Anti Arrythmics

Question 1

Cardiac arrhythmia

Also known as cardiac ______ or _______, is a group of conditions in which the heartbeat is _______,_____, or _______

Answer 1

dysrhythmia

irregular heartbeat

irregular, too fast, or too slow.

Question 2

Cardiac arrhythmia

An abnormality of impulses in terms of _____,_______ , or _______

Usually (symptomatic or asymptomatic?) .

Answer 2

site of origin, rate or conduction.

asymptomatic

Question 3

Cardiac arrhythmia

When symptoms are present, these may include palpitations miss heartbeats, light-headedness, syncope, shortness of breath, or chest pain.

T/F

Answer 3

T

Question 4

While most arrhythmias are (serious or not serious?) some predispose a person to complications such as _____ or _______. Others may result in cardiac arrest and death.

Answer 4

Not serious

stroke or heart failure

Question 5

There are four main types of arrhythmias: ______,_____,______,_____

Answer 5

extra beats, supraventricular tachycardias, ventricular arrhythmias, and bradyarrhythmias.

Question 6

Anti-Arrhythmic agents are drugs clinically used in treating or preventing abnormalities in _______ and _____

Answer 6

Heart rate and rhythm

Question 7

Heart rate is the ____________

Normal Heart Rate is ____ to ______

Answer 7

number of heart beat occurring within a minute

60 to 100 bpm

Question 8

Heart rhythm is the _____________________

Normal Heart rhythm is regular with _____ contracting before ______

Answer 8

pattern in which the heart beats

atrium; ventricles

Question 9

Heart rate and rhythmic are determined by four major properties of the Heart

______
_______
_______
_______

Answer 9

EXCITABILITY
RHYTHMICITY
CONDUCTIVITY
CONTRACTILITY

Question 10

MECHANISM

Excitation of SA and AV

Phase 0
_______

Phase 3
_________

Phase 4
____________

Answer 10

Ca2+ Influx

K+ Efflux

Ca2+ influx, Na+ influx , K+efflux

Question 11

MECHANISM
Excitation of Atrium and Ventricle

Phase 0- ____

Phase 1-______

Phase 2- _______

Phase 3- _____

Phase 4- _______

Answer 11

Na+ influx

Rapid K+ efflux

Ca2+ influx

K+ efflux

Na+/K+ ATPase( resting membrane potential)

Question 12

If the arrhythmia arises from ____,______, or _______ it is called supraventricular arrhythmia

If the arrhythmia arises from the ———- it is called ventricular arrhythmia

Answer 12

atria, SA node, or AV node

ventricles

Question 13

Cardiac cell undergo depolarization and repolarisation to form cardiac action potential about ___ times per minute.

Answer 13

6

Question 14

In the atria, purkinje, and ventricles the AP curve consists of ___ phases

In the SA node and AV node, AP curve consists of __ phases

Answer 14

5

3

Question 15

Pacemaker cells (automatic cells) have ______ membrane potential so they can generate AP _______

Answer 15

unstable

spontaneously

Question 16

In Plateau phase of AP generation ,

It’s Due to (fast or slow?) inward current caused by _____channels (__-type _____ channels) opening which also leads to cardiac muscle ———.

Answer 16

Slow ; Ca2+

L; Ca2+

contraction

Question 17

In phase 4 of regular AP generation,

Spontaneous _____ to threshold where critical voltage activates ____+ channels. If this phase is steeper, then heart rate ___eases. Involves the spontaneous action of various channel types.

