actually an anticoagulant

SE:
Hypotension (d/t histamine release)
Pulm HTN (due to TxA2 and serotonin release)
Allergic reaction (previous use of NPH insulin or fish allergy)

Question 38

How do aminocaproic acid and tranexamic acid work?

Answer 38

They are plasminogen activation inhibitors

Question 39

How does Plavix work?

Answer 39

ADP receptor inhibitor

Question 40

List some GpIIb/IIIa receptor antagonists

Answer 40

Abciximab
Eptifibatide
Tirofiban

Question 41

Name some COX 1 inhibitors

Answer 41

Rofecoxib

Celecoxib

Question 42

What is vitamin K needed to make?

Answer 42

Factors 2, 7, 9, and 10

Proteins C & S

Question 43

What medication is a factor X inhibitor?

Answer 43

Fondaparinux

Question 44

Warfarin needs to be stopped this many days prior to surgery

Answer 44

2-4 days

Question 45

Name some fibrinolytics

Answer 45

tPA
Streptokinase
Urokinase
Reteplase
Alteplase

Question 46

vW Disease is the most common inherited disorder of ____ function

Answer 46

Platelet function.

In this dz, the patient has a normal number of plts, but they don’t function properly due to a lack of vWF.

Question 47

Classes of vW Disease

Answer 47

1- mild to moderate reduction in ant produced
2- vWF produced doesn’t work well
3- no vWF is produced

Question 48

Lab findings in vWD

Answer 48

Increase in PTT and bleeding time

No change in other coagulation studies

Question 49

What is desmopressin used to treat? Also, talk about this medication

Answer 49

• Can treat Type I vWD (but not type III)
• Synthetic analogue of ADH that causes release of vWF and Factor 8
• Dose is 0.3-0.5 mcg/kg IV
• Bleeding time will be improved for 12-24 hours
  SE- vasodilation and hypotension with rapid administration

Question 50

Blood products that can be used to treat vWD

Answer 50

1) Cryoprecipitate
- Has vWF and factors 1, 8, and 13.
- Can be used for all types of vWD

2) FFP
- Has ALL of the clotting factors, so can be used for this patient, but is not the best option.

3) Purified Factor 8/vWF concentrate reduces the risk of transmitting a disease. This is the first line agent for Type III disease.

Question 51

Hemophilia A

Answer 51

• X linked disease leading to lack of Factor 8
• Mild disease associated with increased surgical bleeding
• Severe disease (factor 8 activity

Question 52

Anesthetic implications for hemophilia A

Answer 52

• Pt should have factor 8 prior to surgery
• Half life of factor 8 is 8-12 hours, so may need to be reduced. Therapy is continued for 2-6 weeks postop.
• FFP and cryo can also be used
• DDAVP ok in mild disease
• Antifibrinolytics like TXA or amicar can be used to minimize bleeding in dental procedures
• Need type and cross for all procedures

Question 53

Hemophilia B

Answer 53

Factor 9 deficiency
Mild disease may not even be diagnosed until unexplained bleeding after surgery
Severe disease is associated with severe bleeding (but not as bad as type A)
Will have prolonged PTT
Anesthetic considerations are same as with type A

Question 54

Factor IX - prothrombin complex

Answer 54

Can be used to replace factor 9, but can cause excessive clotting, so must assess benefit/risk ratio

Half life of 18-24 hours. Longer half-life than Factor 8

Question 55

What is DIC? What lab values do you see?

Answer 55

Disorganized clotting and fibrinolysis that leads to the simultaneous occurrence of hemorrhage and systemic thrombosis.

Basically, some underlying disorder tell the body to start coagulating. Increased fibrin formation leads to microvascular thrombosis and organ failure. On the other hand, plts and clotting factors are consumed, resulting in bleeding.

