Blood Thinning Drugs and Antihyperlipidemic Agents PDF

Summary

This document provides an overview of cardiovascular system drugs, including anticoagulants, antiplatelets, and thrombolytics, along with dyslipidemia drugs. It details their mechanisms and uses, focusing on the different types and their applications in the third semester.

Full Transcript

Cardiovascular system’ drugs:
Anticoagulants, Antiplatelet and
Thrombolytic Agents + Dyslipidemia
Drugs

By

Dr. Jawza Almutairi
HPT 316
Third Semester/ 1444 H

Anticoagulant,
Antiplatelet and
Thrombolytics Agents

Objectives

- To differentiate between
anticoagulant, antiplatelet
and thrombolytics
- To each drug groups know
mechanism of action To
differentiate
between
different
types
of
thrombolytic drugs.
- To describe indications,
side
effects
and
contraindications of these
drugs.
- To
recognize
the
mechanisms, uses and side
effects of them.

Clot

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treat
prevent

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Important Definitions
Hemostasis
u

Is the body’s process of stopping bleeding in a blood vessel.

u

Normal hemostasis involves a complex process of extrinsic and intrinsic
factors.

Thrombus
u

Is defined as blood clot which may form in any vessel, artery, or vein when
blood flow is impeded.

Drugs used in thrombosis:

b

Clot

Ischemia

Atherosclerosis

Antiplatelet

Classification of antiplatelet

1. Arachidonic acid pathway inhibitors
Aspirin (acetylsalicylic acid)
Aspirin is the only NSAID that irreversibly exhibits antithrombotic
efficacy.
MOA:
u

Irreversible inhibition of cyclooxygenase enzyme(COX-1) è
THUS inhibits thromboxane (TXA2) synthesis in platelets B.

u

Low-dose aspirin (81mg enteric coated tablet/day) is the most
common dose used to prevent a heart attack or a stroke.

1. Arachidonic acid pathway inhibitors
Aspirin (acetylsalicylic acid)
Indications:
- Prophylaxis of thromboembolism e.g. prevention of transient
ischemic attack, ischemic stroke and myocardial infarction.
- Prevention of ischemic events in patients with unstable angina
pectoris.
- Can be combined with other antiplatelet drugs (clopidogrel)or
anticoagulants (heparin).
SE:
•

Risk of peptic ulcer.àbc they inhibit the prostaglandins
synthesis.

•

Increase incidence of GIT bleeding

2. Adenosine diphosphate (ADP) receptor
inhibitors
Ticlopidine & Clopidogrel
MOA:
These drugs specifically and irreversibly inhibit ADP receptor.
which is required for platelets activation thus prevent platelet
aggregation.
u

giving orally.

u

Pro-drugs, they have to be activated in the liver.

2. Adenosine diphosphate (ADP) receptor
inhibitors
Ticlopidine & Clopidogrel
SE:
u

Sever neutropenia (with Ticlopidine) (lowWBCs) \agranulocytosis,
èèCBC should be done monthly during treatment. Importantly, Less
side effects (less neutropenia), clopidogrel it is rarely associated with
neutropenia and Bioavailability isunaffectedbyfood.
Clopidogrel has replaced ticlopidine.

u

Bleeding (prolong bleeding time).

u

G.I.T: nausea, dyspepsia, diarrhea.

u

Allergic reactions.

Drug Interaction:
Inhibit CYTP450 causing increase in plasma levels of drugs such as
phenytoin and carbamazepine.(Antiepileptic drugs)

2. New Adenosine diphosphate (ADP) receptor
inhibitors
Prasugrel & Ticagrelor
Both have more rapid onset of action than clopidogrel.
Both drugs donot need hepatic activation.(notprodrugs!)

3. Glycoprotein IIb/IIIa receptor inhibitors
Abciximab, Tirofiban & Eptifibatide
MOA: inhibit GP IIb/IIIa receptor. Glycoprotein IIb/ IIIa receptor
is required for platelet aggregation with each other and with
fibrinogen and von Willbrand factor.
- They are given IV.
- Used For the reduction of incidence of thrombotic
complications during coronary angioplasty (PCI).

