Antithrombotics

Question 1

difference between red clot and white clot, and what kind of drugs to treat with

Answer 1

red: venous slow flow (fibrin, platelets, RBCs)
white: arterial faster flow (fibrin and platelets)

Treat both with anticoagulants and
but also treat white with antiplatelets

Question 2

the therapeutic range for antithrombotics is…

because…

Answer 2

narrow.

hemostasis : fine line between anticlotting (bleed out) and clotting (thombi/emboli)

Question 3

true or false: much of antithrombosis is for treatment

Answer 3

false. it’s mostly for prophylaxis since it doesn’t break up a clot, it stops them from forming/growing

Question 4

antiplatelets

Answer 4

stop platelets from sticking and aggrigating in the clot

Question 5

antitcoagulants

Answer 5

stop fibrin mesh from forming

Question 6

when do you see red clots (name 3 reasons they are made)

Answer 6

1) Hypercoagulable states (genetics)
2) When blood pools/moves slowly (immobile post surgery, long flights, A fib)
3) With Foreign objects (vascular access device, catheter, surgical implants, central venous line)

Question 7

2 clinical examples of a red clot

Answer 7

DVT–> pulmonary embolism

Question 8

why/when we see white clots

Answer 8

Plaque ruptures, then white clot forms on rupture site

so. ..
1) atherosclerosis:
2) foreign objects (mechanical heart valve, Percutaneous coronary intervention)

Question 9

clinical examples of white clot patents

Answer 9

MI, unstable angina, STEMI, nonSTEMI, CVD, TIA from plaque on carotid artery, Peripheral vascular disease

Question 10

a xymogen is a ___________ and is _____ by a ____________

Answer 10

coagulation factors (enzymes that are inactive) and is ACTIVATED by a protease

Question 11

key targets for anticoagulation

Answer 11

the common pathway. Goal is to diminish activity in Factors Xa &/or IIa

Question 12

4 steps in common pathway to a clot

Answer 12

1) X–>Xa–> protrhombinase complex (XaVa)
2) this activates II–>IIa (protrombin–> thrombin)
3) which activates Fibrinogen –> fibrin
4) —> fibrin clot 3D matrix (+platelets or RBCs depending if venous or arterial)

Question 13

true or false

The grandaddy, Heparin gets rid of the clot in your grandaddy.

Answer 13

False. it’s an anticoagulant… they only prevent them not dissolve them.

Question 14

Heparin wouldn’t get approved by FDA today because

Answer 14

it’s a bunch of molecules that are stuck together… polysacharide with a bunch of acidic sulfides.

Question 15

Heparin gets into the BBB to prevent ischemia (true or false)

Answer 15

False… highly charged, can’t take orally, can’t cross BBB, safe for pregnancy… stays in blood vessels

Question 16

heparin’s 1st mode of action

Answer 16

1) Heparin’s pentasaccharide bind to Antithrombin (AT)

2) Xa binds to AT 1000x faster with heparin, so it deactivates the clotting cascade.

Question 17

antithrombin is most potent anticlotter and called the _________

Answer 17

suicide bait (it fools Xa to bind covalently and deactivates it at a 1:1 ratio)

Question 18

heparin’s 2nd mode of action

Answer 18

long chain that has IIa at one side and AT at other, and they bridge and bump and bind (lessoning 3 dimensionally space to 1 dimension (a line)

Question 19

how does unfractionated Heparin work differently from the other -parin’s

Answer 19

Heparin has whole mess of polysaccharides, including the pentasacc that binds AT, and also the long chains that bind AT at end so it does both Xa and IIa

LMW Heparin does Xa and IIa

Fondaparinux is only the pentasaccharide so it only does Xa (not IIa)

Question 20

IIa is also called

Answer 20

thrombin… so heparin knocks out thrombin with antithrombin catalization

Question 21

what is enoxaparin

Answer 21

a low molecular weight heparin… has shorter chains than unfractionated, but deactivates Xa»>IIa

Question 22

how are the 3 heparins eliminated

Answer 22

unfractionated hep: liver
LMW hep: kidney
Fondaparinux: kidney

Question 23

how do you know if they have too much heparin in their system, and what to do if so?

Answer 23

constantly monitoring for unfractionated heparin. Give Protamine to neutralize excessive bleeding.