Answer 17

depolarisation; Na

incr

Question 18

Mechnisms of Arrhythmogenesis

Divided into 2

_______
_______

Answer 18

Abnormal impulse generation

Abnormal impulse conduction

Question 19

Mechnisms of Arrhythmogenesis

Abnormal impulse generation can either be _______ or ———

Answer 19

Automatic rhythms

Triggered rhythms

Question 20

Mechnisms of Arrhythmogenesis

Abnormal impulse conduction can either be _______ or ———

Answer 20

Conduction block or re-entry

Question 21

Mechnisms of Arrhythmogenesis

Automatic rhythms can either be ________ which means _____ or ——— which means _____

Answer 21

Ectopic focus; AP arises from sites other than SA node

Enhanced normal automaticity; increased AP from SA node

Question 22

Mechnisms of Arrhythmogenesis

Triggered rhythms can either be ________ or ———

Answer 22

Delayed afterdepolarization

Early afterdepolarization

Question 23

Conduction block is when __________

Answer 23

This is when the impulse is not conducted from the atria to the ventricles

Question 24

Mechnisms of Arrhythmogenesis

Conduction block has _____ types

List them

Answer 24

3

First degree
Second degree
Third degree

Question 25

Mechnisms of Arrhythmogenesis

Re-entry can either be ——— or _____

Answer 25

Circus movement or reflection

Question 26

Dihydropiridines works on the _____ while the non- Dihydropiridines works on the _________

Answer 26

Blood vessels, thereby leading to reflex tachycardia

Heart gan gan

Question 27

Arrhythmias

Examples under Sinus rhythm

?????

Answer 27

Sinus arrhythmia
Sinus tachycardia
Sinus bradycardia

Question 28

Arrhythmias

Examples under atrial arrythmia

Answer 28

Paroxysmal Atrial Tachycardia
Atrial Flutter
Atrial Fibrillation

Question 29

Arrhythmias

Examples under nodal arrhythmia

Answer 29

AV Nodal blocks
Nodal re-entrant arrhythmia

Question 30

Arrhythmias

Examples under ventricular arrhythmia

Answer 30

Paroxysmal Ventricular Tachycardia
Ventricular Tachycardia
Ventricular Fibrillation

Question 31

Sinus Tachycardia: high sinus rate of ____-___ beats/min, occurs during _____ or other conditions that lead to ______________

Answer 31

100-180; exercise

increased SA nodal firing rate

Question 32

Atrial Tachycardia: a series of __ or more consecutive _______ occurring at a frequency >____/min

Answer 32

3

atrial premature beats

100

Question 33

Paroxysmal Atrial Tachycardia (PAT): tachycardia which ___________________

Answer 33

begins and ends in acute manner

Question 34

Atrial Flutter: sinus rate of _____-___beats/min.

Answer 34

250-350

Question 35

Atrial Fibrillation:_______ atrial
depolarizations.

Answer 35

uncoordinated

Question 36

AV blocks
A __________ within the ______ , occasionally in the _______, that impairs impulse conduction from the atria to the ventricles.

Answer 36

conduction block

AV node

bundle of His

Question 37

Ventricular Flutter - ventricular depolarizations >____/min.

Answer 37

200

Question 38

Ventricular Fibrillation -________ ventricular depolarizations

Answer 38

uncoordinated

Question 39

2 main things used in DIAGNOSIS of arrhythmias

______
______

Answer 39

Pulse
Electrocardiogram (ECG

Question 40

A Regular irregular Pulse can be caused by ???

Answer 40

Heart block
Sinus arrhythmia

Question 41

An IRegular irregular Pulse can be caused by ???

Answer 41

Atrial arrhythmia
Ventricular tachycardia

Question 42

P wave = _______

QRS wave=———-

T wave _________

Answer 42

Atrial depolarization

Ventricular depolarization

Ventricular repolarization

Question 43

Describe the following

PR interval

QRS interval

QT interval

Answer 43

Start of P wave to start of QRS wave

Start of QRS wave to end of QRS wave

Start of QRS wave to end of T wave

Question 44

Describe the following

PR Segment

ST segment

Answer 44

End of P wave to start of QRS wave

End of QRS wave to start of T wave

Question 45

End of QRS wave is also knows as ______

Answer 45

J point

Question 46

COMPLICATIONS caused by heart arrhythmias

_____tension
___________
_____ failure
_______ shock
______
______

Answer 46

Hypo

Thromboembolism

Heart
Cardiogenic
Cardiac arrest
Stroke

Question 47

Pharmacologic Rationale & Goals

The ultimate goal of antiarrhythmic drug therapy:
Restore normal ______ and _____

Prevent _______________ from occurring.