4. Phosphodiesterase inhibitors
Dipyridamole
MOA: (It is a vasodilator).
u

it Inhibits phosphodiesterase (an enzyme that normally breakdown cAMP) thus

increases cAMP causing decreased synthesis of thromboxane A2 and other
platelet aggregating factors.
u

Given orally.

SE
- Headache.
- Postural hypotension.àbc it is a vasodilator.

vann

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factor

Summary

reffered

thromoxane
prevent

Anticoagulant

Emergency

in somecases

1st the theorld

Thrombie

Act on the
factor

Coagulation pathways:
undirect

080
O O
O

Direct

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Endogenous inhibitors of coagulation:

factors

Ttheliver

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Anticoagulants indications:
•

In myocardial infarction,

•

Deep venous thrombosis.

•

Peripheral arterial emboli, pulmonary embolism

•

Also used in blood transfusions and dialysis procedures.

1. Heparin and LMWH Derivatives
Heparin, Enoxaparin sodium
MOA:
u

Inhibit the formation of thrombin and fibrin by activating
antithrombin III.

u

Antithrombin III then inactivates factors IXa, Xa, XIa, and XIIa
resulting in prevention of a stable fibrin clot.

factor 8 10

Heparin cannot be taken orally or IM. Why??
u

Heparin is not absorbed from the GITàIt should be administratedby
IVor SC injection but not IM as it causes haematomas at the
injection site. (bc muscles are rich in BV)

1. Heparin and LMWH Derivatives
Heparin, Enoxaparin sodium
u

Does not cross placenta, there fore,it is the drug of choice as an
anticoagulant during pregnancy.
a

u

It require regularly monitor aPTT (activated partial thromboplastin time:
a test to measure how long it take for clot to form, this test determin the
effectiveness of the therapy ).

SE:
Ø

Bleeding > antidote is protamine sulfate

Ø

Thrombocytopenia (rare but severe)

Ø

Osteoporosis on long-term use

Ø

Hypersensitivity reaction include local irritation when heparin is given by
SC injection to rarely anaphylactoid reaction.

2. Direct thrombin inhibitors
Hirudin, Lepirudin
MOA:
Exert their effect by direct binding to thrombin.
u

This direct effect is rapid & potent.

u

Not associated with thrombocytopenia.

u

Recombinant hirudin “Lepirudin” is used as IV
anticoagulant in patients

with HIT (Heparin-induced thrombocytopenia)

Afar

hipri n

3. Vitamin K (Fat soluble vitamins) Antagonist
Coumarin (Warfarin)
MOA:
u

Inhibits vitamin K epoxide reductase, thus interferes with the manufacturing
of vitamin K dependent clotting factors by the liver resulting in depletion of
clotting factors II (prothrombin), VII, IX, and X.

5

u

u

8 factors

t has a slow offset of action, 3-4 days until effect is seen. à Because it
does not have any effect on already-synthesized coagulation factors;
therefore, the therapeutic effects are not seen until these factors are depleted

I

Uses as (prophylaxes): Warfarin is used to prevent the progression or
recurrence of acute deep vein thrombosis or pulmonary embolism after
initial heparin treatment.

1

J

3. Vitamin K (Fat soluble vitamins) Antagonist
Coumarin (Warfarin)
u

Its contraindicator in Pregnancy à as it can cross the placental
barrier and cause Teratogenicity abortion (1st months),
hemorrhagic disorder (later stages) in the fetus and birth defects.

SE:
u

The most common site of bleeding is the GI tract.

u

hypersensitivity.

u

Narrow therapeutic range

u

loss of effectiveness > thromboembolism

u

High dose > bleeding

3. Vitamin K (Fat soluble vitamins) Antagonist
Coumarin (Warfarin)
SE:
u

Need to monitor INR (international normalization ratio) >
adjust dose

normal
people
u The average time range for blood to clot is about 10 to
13 seconds. A number higher than that range means it
takes blood longer than usual to clot. A number lower
than that range means blood clots more quickly than
normal.
u

In healthy people an INR of 1.1 or below is considered
normal. An INR range of 2.0 to 3.0 is generally an
in cardiovascular
Pt ratio
effective therapeutic range for people taking warfarin for
disorders such as atrial fibrillation or a blood clot in the
leg or lung.