Question 24

what is HIT in regards to anticoagulants

Answer 24

1) Heparin-induced thrombocytopenia.
2) Antibody produced after 8+ days on Heparin because …
3) Platelets release + charged granules (like platelet factor 4) which binds to the - heparin creating an antigen, then body sees foreign and attacks.
4) Atg binds to Aby and activates platelet to make white clot–> thrombi in terminal vessels= HIT
(sorry so long)

Question 25

what is Gla

Answer 25

gamma-Carboxyglutamate aka “Gla” attaches coag factors and AntiCoag to platelets and includes extrinsic, intrinsic, and common pathway (Xa, VII, IX, X), and anticoag’s (protein C and S)

Question 26

what do Gla’s do?

Answer 26

chelate Ca++ and enable attachment to platelet membrane,

required to have functional coagulation factor to work

Question 27

what does Warfarin do

Answer 27

it blocks Gla formation, can’t bind to Xa

Question 28

how does Warfarin work?

Answer 28

It eliminates VKORC (which recycles vit K (with NADH-> NAD) back to its reduced form) so it limits Glutamate –>Gla (which needs active vit K)

Question 29

what’s the problem giving warfarin solo?

Answer 29

It takes 8-12 hours to affect INR, and days for full affect. Delayed until existing clotting factors are turned over.
Also can create pro-clotting state because inhibits protein C and S before inhibiting factors

Question 30

contraindications of warfarin

Answer 30

1) pregnancy (hemorrhagic, abnormal bone formation),
2) Can lead to procoagulation so Heprin induced thrombocytopenia
3) Vit K from diet, and other drugs

Question 31

Warfarin is closely monitored with INR because

Answer 31

CYP2C9 and VKORC genes vary in the elimination of active form (S enantiomer) AND efficacy (VKORC)
Half life is 20-60 (genetic variation)

Question 32

indications for Warfarin

Answer 32

prophylaxis for DVT, PE, A Fib, post PCI, MI, prostetic heart valve, antiphospholipid syndrome
(BUT ALWAYS START WITH HEPARIN TOO)

Question 33

What does Rivaroxaban do?

Answer 33

It inhibits Xa “Rivaro-Xa-ban”: It’s a DIRECT inhibitor

Question 34

What does dabigatran etexilate do?

Answer 34

Inhibits IIa “T in Tran is for 2”: Its also a DIRECT inhibitor (Warfarin and Heparins are Indirect)

Question 35

which drugs are direct inhibitors and which are indirect

Answer 35

Warfarin and Heparins are Indirect

RivaroXaban and dabigaTran are direct

Question 36

how is rivaroxaban eliminated and why care?

Answer 36

Transported by P-glycoprotein and metabolized by CYP3A4, so drug-drug interactions.

Question 37

black box warning for Direct anticoags

Answer 37

spinal procedures contraindicate use because of spinal hematomas–> paralysis

Question 38

interactions for RivaroXaban

Answer 38

other anticoags/platelets, P-gp, CYP3A4 inhibitors (ketaconazole) and inducers (rifampin)

Question 39

Other IIa inhibitors (blue drugs)

Answer 39

argatroban (parenteral)
hirudo medcinalis (topical)
desirudin (parenteral)
Bivalirudin (parenteral)

Question 40

interactions for dabigatran etexilate

Answer 40

inhibiting CYPs: = more absorbtion= less clotting, and inducers= more clotting

Question 41

contraindications for Rivaroxaban

Answer 41

bleeding, hypersensitivity

Question 42

contraindications for dabigatran

Answer 42

mechanical heart (stroke, MI), bleeding, hypersensitivity 
(same as Rivaroxaban + mech heart)

Question 43

argatroban is specificly used for _____by_______

Answer 43

1) HIT patients

2) blocking catalytic site of soluble and clot-bound thrombin (reversible) so it can’t cleave fibrinogen into fibrin

Question 44

“Hirudens”: desirudin and bivalirudin work by______ and are administered by_____

Answer 44

protein based direct thrombin inhibitors, and because protein, they have to be injected

Question 45

only differences between the two “rudins”

Answer 45

desirudin: longer protein, longer half life 2-3 hrs, DVT PPx

bivalirudin’s 25min half life, and shorter protein. used in PPx for HIT and used in angioplasty

