Cardiac Arrhythmia Drugs

Question 1

What is an arrhythmia?

Answer 1

Heart condition characterised by disturbances to pacemaker impulse formation, contraction impulse production, or a combination of the 2.

Question 2

Why are arrrhythmias bad?

Answer 2

Rate and/or timing of heart muscle contraction becomes insufficient to maintain a normal CO, and may predispose to clot formation and other pathologies.

Question 3

What are the key ion fluxes in the fast cardiac action potential?

Answer 3

• Na+ influx
• K+ efflux
• Ca2+ influx
• K+ efflux continued
• Na+-K+-ATPase maintenance

Question 4

What do drugs blocking Na+ channels do?

Answer 4

Slow conduction initially, but have no overal effect on the length of the AP.

Question 5

What do drugs blocking K+ channels do?

Answer 5

Increase AP duration by prolonging the refractory period

Question 6

What do drugs blocking Ca2+ channels do?

Answer 6

Decrease influx of Ca2+ so plateau phase prolonged, and spontaneous depolarisation decreases

Question 7

Where is the slow cardiac action potential found?

Answer 7

The SAN and AVN

Question 8

Which extra channel is present in the slow cardiac AP compared to fast, and which is missing?

Answer 8

(Na+ and K+) If funny channel is present

Na+ channel not present alone, and neither is Na+K+ ATPase.

Question 9

Which drugs act on the slow cardic action potential?

Answer 9

Ca2+ channel blockers by decreasing gradient of slope of conduction to decrease velocity and increase refractory period.

Question 10

Aside from ion channel blockers, what can act on the fast cardiac action potential?

Answer 10

Beta blockers

Question 11

Aside from ion channel blockers, what can act on the slow cardiac action potential?

Answer 11

Drugs affecting automaticity like muscarinic agonists and adenosine

Question 12

What are the 2 main routes of arrhythmogenesis?

Answer 12

Abnormal impulse generation and abnormal conduction

Question 13

What 2 types of abnormal impulse generation are there?

Answer 13

Automatic rhythms and triggered rhythms

Question 14

What 2 types of abnormal conduction can occur?

Answer 14

Conduction block, and re-entry loops

Question 15

Which drugs do we use for abnormal impulse generation?

Answer 15

Drugs that decrease the slope and raise the threshold

Question 16

Which drugs do we use for abnormal conduction pathways?

Answer 16

Drugs that decrease conduction and inrease the refractory period

Question 17

What is WPW syndrome?

Answer 17

Wolff-Parkinson-White Syndrome - abnormal anatomical conduction via accessory pathway Bundle of Kent causing pre-excitation (re-entrant tachycardia)

Question 18

Is WPW common?

Answer 18

No - affects 0.1-0.3% of the population, often genetic.

Question 19

What can cause a functional re-entry pathway?

Answer 19

Scar tissue e.g. from a previous MI

Question 20

What is the aim of anti-arrhythmic drugs?

Answer 20

Restore sinus rhythm and conduction to normal, and prevent serious side effects.

Question 21

What classification do we use for antiarrhythmics?

Answer 21

Vaughan Williams Classification

Question 22

How many Vaughan Williams Classification classes are there?

Answer 22

4

Question 23

What is Vaughan Williams Class I?

Answer 23

Na+ channel blockers

Question 24

How many Class I antiarrhythmics are there?

Answer 24

3 - moderate, weak, and strong

Question 25

What is Vaughan Williams Class II?

Answer 25

Beta blockers

Question 26

What is Vaughan Williams Class III?

Answer 26

K+ channel blockers

Question 27

What is Vaughan Williams Class IV?

Answer 27

Ca2+ channel blockers

Question 28

What is the effect of Vaughan Williams Class I drugs?

Answer 28

Cause a change in phase 0 (prolong it) and increase the Na+ threshold.
Also decrease gradient of fast AP -> decreased automaticity, and increase refractory period

Question 29

What is the effect of Vaughan Williams Class II drugs?

Answer 29

Sympathetic innervation block

Question 30

What is the effect of Vaughan Williams Class III drugs?

Answer 30

Prolong repolarisation

Question 31

What is the effect of Vaughan Williams Class IV drugs?

Answer 31

Increase refractory period

Question 32

What are the Class Ia agents, and are they commonly used?

Answer 32

(Ia = Moderate)

Procainamide
Quinidine
Disopyramide

Not commonly used

Question 33

What effect do Class Ia agents have on an ECG?

