Antithrombotics and Anticoagulants PDF

Summary

This document presents a lecture on Antithrombotics and Anticoagulants, covering topics such as platelet function, coagulation cascade, and the mechanism of action of various drugs. It includes descriptions of different types of treatment agents and their associated effects.

Full Transcript

Antithromboti
cs and
Anticoagulant
s
Jody Jonathan Haigh, Ph.D.
[email protected]
(adapted from Dr. Curtis Oleschuk)
Objectives for lecture

1 2 3
Briefly describe: Describe the Understand the
How a platelet mechanism of more common side
plug is formed action of effect(s) associated
The coagulation Antiplatelet agents with clinical
cascade (clot Anticoagulants application for
stabilization) and commonly used
Anticoagulant
agents (i.e. the
The fibrinolytic antidotes drugs you need to
pathway (clot Fibrinolytic agents know for this
resolution) section)
 Agents for Treatment

Anticoagulants: drugs which interfere with
coagulation cascade
Antiplatelet agents: drugs which interfere with
platelet function
Fibrinolytic drugs: clot “busters”
Treating arterial thromboembolic disease:
antiplatelet agents
Treating venous thromboembolism: anticoagulants
 Drugs to know for this section
Antiplatelet
1. AspirinCOX I and II inhibitor
2. Clopidogrel ADP receptor antagonist
3. Ticagrelor ADP receptor antagonist
4. Prasugrel ADP receptor antagonist

Anticoagulant
5. Heparinantithrombin III activator
6. LMW heparin antithrombin III activator
7. Warfarin vitamin K antagonist
8. Dabigatran direct thrombin inhibitor
9. Idarucizumab direct thrombin inbibitor
10.Rivaroxaban direct Factor Xa inhibitor

Clot resolving
11.Tissue plasminogen activator (TPA) activates plasminogen
12.Steptokinase activates plasminogen
 Thromboembolic Disease
Thromboembolism: Formation in a blood vessel of
a clot (thrombus) that breaks loose and is carried
by the blood stream to plug another vesse

Gross and Weitz, Clinical Pharmacology and Therapeutics, 2009
 Concept:
Appropriate
Targets for
Treatment

Arterial and venous thrombi
are composed of platelet
aggregates, fibrin and red
blood cells

Arterial thrombi form under
high sheer stress conditions:
platelets abundant and fibrin
sparse

Venous thrombi form under
low sheer stress conditions:
rich in fibrin and trapped red
blood cells and contain fewer
platelets
 Hemostasis: cessation of
blood loss from a damaged
vessel

Coagulation: formation of a
blood clot

Definitio Blood clot: also called
hemostatic plug, is formed by
ns aggregation of platelets and
stabilized by fibrin

Thrombosis: a pathologic
process in which a platelet
aggregate and/or fibrin blot
occludes a blood vessel
Hemostasis

o Normal physiological process of terminating
blood loss from a vascular wall
o Involves:
o platelet activation
o coagulation cascade
thrombin formation
o clot resolution
 Pathology of thrombosis
Rupture of fibrous cap
Exposure of lipid core (Tissue Factor: procoagulant)

Platelet adherence and activation
Thromboxane A2 release

Membrane glycoprotein IIb/IIIa receptor activation to bind fibrinogen
Complex platelet linkage

o Process above continues with further fibrin
incorporation and inclusion of red blood cells
within clot
o End result is partial or total occlusion of vessel
(coronary artery)
Thrombosis
Antiplatelet
drugs
 Platelet binding and activation
https://www.youtube.com/watch?v=R8JMfbYW2p4

Clinical pharmacology & Therapeutics | VOLUME 86 NUMBER 2 | AUGUST 2009

vWF = von Willebrand Factor

o In healthy vasculature, platelets are maintained in an
inactive state by nitric oxide and prostacyclin (PGI2)
released by endothelial cells and ADPase which degrades
Platelet Binding and
Activation
Signaling pathways involved in
the regulation of platelet
activation.