Answer 47

sinus rhythm and conduction

more serious and possibly lethal arrhythmias

Question 48

Antiarrhythmic drugs are used to:

decrease ________

change the duration of the ___________

suppress _________

Answer 48

conduction velocity

effective refractory period (ERP)

Abnormal automaticity

Question 49

With regards to management of atrial fibrillation, Class _____ and _____ are used in _______ control as medical cardioversion agents while Class ____ and _____ are used as ____ control agents.

Answer 49

I and III ; rhythm

II and IV ; rate

Question 50

There are _____ main classes in the Singh Vaughan Williams classification of antiarrhythmic agents

Answer 50

five

Question 51

Class I agents interfere with the _______

Class II agents are __________agents. Most agents in this class are ______

Answer 51

sodium (Na+) channel.

anti-sympathetic nervous system

beta blockers.

Question 52

Class III agents affect __________

Class IV agents affect ———— and the ______

Class V agents work by _________

Answer 52

potassium (K+) efflux.

calcium channels ; AV node.

other or unknown mechanisms.

Question 53

Anti-arrhythmic drug

Class I - Fast Channel Blockers

Ia - _______,______,______

Ib - ________,_____,________ , Tocaininde

Ic - ______ ,_______ ,________, Indecainide, Moricizine

Answer 53

Quinidine, Disopyramide, Procainamide

Lidocaine, Phenytoin, Mexilitine

Ecainide, Flecainide, Propafenone,

Question 54

Anti-arrhythmic drug

Class II - ________
Propanolol, Acebutolol, Atenolol, Betaxolol, Bisoprolol, Esmolol, Labetalol, Metoprolol, Nadolol, Oxprenolol, Penbutolol, Pindolol, Sotalol, Timolol

Answer 54

Beta Blockers

Question 55

Anti-arrhythmic drug

Class III

_______,_______,_____

Answer 55

Bretylium, Amiodarone, Sotalol

Question 56

Anti-arrhythmic drug

Class IV - Calcium Channel Blockers

______,_______

Answer 56

Verapamil, Diltiazem

Question 57

Anti-arrhythmic drug

Unclassified - ______,______ ,_____

Answer 57

Digoxin, Adenosine, Mg

Question 58

Anti arrhythmic mech of action

Class 1 : are Na+ channel blockers

_________ effect
(Positive or negative ?) inotropic action

Answer 58

Local anaesthetic

Negative

Question 59

Anti arrhythmic mech of action

Class 1( A ): it ______ duration of __________ and _______

Have ____ channel blocking effect

_________ & hypotensive effects.

Answer 59

prolongs

action potential & refractory period.

K+ ; Antimuscarinic

Question 60

Anti arrhythmic mech of action

Class I(B): ______ the duration of _______

Answer 60

Shorten

action potential & refractory period

Question 61

Anti arrhythmic mech of action

– Class1(C) : ______ on the duration of ______

Answer 61

No effect

action or refractory period.

Question 62

Anti arrhythmic mech of action

Class III: K+ channel blockers,

________ duration of action potential and refractory period.

Answer 62

Prolong

Question 63

Class 1(A) Quinidine:

______ plant

It ____ open & inactivated_____ channel

Block _____ channel

Answer 63

Cinchona

Block; sodium

potassium

Question 64

Quinidine

_______ inotropic effect

___________ effect

Answer 64

Negative

Antimuscarinic

Question 65

Quinidine

– Prolong _____________ on the ECG

Answer 65

Q-T interval

Question 66

Quinidine

Well absorbed _____

(Low or High?) bound to plasma protein

Answer 66

orally

High

Question 67

Quinidine

Metabolized in the ____
Excreted via _____ with 20% unchanged

Answer 67

liver

Kidney

Question 68

Quinidine

Has ____ blocking and ______ properties

Drug interaction with ____

Answer 68

K+

antimuscarinic

Digoxin

Question 69

Adverse effects of quinidine

1- Cardiac effects
A) Due to _____ effect ,in A.Flutter or A.fibrillation, may precipitate _________

Answer 69

antimuscarinic

ventricular tachycardia

Question 70

Adverse effects
1- Cardiac effects

Syncope
_________

Answer 70

Torsade de pointes

Question 71

Adverse effects
1- Cardiac effects

Cardiac stand still (____) in patients with ______ syndrome .

