Arrhythmias - Pathophysiology, presentation and investigation

Question 1

Learning Outcomes for arrhythmias

Answer 1

Question 2

What is meant by normal sinus rhythm?

Answer 2

Normal heart rhythm with electrical activation beginning in the SA node

Question 3

Which lead is the best to assess rhythm?

Answer 3

Whichever lead that shows the P wave most clearly, usually limb lead 2 or V1

Question 4

What is the PR interval?

Answer 4

The time taken for the wave of depolarisation to travel from the SA node to the ventricular muscle (usualy no longer than 220 ms (6 boxes))

Question 5

What is meant by first degree heart block?

Answer 5

When there is a delay in the conduction pathway from the SA node to the ventricles

There is therefore a characteristic prolonged PR interval

Question 6

What are the casues of first degree heart block?

Answer 6

May be a sign of coronary artery disease, acute rheumatic carditis, digoxin toxicity or electrolyte disturbances.

Question 7

What is meant by second degree heart block?

Answer 7

When on intermittant occasion, excitation completely fails to pass through the AV node or the bundle of His

Question 8

What are the three different types of second degree heart block?

Answer 8

Mobitz type 1

Mobitz type 2

2:1 / 3:1 / 4:1 conduction

Question 9

What is mobitz type 1 heart block?

Answer 9

Progressive lengthening of the PR interval and then failure of conduction of an atrial beat, followed by a conducted beat with a shorter PR interval and then a repetition of this cycle

Question 10

What is mobitz type 2 heart block?

Answer 10

Most beats are conducted with a constant PR interval, but occasionally there is atrial depolarisation without a subsequent ventricular depolarization

Question 11

What is meant by 2:1 / 3:1 / 4:1 conduction?

Answer 11

There may be alternate conducted and nonconducted atrial beats (or one conducted atrial beat and then two or three nonconducted beats), giving twice (or three or four times) as many P waves as QRS complexes. This is called ‘2:1’ (‘two to one’), ‘3:1’ (‘three to one’) or ‘4:1’ (‘four to one’) conduction

Question 12

What is meant by third degree heart block?

Answer 12

Complete heart block (third degree block) is said to occur when atrial contraction is normal but no beats are conducted to the ventricles. When this occurs the ventricles are excited by a slow ‘escape mechanism’ from a depolarizing focus within the ventricular muscle.

No relationship between P waves and QRS complexes

Abnormally shaped QRS complexes,

because of abnormal spread of depolarization from a ventricular focus

Question 13

What causes third degree heart block?

Answer 13

Complete heart block may occur as an acute phenomenon in patients with myocardial infarction (when it is usually transient) or it may be chronic, usually due to fibrosis around the bundle of His. It may also be caused by the block of both bundle branches.

Question 14

What are the common causes of heart block?

Answer 14

Question 15

Where does mobitz 1 and mobitz 2 take place?

Answer 15

Question 16

What causes third degree heart block?

Answer 16

Complete heart block is caused by the aging process, medicines, heart attacks, infiltrative heart diseases (amyloidosis, sarcoidosis), and infectious diseases (endocarditis, Chagas disease). It may also occur after heart surgery and can be present from birth (congenital)

Question 17

What are the presentations of third degree heart block?

Answer 17

Fainting, light headedness

Question 18

When is heart rhythm said to be arrhythmia?

Answer 18

When the depolarisation sequence begins somewhere outwith the SA node

Question 19

What can control the rhythm of contraction in the ventricles?

Answer 19

Most parts of the heart can depolarize spontaneously and rhythmically, and the rate of contraction of the ventricles will be controlled by the part of the heart that is depolarizing most frequently.

Question 20

What makes up suprventricular rhythm?

Answer 20

Sinus rhythm, atrial rhythm and junctional rhythm

Question 21

Which rhythms have narrow/wide QRS complexes?

Answer 21

Question 22

What is the rate of contraction in supraventricular / ventricular rhythm?

Answer 22

The atrial muscle or the area around the AV node (the junctional region) have spontaneous depolarization frequencies of about 50/min. If these fail, or if conduction through the His bundle is blocked, a ventricular focus will take over and give a ventricular rate of about 30/min.

Question 23

Why are escape rhythms called escape rhythms?

Answer 23

These slow and protective rhythms are called ‘escape rhythms’, because they occur when secondary sites for initiating depolarization escape from their normal inhibition by the more active SA node.

Question 24

What does atrial flutter look like on an ECG?

Answer 24

Atrial rate is greater than 250/min, and there is no flat baseline between the P waves, ‘atrial flutter’ is present

Question 25

What is meant by fibrillation?

Answer 25

When individual muscle fibres contract independently

Question 26

Explain why there are irregular QRS complexes present in atrial fibrillation

Answer 26

Depolarization spreads at irregular intervals down the His bundle. The AV node conducts in an ‘all or none’ fashion, so that the depolarization waves passing into the His bundle are of constant intensity. However, these waves are irregular, and the ventricles therefore contract irregularly.

Question 27

What is meant by supraventricular tachycardia?

Answer 27

Involves, atrial tachycardia, atrial flutter and nodal tachycardia

Question 28

Why are some of the P waves not followed by a QRS complex in atrial tachycardia?

Answer 28

In atrial tachycardia, the atria depolarize faster than 150/min

The AV node cannot conduct atrial rates of discharge greater than about 200/min. If the atrial rate is faster than this, ‘atrioventricular block’ occurs, with some P waves not followed by QRS complexes

Question 29

Explain the relationship between the P wave and the QRS complex in nodal tachycardia?

