Download Antiarrhythmics - BHS Education Resource

Anti arrhythmic drugs
A/Prof Andrew Dean. May 2013
Drugs in arrhythmia
• Not all arrhythmias need to be treated
• Anti-arrhythmic drugs have significant side effects
and some are pro-arrhythmic
• None have been shown in drug trials to have long
term mortality benefit with the exception of
Amiodarone
Classifying the drugs
• Group antiarrhythmic drugs by their clinical
effects/indications for use
• Also group drugs by electrophysiological effects (for
example: SA/ AV nodes, refractory periods, QT
intervals, anatomical sites of action in the heart)
• The Vaughan Williams classification is one of the
latter.
• No classification is ideal, as several drugs overlap
the categories of actions
Drugs for
tachyarrhythmias
• Supraventricular arrhythmias: glycosides (digoxin),
beta blockers, adenosine, verapamil
• Supraventricular and Ventricular arrhythmias:
amiodarone, beta blockers, flecainide, sotalol
• Ventricular arrhythmias: Amiodarone, Lignocaine
Drugs for
bradyarrhythmias
• Sinus bradycardias: Atropine, Adrenaline,
Isoprenaline
• Asystole: Adrenaline, Atropine
Vaughan Williams Classification
- by mechanism of action
Class 1: fast sodium channel blockers
Class 2: reduce adrenergic effect - beta blockers
Class 3: potassium efflux
Class 4: calcium channel blockers
Other: digoxin, adenosine, magnesium sulphate
Beta blockers and CCBs
• The centrally acting CCBs (Verapamil and Diltiazem)
can be regarded as virtually identical to the beta
blockers in their effects on conduction
• Both reduce SA and AV node conduction speed, and
may cause AV block, and reduce contractility and 02
demand.
• They have slightly different roles.
Vaughan Williams classification
CLASS
MECHANISM OF ACTION
EXAMPLES
1 Interfere with
Inhibit fast Na+ channels
1A Quinidine, Disopyramide,
Procainamide
depolarisation
1B Lignocaine, Mexilitine,
Phenytoin
1C Flecainide
2 Beta Blockers
Inhibit beta adrenergic
receptors
Metoprolol, Atenolol, Propranolol,
Sotalol **
3
Prolong repolarisation
Inhibit K+ efflux channels
Amiodarone, Bretylium, Sotalol **
4
CCBs
Inhibit slow calcium channels Verapamil, Diltiazem
Unclassified
Various mechanisms
MgS04, Adenosine, Digoxin,
Isoprenaline
Antiarrhythmics commonly used
Red shading = Commonly used
VAUGHAN-WILLIAMS CLASS
MECHANISM OF ACTION
EXAMPLES
1
Fast Na+ Channel
Blockers
1A Quinidine, Disopyramide,
Procainamide
1B Lignocaine, Mexilitine,
Phenytoin
1C Flecainide
2
3
4
Beta Blockers
Metoprolol, Atenolol, Propranolol
K+ efflux blockers
Amiodarone, Bretylium, Sotalol
Calcium Channel Blockers
Verapamil, Diltiazem
Unclassified
Various mechanisms
MgS04, Adenosine, Isoprenaline,
Digoxin
Class1: fast Na+ channel
blockers
Red shading = Commonly used drugs
Vaughan Williams subdivides Type 1 into
1a: quinidine, procainamide, disopyramide
1b: lignocaine, mexilitine, phenytoin^^
1c: flecainide
^^ phenytoin’s main use is for seizure prophylaxis
Class1a
Not commonly used
Class1b
DRUG
Lignocaine
CLASS
MECHANISM
Class 1b
USES/DOSE
VT and VF
Fast Na+ channel
blocker
Reduces
automaticity
Negative inotrope
No effect AV node
Rx: IV 100mg slow
push, then IV
infusion @ 2 - 4
mg/min.
SIDE EFFECTS
/INTERACTS
S/E’s:
Proarrhythmic,
dizziness,
paraesthesiae,
seizures,
hypotension, resp
depr, coma
Metab: hepatic
Inter: Flecainide:
negative inotrope.
Electrolyte
disturbances:
correct before use
C/Ix AV Block, CCF
Class1c
DRUG
Flecainide
CLASS
Class 1c
MECHANISM
USES/DOSE
INTERACTS
Incr Refractory
period esp His-Purk
Negative inotrope
SVT, AFlutter,
Reverts PAF,( equiv
to Amiodarone.)
2nd line for refractory
VT/VF
S/E’s: Neg inotrope,
Proarrhythmic
Electrolyte
disturbances:
correct before use,
may cause heart
block
Rx: IV 100mg slow
push in 5%
Dextrose, oral 50100mg at onset AF
symptoms,
Maint oral 50mg bd
C/Ix AV Block, CCF,
SSS
Inter: C/Ix with
Disopyramide
Beta adrenergic receptor pharmacology –
a quick review
•
Beta 1 stimulation: pos inotrope/chronotrope, pos automaticity, pos AV node
conduction velocity, increases renin release>>increases
aldosterone/angiotensin levels.