3. Vitamin K (Fat soluble vitamins) Antagonist
Coumarin (Warfarin)
Drug interaction:
u

Metabolized by liver
u

Enzyme inducers (e.g. phenobarbital) > loss of
effectiveness > required larger dose

Enzyme inhibitors (e.g. omeprazole) > increase risk of
bleeding > require dose reduction
lipid sum
y agent): Inhibition of
Cholystyramine (dyslipidaemia
drug absorption from GIT
u

u
u

VitK, and oral contraceptives: Increase in synthesis of
aclotting factors;

É waffrin

3. Vitamin K (Fat soluble vitamins) Antagonist
Coumarin (Warfarin)
What do you do in case of warfarin associated bleeding?
u

Stop the drug

u

IV injection of vitamin K ( (the antidote of warfarin)

u

Fresh frozen blood

Thrombolytic

Anticoagulants Vs. Thrombolytics
Ø

Anticoagulants are used to prevent the formation and
extension of a thrombus.

Ø

Thrombolytic drugs or called fibrinolytic drugs dissolve
blood clots that have already formed within a blood
vessel.

Mechanism of Action of thrombolytic drugs

They have common mechanism of action by stimulating plasminogen
active
inactive
activation via converting plasminogen
(proenzyme) to plasmin
(active
enzyme) ® lysis of the insoluble fibrin clot into soluble derivatives.
Plasmin: is a nonspecific protease capable of breaking down fibrin as well
as other circulating proteins, including fibrinogen, factor V, and factor
VIII.

gAtival

Types of thrombolytic drugs
Non-fibrin specific
u

Streptokinase, Anistreplase and Urokinase

Fibrin specific
u

Alteplase, Reteplase and Tenecteplase

Non-fibrin vs fibrin Specific Thrombolytics
Non-Fibrine:
u binds equally to circulating and non-circulating plasminogen.
u produces breakdown of clot (local fibrinolysis) and circulating
plasminogen and other plasma proteins thus cause an
unwanted (systemic fibrinolysis) leading to bleeding.
Fibrin Specific:
u

Selective in action (clot or fibrin specific)

u

Binds preferentially to plasminogen at the fibrin surface (noncirculating) rather than circulating plasminogen in blood.

u

Risk of bleeding is less than non specific agents.

u

Activity is enhanced upon binding to fibrin.

Thrombolytic
u

Therapeutic uses:
Ø Acute

myocardial infarction.

Ø Acute

ischemic stroke

Ø DVT

u

Deepvainthrombosis

Adverse effects:
Bleeding (may dissolve beneficial clots), especially with
non-fibrin specific agents

Fibrinolytic Inhibitors Antiplasmin
Aminocaproic Acid, tranexamic Acid and Aprotinin
u

Inhibit plasminogen activation and thus inhibit fibrinolysis
and promote clot stabilization.

Uses:
ü

Adjuvant therapy in hemophilia (inherited bleeding disorder)

ü

Fibrinolytic therapy-induced bleeding (antidote).

ü

Post-surgical bleeding
ü

These drugs work like antidotes for fibrinolytic drugs. Similar to
Protamine (Antidote of the anticoagulant, heparin) or Vitamin K
(Antidote of the oral anticoagulant warfarin).