Answer 71

asystole

sick sinus

Question 72

Torsades de Pointes is a type of very fast heart rhythm (tachycardia) that starts in ___________

Answer 72

your heart’s lower chambers (ventricles).

Question 73

Extracardiac adverse effects of quinidine

___tension

______ (headache, dizziness,tinnitus, deafness )

_________ reactions (hepatitis, thrombocytopenia)

GIT, diarrhea,nausea,vomiting

Answer 73

Hypo

Cinchonism

Hypersensitivity

Question 74

Quinidine ___eases the plasma level of digoxin by :
a)_____________
b)______________

Answer 74

incr

displacement from tissue binding sites

decreasing digoxin renal clearance

Question 75

Procainamide - Actions

Suppresses automaticity by:

•decreasing the rate and amplitude of __________
•prolongs __________
•reduces the ___________
•suppresses ______ activity in the atria and ventricles

Answer 75

phase 4 diastolic depolarization

action potential duration

speed of impulse conduction

fibrillatory

Question 76

Procainamide - Actions

____ dependant ______ activity

Answer 76

Dose

anticholinergic

Question 77

Procainamide - Actions

_____ Inotrope
•more pronounced in ischemic myocardium

_________ in high doses
•vasodilatation of peripheral vasculature

Answer 77

Negative

Hypotension

Question 78

Procainamide is Metabolized to _______

Answer 78

N-acetyl Procainamide (NAPA)

Question 79

Torsade de pointes is an adverse effect or indication of procainamide and quinidine?

Answer 79

Adverse effects for quinidine
Contraindication for procainamide

Question 80

PROCAINAMIDE

Given through ________ routes

_________ is safer than _____

Answer 80

IV, IM and Oral

Continous infusion

bolus

Question 81

PROCAINAMIDE

Excreted via ______

Has —————- properties

Answer 81

Kidney

anticholinergic

Question 82

Procainamide - Administration

QRS widens by ______ %
QT interval ______
Total of 17 mg/kg has been administered

Answer 82

> 50

prolongation

Question 83

Procainamide - Adverse Effects

Myocardial ________
prolonged QRS, QT, AV conduction, VF and Torsade de pointes

_________
High doses or rapidly administered

_______
angioedema, bronchoconstriction, vascular collapse, febrile episodes, respiratory arrest

Answer 83

Depression

Hypotension

Hypersensitivity

Question 84

Lidocaine - Actions

Class ___ antiarrhythmic

blocks ________ channels

Answer 84

IB

fast sodium

Question 85

Lidocaine - Actions

decreases slope of phase ____

decreased automaticity in the ______

action potential duration and effective refractory period of His-purkinje is ______eased

Answer 85

4

His-purkinje system

incr

Question 86

Lidocaine - Actions

Acts preferentially on _____ tissue

________ the duration of A.P.& R.P.

Effective in _______ arrhythmias.

Answer 86

ischemic

Shorten

ventricular

Question 87

Lidocaine

Causes ______ effect on AV conduction

(Depresses or Elevates?) v-fib threshold

Answer 87

little or no

Elevates

Question 88

Lidocaine

(Supresses or elevates ?) ventricular ectopy

_____ effect on autonomic nervous system, myocardial contractility and peripheral vascular tone

Answer 88

Suppresses

negligible

Question 89

LIGNOCAINE

Given ____ only

Well absorbed _____

(High or Low?) first pass effect by Liver

Answer 89

IV

orally

High

Question 90

LIGNOCAINE

Half life is 2 hours

Excreted via ______

Also used as a ________

Answer 90

Kidney

Local anesthetic

Question 91

_______ is the First drug of choice in treatment of ventricular arrhythmias

Answer 91

Lidocaine

Question 92

Mexiletine

Effective _____
Half-life (8-20hrs ).

Used in chronic treatment of ______ arrhythmias.

