Drugs for Venous Thromboembolism

Question 1

Formation of prothrombin (factor II)
a. Decarboxy prothromin is biologically inactive unless it is 1).
b. The reaction requires carbon dioxide,
molecular oxygen, and 2). It is catalyzed by 3)
c. In the process of carboxylation
vitamin K is oxidized to its corresponding epoxide

Answer 1

1) carboxylated
2) reduced vitamin K
3) γ-glutamyl carboxylase;

Question 2

Formation of prothrombin (factor II)
Reduced vitamin K is regenerated
from the epoxide by the enzyme
1).
2) are biologically activated by the same mechanism.

Answer 2

1) vitamin K epoxide reductase;
2) coagulation factor II
(prothromin), factors VII, IX,
and X and the anticoagulant
proteins C and S

Question 3

Results from clot formation in the venous circulation; manifested as deep
vein thrombosis (DVT) or pulmonary embolism

Answer 3

Venous thromboembolism

Question 4

A number of factors increase the risk of developing VTE including1).

Answer 4

1) age,

history of VTE, venous stasis, vascular injury, and drug therapy

Question 5

Once formed a venous thrombus may:

Answer 5

a. remain asymptomatic
b. spontaneously lyse
c. obstruct the venous circulation
d. propagate into more proximal veins
e. embolize
f. act in any combination of these

Question 6

Xa and IIa inhibitors

Answer 6

heparin and low-molecular weight heparin aka Enoxaparin

Question 7

Unfractionated heparin

derived from 1) or porcine intestinal mucosa

Answer 7

1) bovine lung

Question 8

Unfractionated heparin

made up of repetitive units of 1) and 2)

Answer 8

1) D-glycosamine

2) uronic acid

Question 9

heparin and LMWH (and fondaparinux) have no 1) Instead, they bind to 2) and
accelerate the rate at which it inhibits various coagulation proteases
(e.g., thrombin and Xa).

Answer 9

1) intrinsic
anticoagulant activity.
2) antithrombin

Question 10

Heparin:
1) on the heparin molecule binds 2) provoking a conformational change;
the 3) is 100x-1000x more potent as an anticoagulant compared to antithrombin alone

Answer 10

1) Pentasaccharide
2) antithrombin
3) heparin-antithrombin
complex

Question 11

how does Heparin inactivate thrombin (factor IIa)?
-the unfractionated heparin molecule contains enough 1) (>18) to form a 2) bridging 3)
inactivating thrombin

Answer 11

1) saccharides
2) ternary complex
3) antithrombin and thrombin

Question 12

how does Heparin inactivate Factor Xa?
-inactivation of factor Xa does not require the bridging between 1); it requires only the binding of antithrombin to the pentasaccharide

Answer 12

1) antithrombin and thrombin

Question 13

Heparin inactivates Factor IIa (thrombin) and Xa; compare?

Answer 13

To inactivate Thrombin, forms a ternary complex to bridge antithrombin and thrombin;
To inactivate Factor Xa–> antithrombin ginds to the pentasaccharide

Question 14

Heparin
anti-Xa to anti-IIa ratio is 1)
LMWH (enoxaparin) anti-Xa to anti-IIa ratio is 2)

Answer 14

1) 1:1

2) 4:1

Question 15

heparin uncouples from 1) after it has produced its effect

and quickly recouples with another 1)

Answer 15

1) antithrombin

Question 16

the heparin-antithrombin complex is too large to inactivate Xa and thrombin within 1)
heparin prevents 2) of a formed thrombus allowing the patient’s own thrombolytic system to degrade the clot

Answer 16

1) a formed clot

2) growth and propagation

Question 17

The mechanism is the same as for heparin but it is less effective in inhibiting thrombin

Answer 17

Enoxaparin (LMWH)

Question 18

why are LMWH such as Enoxaparin have decreased activity against Thrombin (factor IIa) compared to Heparin

Answer 18

the low-molecular-weight heparins (enoxaparin) have a shorter
chain length which limits their activity against thrombin

Question 19

Heparin eliminated by two mechanisms:
(a) 1)enzymatically inactivate heparin
molecules - the process is zero order (saturable)
(b) heparin is also eliminated 2)(first order) but this process is slower

Answer 19

1) heparinases and desulfatases

2) renally

Question 20

heparin is administered 1) for prophylaxis;

2) is preferred for acute treatment (bolus dose followed by continuous infusion)

Answer 20

1) subcutaneously in abdominal fat

2) intravenous route

Question 21

the1) is used to assess anticoagulation with heparin; it is determined before administration and 6 hours later or after a dose
change

Answer 21

1) aPTT

Question 22

because the anticoagulant effect is more predictable, routine
laboratory monitoring is usually not necessary; when it is,
measurement of anti-factor Xa is used

Answer 22

Enoxaparin

Question 23

bioavailability and anticoagulant response after subcutaneous
administration is better than with heparin and is the route of
administration

Answer 23

Enoxaparin

Question 24

it is eliminated renally so half-life may be prolonged in patients with
renal impairment

Answer 24

Enoxaparin

Question 25

when bleeding occurs, heparin should be discontinued immediately and
1) administered; it forms a 2) with heparin with loss of anticoagulant activity

Answer 25

1) protamine

2) stable salt

Question 26

major bleeding with 1) less than with heparin but when it occurs protamine can be used;
however, Protamine does not bind as well to 1) as well as Heparin b/c of the shorter chains.