•
Beta 1 inhibition: neg inotrope/chronotrope, neg automaticity, inhibits
conduction velocity AV node, inhibits renal renin release>>reduces
aldosterone/angiotensin levels
•
Beta 2 stimulation: smooth muscle relaxation, vasodilatation in skeletal
muscle and tremor, glycogenolysis in liver/ skeletal muscle, uterine relaxation,
reduced peripheral vascular resistance
•
Beta 2 inhibition: bronchospasm, peripheral arteriolar vasoconstriction so use
caution in ASTHMA, PVD !, inhibits glycogen breakdown in liver/skeletal
muscle
Why beta blockers rock
Long term beta blocker use after MI reduces mortality
by 25%, due to the reduction in cardiac workload and
02 demand, however 25% develop significant side
effects including bradycardia, AV Block, asthma,
hypotension
Class 2: Beta Blockers
Beta Blockers act at different
sites in the myocardium
Variable Mechanisms of Beta
Blocker Actions
Representative Beta Blocker
examples
Variable sites of action
Slows AV conduction velocity
Propranolol (NON SELECTIVE:
BETA 1 AND BETA 2)
Inhibits AV node conduction
Metoprolol and Atenolol (BETA 1
SELECTIVE)
Prolongs PR (class 2) and QT
interval (class 3)
Sotalol
Mixed Beta and Alpha-1
Blocker effect
Labetalol
Beta blockers..
Effect
Mechanism
Examples
Cardioselective
Beta 1 receptor blockers
Metoprolol, Atenolol
Membrane stabilisers
Prolong QRS
Propranolol
Alpha and beta blockade
Block both adrenergic effects
Labetalol
“Intrinsic Sympathomimetic
Activity”
Insignificant Beta Agonist effect Pindolol, Alprenolol,
also
Oxprenolol
??helpful in CCF
Comparing beta blockers
DRUG
RECEPTORS
BLOCKED
ISA (antagonist
and partial
agonist)
METABOLISM
DOSES/DAY
Atenolol
Beta 1
0
renal
1
Metoprolol
Beta 1
0
liver
1-2
Sotalol
Beta 1 beta 2
0
liver
2
Pindolol,
Oxprenolol
Beta 1 beta 2
+++
?Better in PVD;
does not help
survival after MI
liver
2-3
Propranolol
Beta 1 beta 2
0
liver
2-3
Beta Blockers and arrhythmias
DRUG
Beta receptor
blocked
MECHANISM
DOSE
SIDE EFFECTS Arrhythmias
/INTERACTS
used for
Propranolol
Beta 1 and 2
Blocks
adrenaline
binding at the
receptor
Reduced myoc
contractility,
slowed SA AV
automaticity and
cond veloc
10 -40mg o tds
S/Es:
bradycardia,
bronchospasm,
cool peripheries,
nightmares,
depression,
fatigue
Sinus tachy
including
hyperthyroidism,
rate control AF,
increase AV
block in AFlutter
Metoprolol
Beta 1
“
IV 1mg
increments;
usually 50100mg oral q1224h
“
“ “ also
exercise induced
VT
Atenolol
Beta 1
“
25-50mg oral
daily
“
“ “ also
exercise induced
VT
Sotalol
Beta 1 and 2,
“ ”, and
Slows
Refractory
Period: Atria,
AV.Ventricles,
40-160mg oral
bd
Proarrhythmic
including long
QT and ventric
torsades.
Brady/
Most Atrial,
ventricular
tachyarrhythmias; not
effective in
and
Prolongs RP
Class 3: K+ channel blockers
Bretylium
Amiodarone
Sotalol
Class 2 and 3: Sotalol
•
Sotalol:
•
Mimics Class 3 antiarrhythmics (The Class 3 agents
are Amiodarone, Bretylium and Sotalol: they prolong
myocardial refractoriness and repolarisation without
affecting conduction) as well as having a noncardioselective beta adrenergic blocking effect
Amiodarone
DRUG
Amiodarone
CLASS
MECHANISM
DOSE
SIDE EFFECTS
/INTERACTS
Class 3 K+
channel blocker
Also some Na+
channel blocker
(Class 1),
Also some beta
blocker and CCB
effect.
Structurally
similar to
Thyroxine.
Long acting half
life 30-120 days
Not negative
inotrope so is
useful in CCF.
Decreases SA
and AV node
automaticity.
Prolongs
Refractory period
of all
myocardium.
Weak beta
blocker effect on
rate.
IV 300mg then
infusion 15mg/kg
over 24 hrs, in
5%Dextrose
Oral 100-400mg
daily
Many.
Proarrhythmic.
Photosensitisatio
n, skin pigment,
corneal deposits,
thyroid,pulm
fibrosis, Periph
Neuropathy , long
QT and torsades.
Hepatotoxic,
nausea.