Answer 33

Prolong QRS
PR interval may be prolonged
QT interval increased

Question 34

What is quinidine used for?

Answer 34

Maintain sinus rhythm in AF and flutter, and in Brugada syndrome.

Question 35

What is procainamide used for?

Answer 35

Acute treatment given IV for SV and V arrhythmias

Question 36

What are the ADRs associated with Class Ia agents?

Answer 36

Hypotension/Decreased CO
Pro-arrhythmic -> Torsades de Pointes
Dizziness, confusion, seizure, GI effects
Lupus like effect especially with procainamide

Question 37

How are Class Ia agents given?

Answer 37

PO or IV

Question 38

What are the Class Ib agents?

Answer 38

(Ib = weak)

Lidocaine
Mexiletine

Question 39

How is lidocaine given?

Answer 39

IV only

Question 40

How is Mexiletne given?

Answer 40

PO

Question 41

What do Class Ib agents do to the heart?

Answer 41

Increase threashold

Decrease phase 0 conduction in fast beating or ischaemic tissue

Question 42

How much effect do Class Ib agents have on healthy tissue?

Answer 42

Very little

Question 43

What effect do Class Ib agents have on an ECG?

Answer 43

Prolonged QRS in ischaemic tissue/fast beating tissue

Question 44

When are Class Ib agents used?

Answer 44

Ventricular tachycardia esp. with ischaemic tissue

Question 45

What are the ADRs associated with Class Ib agents?

Answer 45

Drowsiness
Dizziness
Abdo upset
Less pro-arrhythmic than Class Ia

Question 46

What are the Class Ic agents?

Answer 46

Flecainide

Propafenone

Question 47

How are class Ic agents given?

Answer 47

IV or PO

Question 48

Are class Ic agents strong?

Answer 48

Yes

Question 49

What effect does flecainide have on cardiac activity?

Answer 49

Substantially prolongs phase 0
Increases ADP and refractory period
Sometimes decreases automaticity

Question 50

What effect do Class Ic drugs have on an ECG?

Answer 50

Increase PR, QRS, and QT intervals.

Question 51

When are Class Ic agents used?

Answer 51

Wide spectrum - SV arrhythmias, premature V contractions, WPW syndrome (flecainide)

Question 52

What are the ADRs of class Ic agents?

Answer 52

Pro-arrhythmia and sudden death (esp. in chronic use and structural heart disease)
CNS and GI side effects

Question 53

What are the class II agents?

Answer 53

Propanolol
Bisoprolol
Metoprolol
Esmolol

Question 54

How often are class IIs used?

Answer 54

Most often as safest of the classes

Question 55

How can propanolol be given?

Answer 55

PO or IV

Question 56

How can bisoprolol be given?

Answer 56

PO

Question 57

What is good about bisoprolol?

Answer 57

Long t1/2

Question 58

How can metoprolol be given?

Answer 58

IV and PO

Question 59

Tell me about esmolol.

Answer 59

IV only

Very short t1/2

Question 60

What effect do Class II agents have on cardiac tissue?

Answer 60

Increase AP duration and refractory period in AVN.

Decrease phase 4 depolarisation rate.

Question 61

What effects do Class II agents have on ECG?

Answer 61

Decreased HR and increased PR interval.

Question 62

When are Class II agents used?

Answer 62

Sinus and NA dependant tachycardias
Re-entrant arrhythmias
Protecting ventricles from high atrial rates

Question 63

What are the ADRs of Class II agents?

Answer 63

Bronchospasm (esp. in asthma)

Hypotension

Question 64

When are Class II agents contraindicated?

Answer 64

Partial AV block

Ventricular heart failure

Question 65

What are the Class III agents?

Answer 65

Amiodarone

Sotalol

Question 66

How can we give amiodarone?

Answer 66

PO or IV

Question 67

What is the half life of amiodarone?

Answer 67

~ 3 months

Question 68

What are the indications for amiodarone?

Answer 68

Effective in most arrhythmias. Oral, esp. when other drugs are inefective or conta-indicated.

IV for VF or pulseless VT for resuscitation

Question 69

What effects does amiodarone have on cardiac activity?

Answer 69

Increase refractory period and threshold.

Decrease gradient of phase 0 and 4, and speed of AVN conduction.

Question 70

What effect does amiodarone have on an ECG?

Answer 70

Increase PR, QRS, and QR interval.

Decrease HR.

Question 71

What are the ADRs associated with amiodarone?