Answer 26

1) enoxaparin; LMWH

Question 27

Compare Protamine efficacy in Heparin vs. LMWH bleeding

Answer 27

More effective in reversing bleeding caused by Heparin than LMWH

Question 28

Heparin-induced thrombocytopenia –>more commonly seen with heparin (LMWH do not bind 1) to the same degree as heparin)

Answer 28

1) platelets

and PF-4

Question 29

because of cross-reactivity with heparin antibodies, 1) should not be use in patients diagnosed or have a history of HIT

Answer 29

1) LMWH (enoxaparin)

Question 30

Xa inhibitors: ID
(1) consists only of the
pentasaccharide
(2) causes a permanent
conformational change
in antithrombin
(3) it is not destroyed but
released to interact with other antithrombin molecules
(4) it has no direct effect on thrombin

Answer 30

Fondaparinux

Question 31

it has no direct effect on thrombin

Answer 31

Fondaparinux

Question 32

It is rapidly and completely absorbed (100% bioavailabilty) after subcutaneous administration
(2) eliminated renally and thus should not be used in patients with
severe renal impairment

Answer 32

Fondaparinux

Question 33

Direct Factor Xa inhibitor not requiring antithrombin

Answer 33

Rivaroxaban

Question 34

Inducer of P-gp will 1) concentration of Rivaroxaban;
inhibitors will 2).
Inducers of 3) will DEC. the concentration of Rivaroxaban;

Answer 34

1) DEC
2) INC
3) CYP3A4

Question 35

Contraindication:

Anti-platelet drug (aspirin, clopidogrel) can increase the risk of bleeding

Answer 35

Rivaroxaban

Question 36

Clinical use Rivaroxaban:
Thromboprophylaxis in
patients undergoing 1)
Treatment and secondary
prevention of 2)

Answer 36

1) hip or
knee replacement surgery
2) VTE (DVT or
pulmonary embolism)

Question 37

Direct thrombin inhibitors:
Able to inhibit 1)
thrombin

Answer 37

1) circulating and clotbound

Question 38

Direct thrombin inhibitors:
c.1) is the most potent since it
binds to both the active site and a
second site on the thrombin molecule
d. 2) bind only to the active site of thrombin

Answer 38

1) Lepirudin

2) Argatroban and dabigatran

Question 39

1) is rapidly absorbed from the gastrointestinal
tract and converted by 2) to dabigatran, which is the
active form

Answer 39

1) Dabigatran etexilate

2) serine esterases

Question 40

used in patients with HIT to prevent further

thromboembolic complications

Answer 40

Lepirudin and argatroban

Question 41

Primary and secondary prevention of thromboembolism in patients with nonvalvular atrial fibrillation

Answer 41

Dabigatran

Question 42

Dabigatran clinical use:

Answer 42

Primary and secondary prevention of thromboembolism in patients with nonvalvular atrial fibrillation

Question 43

The drug inhibits vitamin K epoxide reductase which is the enzyme that
regenerates reduced vitamin K. its action occurs in the liver

Answer 43

warfarin

Question 44

Warfarin has no effect on the activity on the clotting factors 1). Therefore the onset of warfarin activity depends upon
the rate of metabolism of the performed factors

Answer 44

1) that are

already formed

Question 45

There is a delay of several days between the drug administration and the
peak anticoagulant effect

Answer 45

warfarin

Question 46

Skin necrosis (Lesions are characterized by widespread thrombosis of
the microvasculature and can spread rapidly, sometimes becoming
necrotic and requiring debridement or amputation.)

Answer 46

warfarin

Question 47

Fetal toxicity: it includes abortion, fetal bleeding and a characteristic
pattern of malformations called 1)

Answer 47

1) fetal warfarin syndrome

Question 48

Absorption of warfarin in pt. taking cholestyramine

Answer 48

Reduced absorption b.c Warfarin binds to cholestyramine in the GIT;

Question 49

Drug interactions associated with decreased effect of Warfarin:

1) Cholestyramine
2) Increased metabolic clearance of drug secondary to ____

Answer 49

induction of hepatic enzymes (e.g., barbiturates);

Question 50

Effect on warfarin

Ingestion of large amounts of vitamin K-rich foods or supplements

Answer 50

Decreases effect of Warfarin

Question 51

Drugs that INC. bioavailability of Warfarin and can cause hemorrhage:

1) drugs that inhibit P450 such as a);
2) Elimination of b)
3) Hormone replacement therapy for hypothyroid pts

Answer 51

a) Cimetidine;

b) intestinal flora by antibiotics

Question 52

Hormone replacement therapy for hypothyroid pts; effect on Warfarin

Answer 52

INC. effect of warfarin

Question 53

Hypothyroid patients catabolize coagulation factors 1)
than euthyroid patients. When thyroid function is normalized, anticoagulant effects can2) due to increased rate of catabolism of coagulation factors

Answer 53

1) more slowly

2) increase

Question 54

Contraindicated in pregnancy

Answer 54

WARFARIN

Question 55

Contraindicated in any disease that increases risk of hemorrhage

Answer 55

Warfarin

Question 56

-Prevention and treatment of VTE
-In patients with a) and a presumed cardiac source of
embolism, warfarin is the antithrombotic agent of first choice for primary
and secondary prevention of b)

Answer 56

a) atrial fibrillation

b) ischemic stroke

Question 57

Genetic variations in the 1) (responsible for metabolizing

warfarin) and vitamin K epoxide reductase (VKOR) have been shown to correlate with warfarin dose requirements

Answer 57

1) CYP2C9 isozyme

Question 58

Routine monitoring of the 1) is used to
assess anticoagulation in Warfarin use; the goal range is determined by the therapeutic
indication; usually a target of 2) with an acceptable range of 3)

Answer 58

1) INR (International Normalized Ratio)
2) 2.5
3) 2.0-3.0.

Question 59

Bleeding or high INR in WARFARIN
(1) administered orally or intravenously can be used to lower
the INR rapidly
-In cases of serious or life-threatening bleeding, 1) should be administered with 2)

Answer 59

1) Vitamin K
2) fresh-frozen plasma, clotting factor concentrates,
or recombinant factor VIII.

Question 60

Treatment of acute venous thromboembolism (DVT or PE):
Initiate therapy with rapid-acting injectable anticoagulant such as 1)
Begin 2) concurrently with rapid-acting injectable
anticoagulant therapy;

Answer 60

1) (heparin, enoxaparin, fondaparinux)

2) warfarin therapy

Question 61

1) is indicated for treatment of DVT but it does not have the long-term history for use in DVT as the injectable agents have

Answer 61

1) Rivaroxaban

Question 62

Treatment of acute venous thromboembolism

Rapid acting injectable anticoagulant and warfarin concurrent therapy should overlap for 1) and until the INR is

Answer 62

at least 5 days;

2) INR is greater than or equal to 2.0

Question 63

Treatment of acute venous thromboembolism:
The warfarin dose should be periodically adjusted to maintain an INR
between 1)
c. The minimum duration of warfarin therapy for an acute first episode of
VTE is 3 months

Answer 63

1) 2.0 and 3.0.

Question 64

Advantage and disad. of Rivaroxaban over Warfarin

Answer 64

It does not need to be monitored;

however unlike warfarin it is NOT reversible

Question 65

How to treat VTE in pregnant person;

Answer 65

Low-molecular weight heparins (e.g., enoxaparin);

Question 66

1) can be used in

pregnant patients with severe allergic reactions to heparin (e.g., HIT).

Answer 66

1) Fondaparinux and parenteral direct thrombin inhibitors

Question 67

1. Pathophysiology of HIT:
   a. Heparin binds 1) (released from activated platelets) forming a negatively charged polysaccharide molecule that is highly antigenic
   b. 2) antibody production is stimulated and 2) complexes with heparin-PF4
   c. The 3) complexes bind to Fc receptor on platelets leading to further activation of platelets and release of PF4
   d. PF4 and heparin-like molecules bind to the surface of endothelial cells resulting in antibody-induced endothelial cell damage and the release of tissue factor

Answer 67

1) PF4
2) IgG
3) IgG-heparin-PF4

Question 68

Heparin Induced Thrombocytpenia:

Net result: increased risk of thrombotic events secondary to 1)

Answer 68

1) platelet activation, endothelial damage, and thrombin generation

Question 69

HIT:
Thrombotic complications
(1) VTE is most common including DVT and pulmonary embolism; a) is less common
(2) Skin lesions, venous limb gangrene and anaphylactic-type reactions after intravenous heparin are atypical manifestations

Answer 69

a) arterial thrombosis

Question 70

Goal of therapy is to reduce the risk of thrombosis

Answer 70

HIT:

Question 71

HIT: drug of choice

Answer 71

Direct thrombin inhibitors (argatroban or lepirudin) are the drugs of
choice in patients with or without thrombosis

Question 72

HIT:
Patients without thrombosis receive therapy until the platelet count normalizes;
Patients with thrombosis should receive therapy with 1) and transition to 2) after platelet counts recover. 2)
therapy is then maintained for at least 6 months

Answer 72

1) direct thrombin inhibitors

2) warfarin