Dyslipidemia Drugs
(Hypolipidemic Drugs )

Dyslipidemia
Oddie
Imbalances in lipid components

u

u

High total cholesterol

u

High LDL cholesterol

u

Low HDL cholesterol

u

High triglycerides

a

Pt

w

bi

g

It’s the Significant risk factor for cardiovascular diseases; Heart
disease and Stroke

Physiology
Lipid transport
u

Lipids are insoluble in water: Transported In plasma as complexes of
lipid and proteins known as lipoproteins

Lipoproteins: 3 major classes based on density
u

VLDL (Very Low Density Lipoprotein)

u

LDL (Low Density Lipoprotein)

u

HDL (High density Lipoprotein)

Pathophysiology
u

The deposition and retention of cholesterol in the arterial
walls are the central features of the pathogenesis in
atherosclerosis

Detection
u

If

Fasting lipoprotein profile (total cholesterol > 200mg/dl,
LDL cholesterol > 100mg/dl , HDL cholesterol < 40 mg/dl,
triglycerides > 150mg/dl)

Non-pharmacological Therapy
(Lifestyle Changes)
u

Dietary therapy : Low consumption of saturated fat and
cholesterol

u

Physical activity: Aerobic exercise 30 min/day for most
days of the week

u

Weight reduction if overweight

u

Stop smoking

Antihyperlipidemic agents
Most commonly used lipid lowering drugs classes include:
u

HMG-CoA reductase inhibitors (statins)

u

Niacin

u

Fibrates

u

Bile acid–binding resins

I-HMG-CoA reductase inhibitors
u

Simvastatin

u

Atorvastatin

u

Rosuvastatin

u

Pharmacodynamic:

u

Inhibit HMG-CoA (3-Hydroxy-3-methylglutaryl coenzyme A)
reductase >> lower lipid levels by interfering with
cholesterol synthesis.

HMG-CoA reductase inhibitors
Adverse reactions
u
u

Most troublesome side effects are myalgia and occasionally lifethreatening rhabdomyolysis (at higher doses or with fibrates).
Increase in liver enzymes.

e

f

u

Contraindicated in pregnancy, lactation and liver dysfunction

u

Drug interaction: increase the risk of bleeding when administered
with warfarin.

II. Fibrates
u

Fenofibrate.

u

Gemfibrozil.

u

in
Pharmacodynamic: activate nuclear receptor [peroxisome
proliferator–activated receptors
(PPARs)] > regulates lipid metabolism.

u

Adverse effects:
Ø

Gastrointestinal upset, and diarrhea

Ø

Cholelithiasis (gall stones) with gemfibrozil.

Ø

Myositis

the DNA

II. Fibrates
u

Fenofibrate.

u

Gemfibrozil.

u

Drug interactions:

Ps

1- Gemfibrozil is contraindicated with simvastatin (Myopathy and rhabdomyolysis)
2-Both fibrates may increase the effects of warfarin

Ee

3- Fibrates should not be used in patients with severe hepatic or renal dysfunction or in
patients with preexisting gallbladder disease

b

ok

III. Bile-sequestering drugs
53

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u Pharmacodynamics: They combined with bile acids in the intestines
Cholestyramine

to form an insoluble compound that’s then excreted in feces.
u

With increased loss of bile acids , the liver uses cholesterol to
manufacture more bile. This is followed by a decrease in cholesterol
levels.

u

Adverse effects:
ØConstipation
ØDyspepsia
ØFat

(if severe occasionally result in fecal impaction).

and flatulence.

soluble vitamin deficiency ( A, D, K, E)

Bile-sequestering drugs
Drug interactionsu

May bind with digoxin, thiazide diuretics and propranolol, resulting in
decreased effects of these drugs.

u

Poor absorption of fat-soluble vitamin K can affect prothrombin time
significantly, increasing the risk of bleeding.

u

May raise triglyceride levels > contraindicated in hypertriglyceridemia

b

Contraindication

other
between
gab

Drugs

IV. Niacin
u

Mechanism of action:

inhibits lipolysis in adipose tissue > reducing production of free fatty acids
u

Adverse effects:

Ø

Flush, nausea, vomiting

Ø

Inhibits tubular secretion of uric acid > hyperuricemia and gout

Ø

Impaired glucose tolerance (prediabetes)

Ø

Hepatotoxicity > should be avoided in hepatic disease

A

Igt

Thank You
u

For ANY QUESTIONS:

u

([email protected])