Interacts:
potentiates
Digoxin levels
and Warfarin
C/Ix Cardiogenic
shock
C/Ix AV Block
Arrhythmias
used for
Equivalent to
Flecainide in
reverting PAF;
VT reversion; VF
after Defib;
PVCs; SVT incl
WPW; Aflutter;
prevent PAF
C/Ix AV Block
C/Ix Cardiogenic
shock
Calcium Channel
Blockers
Centrally acting: reduce heart rate, cardiac
contractility, and conduction. Minimal peripheral
effects. Phenylalkylamine class: Verapamil;
Benzothiazepine class: Diltiazem*,
Peripherally acting: relax vascular smooth muscle.
Minimal effect on myocardium. Dihydropyridine
class: Amlodipine, Nifedipine; also Benzothiazepine
class: Diltiazem*
Diltiazem overlaps central and peripheral effect
Calcium Channel
Blockers
DRUG Examples
CLASS
MECHANISM
DOSE
SIDE EFFECTS
/INTERACTS
Arrhythmias used
for
Prevent and treat
SVT, rate control in
AF, STc
Verapamil
Phenylalkylamine
Block L-type
Calcium channels
Reduces HR
Conduction
velocity. Negative
Inotrope
40-80 mg tds:
Hypotension,
C/Ix in CCF,
peripheral
oedema,
headache, flushing
Nifedipine
Amlodipine
Dihydropridines
Block L-type
Calcium channels
Relaxes
peripheral
vascular smooth
muscle
Nifed:10-30mg
daily for HT
Amlod: 5-10mg;
used for HT
Reflex tachycardia, Not for arrhythmias
peripheral
oedema,
headache, flushing
Diltiazem
Benzothiazepine
Block L-type
Calcium channels
Mixed effects
60mg tds antianginal
Similar to above
Anti-anginal; some
effects STc SVT
Adenosine
DRUG
Adenosine
CLASS
nucleoside
MECHANISM
DOSE
SIDE EFFECTS
/INTERACTS
Arrhythmias
used for
Depresses
conduction AV
node
Metabolised by
cellular uptake
into erythrocytes.
3-6mg rapid IV
bolus and flush.
12mg if not
successful
Rapid onset and
offset ~ half life is
10 seconds.
Bronchospasm,
headache,
anxiety
Relative C/Ix with
Verapamil or
Digoxin as may
rarely cause VF
Dipyridamole and
carbemazepine
enhance
adenosine heart
bl;ock effect
Use Midazolam 1- C/Ix Bradycardia
2mg IV as
or CHB
premed to reduce
anxiety
Reverts SVT
including WPW.
Diagnostic in
Aflutter
Transient AV
blockade in AF.
No effect on
Ventricular
arrhythmias
Which conduction disorder is this?
Atropine
DRUG
Atropine
CLASS
Anticholinergic:
MECHANISM
DOSE
SIDE EFFECTS
/INTERACTS
Arrhythmias
used for
Competitive
blockade
muscarinic ACh
receptors in CNS
and
parasympathetic
NS
Bradycardia with
compromised
haemodynamics:
-IV 1 mg (adult);
repeat x 2 as
needed (total
3mg)
Asystole: 6mg IV
once only
S/E’s:
tachycardia, dry
mouth,
mydriasis,
photophobia,
urinary retention,
delirium, fever
Bradyarrhythmia
s with
haemodynamic
compromise
Adrenaline is the
initial drug of
choice for
asystole
Also for
organophosphat
e poisoning with
bradycardia.
Digoxin
DRUG
Digoxin
CLASS
Cardiac
glycoside
MECHANISM
DOSE
Increases force
of contraction
and inhibits AV
node conduction
IV: 0.5mg IV over
5 mins 4-6 hourly
to total 1.5mg.
Oral 0.1250.25mg daily.
SIDE EFFECTS
/INTERACTS
Arrhythmias
used for
Yellow vision,
bradycardia,
atrial tachy with
bundle block,
vomiting,
proarrhythmic
AF rate control
SVT reversion or
prevention of
PAF
CCF at lower
doses
Therapeutic level Renal excretion
1.0-2.6 nmol/L
70%
Isoprenaline
DRUG
Isoprenaline
CLASS
Beta AGONIST
(beta 1 and beta
2)
MECHANISM
DOSE
SIDE EFFECTS
/INTERACTS
Positive inotrope,
chronotrope.
Increases
automaticity and
AV conduction.
Increases systolic
BP; decreases
diastolic BP due
to peripheral
vasodilatation.
Coronary
vasodilator.
IV: 20mcg IV over
2 mins; infusion
0.0510mcg/kg/min
titrated to heart
rate.
Headache,
tachycardia, BP
up or down,
angina.
It increases
cardiac workload
and oxygen
demand like all
sympathomimetic
agonists.
Arrhythmias
used for
Bradycardia,
complete heart
block, adjunct in
septic or
cardiogenic
shock. Use
vasopressors as
well and fluid. Use
with CHB while
arranging urgent
pacing.
Questions?