Answer 71

Pulmonary fibrosis
Hepatic injury
Increases LDL cholesterol
Thyroid disease
Photosensitivity + optic neuritis

Question 72

What happens to amiodarone side effects over time?

Answer 72

They get worse - worst ADRs start after about 3 years.

Question 73

How should we monitor amiodarone use?

Answer 73

LFTs and TFTs every 6 months

Question 74

Due to the effect amiodrone has on the liver, which other drugs might we have to adjust?

Answer 74

Warfarin and digoxin

Question 75

What effects does sotalol have on cardiac activity?

Answer 75

Inrease AP duration and refractory period in A and V tissue.
Slows phase 4
Slows AV conduction

Question 76

What effects does sotalol have on an ECG?

Answer 76

Increased QT interval, and decreased HR.

Question 77

When should an ECG be done with sotalol?

Answer 77

A week after starting it to monitor QT.

Question 78

When is sotalol used?

Answer 78

Wide spectrum - SVTs and VTs.

Question 79

What are the ADRs associated with sotalol?

Answer 79

Pro-arrhythmia
Fatigue
Insomnia

Question 80

What are the class IV agents?

Answer 80

Verapamil and Diltiazem

Question 81

How can verapamil be given?

Answer 81

IV or PO

Question 82

How can diltaizem be given?

Answer 82

PO

Question 83

What effect do Class IV agents have on cardiac tissue?

Answer 83

Slow conduction at the AVN.
Increase AVN refractory period
Slow HR by prolonging phase 4

Question 84

What effect do Class IV agents have on an ECG?

Answer 84

Increase PR interval
Decrease HR (although can also increase HR depending on pt BP response)

Question 85

When are class IV agents used?

Answer 85

SVT for ventricular control esp. in asthma pts.

Question 86

What are the ADRs associated with class IV agents?

Answer 86

Asystole if combined with beta blocker
Hypotension
Decreased CO
Sick sinus
GI problems esp. constipation

Question 87

What are the 5 other antiarrhythmics not in the Vaughan Williams Classification?

Answer 87

Adenosine
Vernakalant
Ivabradine
Digoxin
Atropine

Question 88

How is adenosine given?

Answer 88

Rapid IV bolus

Question 89

Why does adenosine have to be given rapidly?

Answer 89

It has a short t1/2

Question 90

How does adenosine work?

Answer 90

Binds to A1 receptors in SAN and AVN to activate K+ currents -> hyperpolarisation.
Also slows Ca2+ currents to prolong refractory period in AVN.

Question 91

What is the ultimate end point of adenosines action?

Answer 91

Slows conduction at AV node.

Question 92

What are the indications for adenosine?

Answer 92

Converting re-entrant SV arrhythmias.
Hypotension during surgery.
Diagnosis of CAD.

Question 93

How is vernakalant given?

Answer 93

IV bolus over 10 minutes

Question 94

Is vernakalant new?

Answer 94

Yes

Question 95

What is the MoA of vernakalant?

Answer 95

Block atrial specific K+ channels

Question 96

What effect does vernakalant have on cardiac activity?

Answer 96

Slows atrial conduction

Question 97

When is vernakalant most potent?

Answer 97

At higher heart rates

Question 98

What are the ADRs associated with vernakalant?

Answer 98

Hypotension
AV block
Sneezing and taste disturbance (resolves)

Question 99

How is ivabradine given?

Answer 99

PO - 2.5mg bd up to 10mg bd

Question 100

What is the MoA of ivabradine?

Answer 100

Block funny current channels expressed in SAN

Question 101

What are the cardiac effects of ivabradine?

Answer 101

Slows the SAN

Question 102

What are the indications for ivabradine?

Answer 102

Inappropriate sinus tachycardia

Slows HR in heart failure and angina without drop in BP

Question 103

What are the ADRs associated with ivabradine?

Answer 103

Flashing lights

Teratogenicity

Question 104

What is digoxin?

Answer 104

Cardiac glycoside

Question 105

When is digoxin used?

Answer 105

As an add-on therapy

Question 106

What is the MoA of digoxin?

Answer 106

Slows AVN conduction and HR
Inhibits Na+K+ATPase
Enhances vagal activity

Question 107

When is digoxin used?

Answer 107

To reduce ventricular rates in AF and flutter

Question 108

Why is atropine different?

Answer 108

Used to treat bradycardias! Wow, so novel.

Question 109

What is the MoA of atropine?

Answer 109

Selective muscarinic antagonist

Question 110

What is atropine used to manage?

Answer 110

Vagal bradycardia