Answer 92

orally

ventricular

Question 93

Mexiletine

Effective in relieving chronic pain due to _________ and ______

Adverse effects - _______ side effects

Answer 93

diabetic neuropathy& nerve injury.

Neurologic

Question 94

Class1(c)- Flecainide

_____ effect on the duration of A.P.& R.P.

Approved for _______________ arrhythmias.

Answer 94

No

refractory ventricular

Question 95

Class1(c)- Flecainide

Pro or Anti arrhythmic?

Answer 95

Pro

Question 96

Class1(c) -Propafenone

Has a weak ________ effect.

Answer 96

β-blocking

Question 97

Class1(c) -Propafenone

Used to maintain sinus rhythm in patients with _______ arrhythmias including AF.

Answer 97

supraventricular

Question 98

Class1(c) -Propafenone

Adverse effects :

________________, constipation .

Answer 98

Metallic taste

Question 99

Compare between class IA, IB , and CI drugs as regards effect on Nat channel & ERP

• Sodium-channel blockade: _____ >___ >____

• Increasing the ERP:___>___>___ (lowered)

Answer 99

IC; IA; IB

IA; IC; IB

Question 100

Specific ADVERSE EFFECTS of class 1 drugs

Quinidine: _______,_____ reaction , G.I disturbance, ______ toxicity

Procainamide: _______

Lignocaine: _______ effect

Answer 100

Cinchonism; Hypersensitivity; Digoxin

Hypersensitivity

Neurological

Question 101

Specific ADVERSE EFFECTS of class 1 drugs

Mexiletine: ______ effect

Propafenone :______,_______

Answer 101

Neurological

Metallic taste, Constipation

Question 102

INDICATIONS for class 1 drugs

_______
_______
________

Answer 102

Atrial flutter
Atrial fibrillation
Ventricular arrhythmia

Question 103

Esmolol - Very (short or long?) acting used for ______ and ——— arrhythmias

Answer 103

Short

intraoperative & acute

Question 104

Esmolol

______ half life of ______

Answer 104

ultra-short

9 minutes

Question 105

Beta Blockers -

Contraindicated
• in > _____ degree heart block

•_______ or _______

•Caution with _______

Answer 105

first

CHF or cardiogenic shock

calcium channel blockers

Question 106

MECHANISM OF ACTION of beta blockers

Binds and blocks Beta adrenergic receptors on the heart

Inhibit PHASE ____ at _____

Answer 106

4; SA node

Question 107

Class 2 drugs

Decreased slope of ___________

Prolonged ________

Answer 107

phase 4 depolarization

repolarization

Question 108

Class 3- Amiodarone

cardiac effects

______ channel blocking
_______ channel blocking
______ channel blocking
____________ blocking

Answer 108

Sodium

Potassium

Calcium

β- adrenoceptor

Question 109

Class 3- Amiodarone

Extracardiac effect

Peripheral _______

Answer 109

vasodilation

Question 110

Pharmacokinetics of amiodarone

Given ______

(Slow or Fast?) onset of action

(Short or Long?) half-life(_____).

Answer 110

orally

Slow

Long; 13-103 hrs

Question 111

Pharmacokinetics of amiodarone

Is highly lipo______ , is concentrated in many tissues.
Eliminated by ______ mostly as (active or inactive ?) metabolites.

Answer 111

philic

liver

Active

Question 112

Clinical uses of amiodarone

Recurrent & refractory ventricular & supraventricular arrhythmias .

Arrhythmias associated with ________.
In maintaining sinus rhythm in patients with AF.

