BL 02-27-14 11am-Noon Pharmacology of Anticoagulation Therapy - Leslie

Question 1

Classes of antithrombotic drugs:

Answer 1

1. Heparin and oral anticoagulants (prevent clots)
2. Fibrinolytic agents (clot busters)
3. Anti-platelet agents (prevent clots)

Question 2

Heparin and oral anticoagulants

Answer 2

• interfere w/ coagulation cascade

- prevent formation of thrombin, which converts fibrinogen to fibrin

Question 3

Fibrinolytic agents

Answer 3

• promote lysis of clots by increasing formation of plasmin, a serine protease that degrades fibrin

Question 4

Anti-platelet agents

Answer 4

• inhibit formation of platelet products or block

platelet adhesion, thus preventing platelet aggregation and clot formation

Question 5

Antithrombotic drugs affect & caution

Answer 5

• Antithrombotic drugs disrupt hemostasis.
• Therefore, fine balance btwn efficacy *& toxicity
• Pts on anti-coagulant therapy must be carefully monitored to avoid hemorrhage.

Question 6

Heparin - type of drug, source

Answer 6

= an anticoagulant
- occurs naturally in granules of mast cells
- extracted from porcine intestine or bovine lung for therapeutic use
-

Question 7

Heparin - 3 types

Answer 7

Unfractionated Heparin

Low molecular weight heparins (LMWH)

Question 8

Unfractionated Heparin

Answer 8

= Proteoglycan containing covalently-linked sulfated
polysaccharide chains of varying length
- Mean MW of 12,000 daltons
- Has the highest negative charge density of any known macromolecule –> poor pharmacokinetcs & bioavailability

Question 9

Low molecular weight heparins (LMWH)

Answer 9

• lovenox, enoxaparin, dalteparin, nadroparin

- Produced by chemical or enzymatic depolymerization of heparin to 1/3 the size of heparin (~4500 Daltons)

Question 10

Fondaparinux (Arixtra)

Answer 10

• Synthetic pentasaccharide corresponding to the minimal sequence in heparin for binding antithrombin

Question 11

Heparins are used for treatment and prevention of:

Answer 11

1. Venous thrombosis & pulmonary embolism (rapid onset of action )
   - – Used w/ oral anticoagulants & fibrinolytic drugs (heparin as initiation therapy, then switch to warfarin, etc.)
2. Unstable angina or acute MI
3. During & after coronary angioplasty or stent placement.
4. During surgery requiring cardiopulmonary bypass.
5. Kidney dialysis

Question 12

Toxicity of heparins

Answer 12

• Bleeding
• Heparin-induced thrombocytopenia syndrome (HIT)
• Allergic events

Question 13

Bleeding w/heparin

Answer 13

• Anticoagulant effect of heparin disappears w/in hours of discontinuation of drug
• If life-threatening hemorrhage occurs, effect of heparin (and LMWH) can be reversed w/ protamine sulfate (+charged compound that neutralizes heparin)

Question 14

Heparin-induced thrombocytopenia syndrome (HIT)

Answer 14

• Platelet count decreases (>50%) in 3-5% of patients 5-10 days after heparin
• Caused by development of Abs to platelet factor 4/heparin complexes
• These Abs bind to & activate platelets resulting in a prothrombotic state (venous thromboembolism, arterial thrombosis, MI, stroke)
• Thrombocytopenia is less common with LMWH

Question 15

Treatment of HIT (heparin-induced thrombocytopenia syndrome)

Answer 15

Direct thrombin inhibitors:

• Argatroban (Novastan) - small molecule inhibitor
• Lepirudin (Refludan) - Recombinant form of hirudin, the anticoagulant from leeches

Question 16

Allergic events w/ heparin

Answer 16

• Due to contaminant oversulfated chondroitin sulfate (rarely if ever found in nature).
• Activation of contact system (production of bradykinin & complement activation).
• Development of improved screening methods

Question 17

Warfarin (coumadin)

Answer 17

• the most commonly used oral anti-coagulant

Question 18

Source/structure of Warfarin

Answer 18

= a derivative of dicumarol, which was discovered as a component in spoiled sweet clover responsible for a hemorrhagic disease in cattle
- Warfarin (Wisconsin Alumni Research Foundation) initially was made (1948) for rodent control
= a vitamin K analogue

Question 19

Action of Warfarin

Answer 19

= inhibits enzymes that use vitamin K as a
cofactor (acts as VitK cofactor)
- Several coagulation proteins (II, VII, IX & X) undergo vitamin K-dependent gamma carboxylation of N-terminal glutamates
- Vitamin K undergoes oxidation/reduction during the rxn

• Recycling of vitamin K to reduced form by reductases is inhibited by warfarin
• –> depletion of vitamin K
• Coagulation proteins lacking gamma carboxylation cannot bind calcium and are non-functional.