-receptor binding
-granule release
-amplification
-mediated/mediates other
components of the blot clot
process
Sites of actions of antiplatelets

Clinical pharmacology & Therapeutics | VOLUME 86 NUMBER 2 | AUGUST 2009
 Drugs that inhibit
platelet
aggregation,
Aspirin

Aspirin inhibits TXA2 synthesis by
irreversibly acetylating
cyclooxygenase 1

COX is the enzyme necessary for
the formation of prostaglandins
among other lipid-mediators of
inflammatory response

In platelets, COX produces
thromboxane A2, which promotes
aggregation

In vascular endothelium, COX
produces prostacyclin (PGI2) which
increases platelet stability (less
likely to aggregate)
 Other NSAIDS
(reversible
inhibitors of COX-
1) have not been
shown to have
anti-thrombotic
efficancy and
may even
interfere with
low-dose aspirin
regimes
 Why does aspirin not promote
aggregation given its effect on vascular
endothelium production of prostacyclin?
o Aspirin irreversibly blocks COX

o Platelets lack a nucleus – can’t make new COX

o Vascular endothelial cells have a nucleus

o Vascular endothelial cells have ability to continually remake
COX and hence maintain prostacyclin production
Drugs that reduce platelet
aggregation, Aspirin
Aspirin uses:
Reduce the risk of fatal and non-fatal myocardial infarction by at
least 50% in patients with unstable angina
Cornerstone treatment in acute coronary syndrome with
benefits being seen for at least 2 years regardless of dose use
Aspirin use associated with increased bleeding
hemorrhagic stroke (stroke due to bleeding into
brain)
gastrointestinal bleeding
easy bruising
Dose must be balance with benefit to risk (50 – 325 mg/day);
complete inactivation of COX-1 achieved with daily 75 mg
dose.
Aspirin resistance (incomplete suppression of TXA2 synthesis
correlated with increased risk of cardiovascular events
 Drugs that reduce platelet
aggregation, Clopidogrel
Platelets contain two GCPCR P2Y1 and P2Y12
both are site for platelet activation by ADP
Both must be stimulated for platelet activation
Irreversible inhibitor of platelet P2Y12 receptors
-increased risk of bleeding if patients require surgery unless drug not taken
5 days prior to surgery
Prodrug with slow onset of action
Examples of use:
Used alone in secondary prevention of stroke
Used in combination with aspirin to prevent recurrent ischemia in patients with
unstable angina
Wide inter-individual variability in capacity of clopidogrel to inhibit ADP-induced platelet
aggregation: genetic polymorphisms in drug metabolism
Bleeding prolonged and hard to stop
Drugs that prevent platelet
aggregation, Ticagrelor
Used alone or along with aspirin
Orally active reversible antagonist of the P2Y12 receptor
More rapid onset and predictable inhibition than clopidogrel
In patients with ACS, greater reduction in cardiovascular
death, MI and stroke at 1 year in comparison to clopidogrel
No difference in rates of major bleeding in comparison to
clopidogrel but more common incidence of minor bleeding
metabolized in the liver predominantly via CYP 3A4 and it
should be used with caution in patients taking CYP 3A4
inhibitors
Drugs that prevent platelet
aggregation, Prasugrel
Used in combination with aspirin
member of the thienopyridine class of ADP receptor
inhibitors
prodrug that requires enzymatic transformation in the liver
to its active metabolite, R-138727. R-138727
Onset of action more rapid that clopidegrel and produces
greater and more predictable inhibition
irreversibly binds to P2Y12 type ADP receptors on platelets
thus preventing activation of the GPIIb/IIIa receptor complex
Reduced incidence of cardiovascular death (MI) and stent
thrombosis compared with clopidogrel
Increased risk of fatal and life-threatening bleed
Drugs that prevent platelet
aggregation, Abciximab
Fab fragments directed against αIIbβ3 receptor
Also binds to vitronectin receptor (involved in cell-cell
adhesion) of platelets, vascular endothelial and smooth
muscle cells
Unbound abciximab clears quickly, t1/2 of 30 minutes
Bound abciximab clearance 18 – 25 hours
Major side-effect is hemorrhage (frequency of major
hemorrhage: 1 – 10 %) and thrombocytopenia (2%)
Platelet transfusion can reverse rapidly the aggregation
defect (free antibody clear quickly)
Additionally, can block binding to vWF
IV administered