Increased PT, PTT, and D-dimer
Decreased plts and fibrinogen

Question 56

Patho of DIC

Answer 56

In the pt with DIC, TF (Factor III) is released in the absence of vascular injury. This activates the EXtrinsic cascade throughout the entire body (not just locally!)

• Microvascular clots cause tissue necrosis and organ failure
• Plts and clotting factors are all used up leading to hemorrhage.
• tPA and urokinase-type plasminogen activator are released to break down all these clots that are forming. You have simultaneous clot formation and destruction. D dimer levels are elevated.

Question 57

S/S of DIC

Answer 57

Bruising
Petechiae
Mucosal bleeding
Bleeding at IV site
Prolonged PT and PTT
Elevated D dimer
Decreased fibrinogen and antithrombin

Question 58

Treatment of DIC

Answer 58

1) Treat the underlying cause
2) Give activated protein C (which will inhibit factors V and VIIIa in the intrinsic cascade)
3) Give FFP, cryo, and plts to replace these things that have been depleted. Remember the patient is actively hemorrhaging as well.

Question 59

What is the MOA of warfarin?

Answer 59

Inhibits the enzyme responsible for activating vitamin K

Question 60

These are the antidotes for warfarin

Answer 60

Vitamin K (antagonist for warfarin)
FFP (replaces the deficient clotting factors)

Vitamin K can can be used for simple non-emergent cases
Use FFP for emergent or high risk procedures like cranis

Question 61

Synthetic vitamin K is also called

Answer 61

Phytonadione

Question 62

Dose of vitamin K

Answer 62

10-20mg PO, IV, or IM

IV route has been associated with anaphylaxis. Because of this, IV is not preferred, but if given, do not give faster than 1mg/min

Question 63

Antithrombin Deficiency

Cause and tx

Answer 63

Refers to lack of AT3, the body’s natural anticoagulant that heparin works on.

AT3 inhibits factors 7, 9, 10, and 11.

Repeated heparin administration can consume the body’s supply of AT3, and produce an acquired form of the dz.

Patients with the congenital form of this disease are at risk of developing VTE

Tx: AT concentrate and FFP

Question 64

Overall, what happens in HIT?

Answer 64

Clot formation throughout the body!

Basically, an allergic response to heparin. IgG antibodies activate platelets, resulting in uncontrollable clot formation. Plt count calls because they are being used up.

Question 65

Which is worse, type 1 or type 2 HIT?

Answer 65

Type 2
- High risk of amputation and death

Type 1 is self resolving even if heparin is continued. Minimal morbidity.

Question 66

Onset of HIT (type 1 vs 2)

Answer 66

Type 1
- Onset is 1-4 days after large administration

Type 2
- Onset is 5-14 days and can occur after ANY dose of heparin is given.

Question 67

Treatment of HIT

Answer 67

Type 1
- Self resolving

Type 2
- ANTICOAGULATE!! Use a direct thrombin inhibitor (Factor IIa) like bivalrudin, hirudan, or argatroban.

Question 68

Proteins C & S block this

Answer 68

Tissue factor (III)

Question 69

Factor V Leiden Mutation

Answer 69

Causes a resistance to protein C. Because it’s not responding to this natural anticoagulant, a hyper coagulable state develops.

Lifelong anticoagulation is not warranted unless the patient develops clots.

Question 70

Normal aPTT values

Answer 70

25-32 seconds

Question 71

Normal PT

Answer 71

12-14 seconds

Question 72

Plts below ____ place at risk for surgical bleeding and spontaneous bleeding once below _____

Answer 72

50,000 = surgical

20,000 = spontaneous

Question 73

Bleeding time

what it measures and normal value

Answer 73

Measures plt function
Normal is 2-10 minutes
ASA and NSAIDS prolong
Not usually used

Question 74

ACT normal value

Answer 74

Used to guide heparin dosing

Normal ACT is 90-120 seconds

Question 75

What is in Cryoprecipitate?

Answer 75

vWF and factors 1, 8, and 13