Question 20

Pharmacokinetics of warfarin

Answer 20

• rapidly absorbed (90 min)
• good bioavailability
• long half-life (36-48 hr).

Full antithrombotic effect of warfarin not achieved until existing coagulation factors in circulation are removed (requires 2-3 days), then they can be replaced by the inactivated factors
—> takes time (3-5 days til action)

Question 21

Warfarin is used to prevent:

Answer 21

• Venous thromboembolism (in combo w/ heparin, which acts more rapidly)
• Systemic embolism in patients w/ prosthetic heart valves or atrial fibrillation
• Stroke, recurrent infarction, or death in pts w/ acute MI

Question 22

Adverse effects of Warfarin

Answer 22

Hemorrhage

• Drug is stopped & vitamin K is administered (takes 24-48 hr for reversal since coagulation factors have to be resynthesized)
• Can transfuse plasma to replace coagulation factors

Teratogenic
- Cannot be used during pregnancy since it crosses the placenta & is teratogenic

Question 23

Drug and food interactions with Warfarin: Increasing Warfarin affect

Answer 23

• Drugs that inhibit platelet function (aspirin).
• Drugs that decrease vitamin K synthesis by intestinal microbes (antibiotics).
• Drugs that displace warfarin from plasma proteins, effectively increasing [active free drug] (clofibrate, phenytoin)
• Drugs that reduce metabolism & elimination of warfarin in liver (cimetidine, amiodorone, phenylbutazone).

Question 24

Drug and food interactions with Warfarin: Decreasing Warfarin affect

Answer 24

• Drugs that increase the metabolism by inducing metabolic enzymes in the liver (barbiturates, rifampin).
• Drugs that decrease warfarin absorption from the GI tract (cholestyramine).

Question 25

New oral anticoagulants - Direct thrombin or Factor Xa inhibitors - Advantages

Answer 25

• Rapid onset of action
• Absence of food interactions
• Do not require monitoring (though this is being rethought)

Question 26

New oral anticoagulants - Direct thrombin or Factor Xa inhibitors - Disadvantages

Answer 26

• Contraindicated w/ kidney disease
• Greater GI bleeding than w/ warfarin
• Short half-life (2 per day –> compliance issues)
• Cost (20X>warfarin)
• No antidote available to reverse effects

Question 27

Dabigatran etexilate (Pradaxa)

Answer 27

• new oral anticoagulant
• direct thrombin inhibitor
• FDA approved 2010 in atrial fibrillation
• Oral prodrug converted to dabigatran, a potent, direct inhibitor of thrombin.-
• Lower rates of stroke & systemic embolism than with warfarin
• Less intracranial hemorrhage (but increased MI)
• Should not be used in pts w/ prosthetic heart valves (inferior to warfarin)

Question 28

Apixaban (Eliquis)

Answer 28

• new oral anticoagulant
• Factor Xa inhibitor
• FDA approved 2012 for atrial fibrillation

Question 29

Rivaroxaban (Xarelto)

Answer 29

• new oral anticoagulant
• Synthetic anti-coagulants that directly inhibit Factor Xa
• FDA approved 2011, 2012 for atrial fibrillation, VTE
• Superior to warfarin in preventing strokes & emboli for treatment of atrial fibrillation

Question 30

Fibrinolytic Agents - action

Answer 30

Convert plasminogen to plasmin, a protease that degrades fibrin clots

Question 31

Tissue plasminogen activator (t-PA) (Alteplase)

Answer 31

• a fibrinolytic agent
• Serine protease produced by recombinant DNA technology
• Newer modified forms can be given as bolus injections & have prolonged half-life (retoplase, lanoteplase, tenecteplase)
• The t-PA type fibrinolytic drugs bind fibrin, which increases cleavage of plasminogen to plasmin.

Question 32

Urokinase (u-PA) (Abbokinase)

Answer 32

• a fibrinolytic agent
• Enzyme obtained from renal cells in culture that
  converts plasminogen to plasmin
• Does not bind fibrin

Question 33

Streptokinase (Streplase)

Answer 33

• a fibrinolytic agent
• Non-enzymatic protein obtained from β-hemolytic
  streptococci (less expensive than t-PA)
• Forms complex w/ plasminogen, which becomes activate and converts to plasmin

Question 34

Fibrinolytic agents are used for treatment of…

Answer 34

• Acute MI (AMI) - Used in combo w/ aspirin, ASAP after MI (or else not effective)
• Ischemic stroke - Effective if given w/in 3 hr after
• DVT - Used in conjunction w/ heparin / warfarin treatmen
• PE