Question 46

Three antiplatelet drugs, and their action

Answer 46

all block platelet aggrigation/ recruitement
Aspirin (IRREVERSIBLE: blocks COX-1)
Clopidogrel: irreversible blocks ADP purine receptor P2Y12
Prasugrel: same as clopidogrel

Question 47

aspirin’s mechanism of action

Answer 47

prevents platelet aggrigation by inhibiting COX-1 which causes activation signals to bind them together

Question 48

adverse reactions from aspirin

Answer 48

bleeding, dyspepsia, gastritis, ulcers, tinnitis, bronchospasm, REYES syndrome

Question 49

interactions with aspirin

Answer 49

influenza live vaccine (reyes)

Question 50

contraindications and special considerations for aspirin

Answer 50

NSAID hyper sensitivity, asthma, rhinitis, nasal polyps syndrome:–> angioderma, urticarial, bronchospasm, kids under 19 with fever

special considerations: renal /liver function, oxidative phosphorylation from overdose–>metabolic acidosis, seizure, coma

Question 51

indications for aspirin

Answer 51

acute MI chew 162-325 immediately, PCI, mech heart valve, MI/CVA PPx, A fib, carotid stenosis, arterial occlusion (PVD), TIA

Question 52

clopidogrel’s mechanism of action, and what does it do?

Answer 52

It blocks ADP receptor from binding so can’t attach to other platelets, or activate other platelets to release their granulocytes

Question 53

describe the platelet activation process in regards to IIa/IIIb (2a3b)

Answer 53

Platelets activated via IIb IIIa, (dimeric molecule which binds to fibrin)
When platelet is activated, it degranulates
In its granules, are ThromboxinA2 which combines to receptor on platelet and causes activation signals, and there are granules with ADP, which binds to different receptor, which causes IIbIIIa on other platelets, which attaches to the other fibrinogen which is attached to another platelet, so when all activated, they stick together through fibrinogen bridge.

Question 54

how long does taking aspirin affect platelets

Answer 54

it binds irreversibly, so as long as they last… 7 days for new platelets to be regenerated.

Question 55

how does CYPs affect Clopidogrel?

Answer 55

either extensive metabolizers, or don’t metabolize it fast enough… it’s a prodrug so needs metabolism to become active. monitor this.

Question 56

when might you use clopidogrel?

Answer 56

after placing a heart stent to prevent MI, or clot in the coronary artery., keep the stent open

Question 57

What do clopidogrel and prasugrel have in common?

Answer 57

both irreversible blocking of P2Y for platelet activation (GPIIbIIIa activation),
both prodrugs activated by CYPs, both have low frequency of TTP, and premature discontinuation may be risky, don’t want to give if history of stroke

Question 58

what is different between clopidogrel and prasugrel?

Answer 58

Clopidogrel: CYP2C19, slower activation, poor metabolizers with CYP2C19 have risk of MI/death

Prasugrel: CYP3A/ CYP2B6 (more predictable clinical effects, faster activation, more bleeding than clopidogrel, contraindicated in history of TIA

Question 59

mechanism of activity of thrombolytics, and the risk

Answer 59

overcome the inhibitors of plasmin (stems from plasminogen, which is activated by tPA).

The native inhibitors are in solution, and we must give enough tPA to get rid of clot disolution inhibition. the risk is getting rid of all fibrinogen in the plasma, not just in the clot, so can get bleeding.

Question 60

other problem with tPA

Answer 60

short half life, and $6,400 per dose

Question 61

indication for alteplase

Answer 61

can’t open coronary artery within 14 hrs. with surgery, under 4 hours with ischemic stroke. (cross linking happens so treat earlier)

Question 62

contraindications for thrombolytic drugs

Answer 62

have t be pretty desparate to use these… risk is hemorrhagic stroke, lysis of protective thrombi, and bleeding, and stroke.

Question 63

which drugs are used most in arterials

Answer 63

antiplatelets because they are only white clots as a general rule: aspirin, clopidogrel, prasugrel

Question 64

which drugs are used most in veins

Answer 64

Red/white clots anticoagulants: heparin, enoxaparin, fondaparinux, warfarin, rivaroxaban, apixaban, dabigatran