Answer 112

Wolff Parkinson syndrome

Question 113

Adverse effects of amiodarone

__________ discoloration & ______ .

Corneal microdeposits leading ____,_____,_______

pulmonary ______

Answer 113

Gray- blue skin; photodermatitis

corneal opacity ,optic neuritis, blindness

fibrosis

Question 114

Adverse effects of amiodarone

hypo or hyperthyroidism

Nausea & constipation

Hepatic impairment

_______ effects

A-V block & bradycardia

Answer 114

neurological

ISEOLUWA, just look at it, you are tired

Question 115

Drug interactions of amiodarone

__________ leading to _____

______ leading to ____ toxicity

_________ has an additive effect

Answer 115

Oral anticoagulant; bleeding

Digoxin; digoxin

β- blockers

Question 116

Bretylium - Actions

Class ____

______ effects

Answer 116

3

Biphasic

Question 117

Bretylium - Actions

Class 3

Biphasic effects

_________ effects last 20 minutes

Then
____________ 45 to 60 minutes after administration

Answer 117

Norepinephrine release

Blocks release of norepinephrine

Question 118

Bretylium - Actions

Class 3

Affects phase ____ (_____)

prolongs refractoriness

• (pro or anti?) fibrillatory

Answer 118

3; repolarization

Anti

Question 119

Sotalol

Is used for the treatment of :

_____________ arrhythmias.

To maintain sinus rhythm in patients with _________.

Answer 119

Life- threatening ventricular

atrial fibrillation

Question 120

_______ is used For treatment of supra & ventricular arrhythmias in pediatric age group.

Answer 120

Sotalol

Question 121

Specific ADVERSE EFFECTS of Amiodarone

_______ discoloration

_______ disorder

_______ dysfunction

Answer 121

Gray-blue skin

Corneal

Thyroid

Question 122

INDICATIONS of class 3 drugs??

Answer 122

All arrhythmias

Question 123

Class IV
Calcium channel blockers e.g. Verapamil, Diltiazem

Their main site of action is ______ and ________

Effective only in _____ arrhythmias

Answer 123

A.V.N & S.A.N.

atrial

Question 124

Class IV
Calcium channel blockers

Second drugs of choice for the treatment of ______________

Answer 124

paroxysmal supraventricular tachycardia

Question 125

Calcium channel blockers are effective in Wolff Parkinson White syndrome

T/F

Answer 125

F

Not effective in Wolff Parkinson White syndrome

Question 126

Class IV

Adverse effect
Negative inotropic effect causes heart failure, AV block

T/F

Answer 126

T

Question 127

MECHANISM OF ACTION of class 4 drugs

Binds and Blocks Calcium channels on the heart

Inhibit
•_________
•PHASE __ at ______ and _____

Answer 127

All PHASE 4

0

SA and AV node

Question 128

Adenosine - Actions

Negative Chronotropic effects on ___________

Blockade of the ______

Answer 128

SA and AV node

AV node

Question 129

Adenosine - Binds to specific __________ coupled adenosine receptors (____) leading to opening of ____ channel and hence ______.

Answer 129

G protein -

A1&A2; K+

hyperpolarization

Question 130

adenosine leads to a ____eased influx of calcium

Answer 130

Decr

Question 131

Adenosine - Pharmacokinetics

Very (slow or rapid?) onset of action .

(Short or Long?) half- life (______)

Given as a rapid _____ injection

Answer 131

Rapid

Short; seconds

IV Bolus

Question 132

Adenosine - Pharmacokinetics

For the acute termination of _____________ tachycardia ( paroxysmal
attack) First choice.

Answer 132

re-entrant supraventricular

Question 133

Drug Interactions of adenosine

Less effective with adenosine receptor blockers (_______ or ________)

More effective with uptake inhibitors as __________

Answer 133

Caffeine or theophylline

dipyridamole

Question 134

MECHANISM OF ACTION of Adenosine

Inhibits PHASE ___ at ___________

Answer 134

0

SA and AV node

Question 135

INDICATIONS of Adenosine

_________________ tachycardia

Answer 135

Paroxysmal supraventricular

Question 136

MECHANISM OF ACTION of Magnesium

Direct: ________________

Indirect: _____________

Answer 136

Binds and blocks Na+, K+ ATPase pump

Binds and blocks Calcium channel

Question 137

MECHANISM OF ACTION of Magnesium

Inhibits PHASE _______

Answer 137

4, 3 and 0

Question 138

ADVERSE EFFECT of Magnesium

_______
____

Answer 138

Hypermagnesemia
Hyperkalemia

Question 139

_______ can be used to treat Torsade de pointes

Answer 139

Magnesium