Question 35

Adverse effects of Fibrinolytic agent

Answer 35

• Hemorrhage from lysis “physiologic thrombi” at sites of vascular injury
• Induces systemic lytic state due to increased formation of plasmin which destroys other coagulation factors (V,VIII).
• Allergic rxn & formation of Abs to streptokinase

Question 36

Antiplatelet Drugs - use

Answer 36

• Platelets provide initial hemostatic plug at sites of vascular injury & contribute to pathological thrombi
• Antiplatelet drugs treat acute coronary syndrome (angina, MI) characterized by atherosclerotic plaque rupture & platelet-mediated thrombosis

Question 37

Three classes of anti-platelet drugs

Answer 37

1. inhibit formation of platelet products (aspirin)
2. prevent activation/aggregation (ADP receptor antagonists)
3. block adhesion proteins (glycoprotein
   IIb/IIIa inhibitors)

Question 38

Aspirin (acetylsalicylic acid)

Answer 38

• anti-platelet drug
• Irreversibly inactivates COX, preventing thromboxane A2 formation by platelets
• Since platelets cannot synthesize new proteins (i.e. COX) the effect is permanent, lasting the life of the platelet (7-10 days)
• used in combination w/ thrombolytic therapy after AMI & thrombotic stroke
• Used for prevention of AMI & stroke in high-risk pts with atherosclerosis

Question 39

ADP receptor antagonists

Answer 39

• Thienopyridines (clopidogrel (Plavix), ticlopidine (Ticlid), prasugrel
• Ticagrelor (approved 2010)

Question 40

Thienopyridines - examples

Answer 40

= ADP receptor antagonists
Examples:
- clopidogrel (Plavix)
- ticlopidine (Ticlid)
- prasugrel.

Question 41

Thienopyridines - action

Answer 41

= Oral antiplatelet agents that bind to ADP receptor (P2Y12) on platelets

• block platelet activation by ADP, which inhibits secretion of alpha granules & blocks expression of adhesion proteins GPIIb/IIIa
• binds irreversibly to platelets —> effect lasts for platelet life span (7-10 days)

Question 42

Thienopyridines - pharmacokinetics

Answer 42

• rapidly absorbed
• BUT have slow onset of action (max effect in 5-7
  days) b/c prodrugs (metabolized in liver to active
  intermediate –> variable patient responses)

Question 43

Thienopyridines - uses

Answer 43

• Prevention of cardiac events in pts w/ atherosclerosis & unstable angina in combo w/ aspirin
• Pts w/ aspirin intolerance
• Clopidogrel has fewer adverse effects but Prasugrel is most potent (shown in clinical trails to be better than clopidogrel in preventing death & MI (increased risk of bleeding & cancer))

Question 44

Ticagrelor - action

Answer 44

• Oral ATP analogue that binds reversibly to ADP receptor P2Y12

Question 45

Ticagrelor - use/pharmacokinetics

Answer 45

• More rapid action than thienopyridines since it does not require metabolic activation
• Greater platelet inhibition than clopidogrel.
• in treatment of acute coronary syndrome, ticagrelor reduced rate of death w/out an increase in overall major bleeding (compared to clopidogrel)

Question 46

Glycoprotein IIb/IIIa (GPIIb/IIIa; αIIbβ3)

Answer 46

= an adhesion protein (integrin) on the surface of platelets that is a receptor for fibrinogen

Question 47

Glycoprotein IIb/IIIa (GPIIb/IIIa; αIIbβ3) inhibitors - action

Answer 47

= block receptor for fibrinogen (Glycoprotein IIb/IIIa) on surface of platelets —> prevent platelet aggregation

Question 48

Glycoprotein IIb/IIIa (GPIIb/IIIa; αIIbβ3) inhibitors - examples

Answer 48

Abciximab (Reopro)

Eptifibatide (Integrilin)

Question 49

Abciximab (Reopro)

Answer 49

= Monoclonal antibody fragment against glycoprotein receptor, GPIIb/IIIa

• used following coronary angioplasty & for unstable angina
• Prevents restenosis, recurrent AMI & death when used w/ aspirin & heparin
• Also used in combo w/ thrombolytic drugs for AMI.
• Given IV, inpatient use only

Question 50

Eptifibatide (Integrilin)

Answer 50

Cyclic peptide inhibitor of binding site on GPIIb/IIIa that is used for unstable angina & during angioplasty

Question 51

Tirofiban (Aggrastat)

Answer 51

Small molecule inhibitor used for treatment of unstable angina & MI

Question 52

Adverse effects of Glycoprotein IIb/IIIa inhibitors

Answer 52

• bleeding & thrombocytopenia

- can be reversed by platelet infusions