Prevent cardiac ischemia with PCI
Prevention of ischemic cardiac
complication with unstable angina
or NSTEMI
 Summary of Antiplatelet Drugs
Plaque Disruption

Collagen vWF

Platelet adhesion and secretion

Aspirin COX-1 Clopidogrel
TXA2-mediated ADP-mediatedPrasugrel
Ticagrelor

Platelet recruitment and activation

GPIIb/IIIa activation
Abciximab
Platelet aggregation
 Topic break
Clotting Factor Nomenclature
 https://www.youtube.com/watch?v=cy3a__OOa2M

https://www.khanacademy.org/science/health-and-medicine/advanc
ed-hematologic-system/hematologic-system-introduction/v/coagula
tion-cascade
 Fibrin
Fibrinogen converted to fibrin by thrombin
Activation involves protease cleavage of fibrinogen to
release fibrinopeptides that fit into pre-formed holes in other
fibrin monomers to form a fibrin gel
Fibrin monomers are initially bound non-covalently
Activation of factor XIII by thrombin results in activation of
this enzyme that catalyzes interchain covalent cross links
Coagulation Cascade
Drugs that prevent
coagulation, Heparin and
LMWH
Heparin is a glycosaminoglycan (10-15 chains) with MW of 15,000
Da
Can be found in secreted granules of mast cells
Commonly extracted from porcine intestinal mucosa
regulatory requirements for production: activity assessed by
residual factor Xa activity
LMWH (low-molecular weight heparin) also derived from animal
tissues with MW 5000 Da
Heparin and LMWH have no intrinsic activity: bind to antithrombin
to accelerate inhibition
Antithrombin is a suicide-substrate for proteases of intrinsic
pathway
Heparin-induced thrombocytopenia (HIT) is a severe
complication!
Drugs that prevent coagulation,
Warfarin
Also known as coumarin, discovered from the observation
of hemorrhagic disorder in cattle that consumed spoiled
sweet clover silage
 Drugs that prevent coagulation,
Warfarin
o Oral administration making it convenient for use
o Requires INR monitoring to titrate dose
o Dosing also related to vitamin K dietary sufficiency
o R versus S forms
o Avoid during pregnancy

o Excessive bleeding or overdose treament with vitamin K
 PT Test APTT Test

https://www.medicine.mcgill.ca/physio/vlab/bloodlab/PT_PTT.htm
Warfarin
Drugs that prevent
coagulation,
Dabigatran and
Rivaroxaban

Prevents clot stabilization

Oral administration

More predictable dose-response in
comparison with warfarin

Used with patients with atrial
fibrillation, treat and prevent DVT
and PE

Overdose management now available
IV idarucizumab for dabigatran:
antibody therapy (350 times
binding affinity) which traps
drug from active stores
Andeaxenat alpha: modified
factor Xa that binds directly to
Factor Xa inhibitors
Fibrinolytic
Drugs
 Fibrinolysis
Plasminogen activators (tPA)
tPA activity increases 300-fold in presence of fib
plasminogen

fibrin
plasmin Clot breakdown

fibrinolysis
Plasminogen activators:
tissue plasminogen activator (tPA) synthesized in endothelial
urokinase plasminogen activator (uPA) cells, released in conditions
of blood stasis
o tPA plays predominant role in intravascular fibrinolysis
o tPA is released from endothelial cells in response to stimuli
such as stasis
o tPA activity increases 300-fold in presence of fibrin
o tPA is rapidly cleared or inhibited by plasminogen activator
inhibitor (PAI-1 and/or PAI-2)
o Plasmin is inhibited by alpha-2-antiplasmin (occurs when
plasmin not bound to fibrin)
 t-PA exerts little
effect on
plasminogen in
absence of fibrin
 Briefly describe:
How a platelet plug is formed
The coagulation cascade (clot
stabilization) and
The fibrinolytic pathway (clot
resolution)

Describe the mechanism of action
of
Antiplatelet agents
Anticoagulants
Anticoagulant antidotes
Fibrinolytic agents

Understand the more common
side effect(s) associated with
clinical application for commonly
Objectives used agents (i.e. the drugs you
need to know for this section)

for lecture