Answer 29

If the area around the AV node depolarizes frequently, the P waves may be seen very close to the QRS complexes, or may not be seen at all. The QRS complex is of normal shape because, as with the other supraventricular

arrhythmias, the ventricles are activated via the His bundle in the normal way.

Question 30

What is the diffrence between atrial tachycardia and heart block?

Answer 30

AV node working properly vs AV node and possible HIS bundle not working properly

Question 31

What is meant by the Wolff–Parkinson–White syndrome?

Answer 31

There is an ‘accessory’ conducting bundle, which forms a direct connection between the atrium and the ventricle, usually on the left side of the heart, and in these bundles there is no AV node to delay conduction. A depolarization wave therefore reaches the ventricle early, and ‘pre-excitation’ occurs. The PR interval is short, and the QRS complex shows an early slurred upstroke called a ‘delta wave’. The second part of the QRS complex is normal, as conduction through the His bundle catches up with the pre-excitation.

Question 32

What is meant by ventricular tachycardia?

Answer 32

If a focus in the ventricular muscle depolarizes with a high frequency the rhythm is called ‘ventricular tachycardia’

Question 33

What is seen on an ECG of ventricular tachycardia?

Answer 33

Excitation has to spread by an abnormal path through the ventricular muscle, and the QRS complex is therefore wide and abnormal.

Wide and abnormal complexes are seen in all 12 leads of the standard ECG

Question 34

What is meant by sinus tachycardia?

Answer 34

Sinus tachycardia (also colloquially known as sinus tach or sinus tachy) is asinus rhythm with an elevated rate of impulses, defined as a rate greater than 100 beats/min (bpm) in an average adult.

Three or less large squares between QRS complexes represents tachycardia on the ECG sheet usually

Question 35

How do you calculate heart rate in a patient with irregular qrs complexes?

Answer 35

Count the number of QRS complexes over 30 large squares (this correspondst o 6 seconds) then multiply by 10 to give the number of beats over a minute.

Question 36

Define sinus bradycardia

Answer 36

Sinus bradycardia is a sinus rhythm with a rate that is lower than normal. In humans, bradycardia is generally defined to be a rate of under 60 beats per minute.

This means a QRS complex is present every 5 boxes or more

Question 37

Define sinus arrest

Answer 37

Sinoatrial arrest is when the sinoatrial node of the heart transiently ceases to generate the electrical impulses. It is defined as lasting from 2.0 seconds to several minutes. Since the heart contains multiple pacemakers, this interruption of the cardiac cycle generally lasts only a few seconds before another part of the heart, such as the atrio-ventricular junction or the ventricles, begins pacing and restores the heart action

Question 38

What is meant by extrasytole or ectopic beat?

Answer 38

A premature contraction of the heart that is independent of the normal rhythm of the heart and that arises in response to an impulse in some part of the heart other than the normal impulse from the sinoatrial (SA) node. The extrasystole is followed by a pause, as the heart electrical system “resets” itself and the contraction following the pause is usually more forceful than normal. These more forceful contractions are frequently perceived as palpitations.

Question 39

What is an atrial extrasystole seen as?

Answer 39

Looks similar to the atrial escape beat whereby an abnormal P wave is seen because excitation of the atrium has begun somewhere other than the SA node. The difference is that an extrasystole comes early and an escape beat comes late.

Question 40

What do junctional extrasystoles look like?

Answer 40

In a junctional extrasystole there is no P wave at all, or the P wave appears immediately before or immediately after the QRS complex

Question 41

Describe ventricular extrasystole

Answer 41

Ventricular extrasystoles have abnormal QRS complexes, which are typically wide and can be of almost any shape.

Ventricular extrasystoles are common, and are usually of no importance. However, when they occur early in the T wave of a preceding beat they can induce ventricular fibrillation and are thus potentially dangerous.

Question 42

Discuss the prevalence of af in england

Answer 42

It is estimated that 1.36 million people in England have AF. This is equal to 2.4% of the population. AF prevalence is higher in men than in women, 2.8% versus 2.0%. AF prevalence increases with age; 2.9% of the total estimated AF in the population is likely to occur in people aged under 45, 16.6% in people aged 45-65 and 80.5% in people aged over 65.

Question 43

What are the signs and symptoms of AF?

Answer 43

Atrial fibrillation (AF) usually causes the heart’s lower chambers, the ventricles, to contract faster than normal.

When this happens, the ventricles can’t completely fill with blood. Thus, they may not be able to pump enough blood to the lungs and body. This can lead to signs and symptoms, such as:

Palpitations (feelings that your heart is skipping a beat, fluttering, or beating too hard or fast)

Shortness of breath

Weakness or problems exercising

Chest pain

Dizziness or fainting

Fatigue (tiredness)

Confusion

Question 44

What is thetreatment for atrial fibrilaltion?

Answer 44

Rule out over active thyroid, medication to treat overactive thyroid may stop af

Medicines to control af (sub divided into medication that can either restore heart rhythm or control the rate at which the heart beats.

Anticoagulation to prevent the risk of stroke (warfarin or a newer type of anticoagulant, such as dabigatran, rivaroxaban, apixaban or edoxaban)

Cardioversion (It involves giving the heart a controlled electric shock to try to restore a normal rhythm.)

Catheter ablation (a procedure that very carefully destroys the diseased area of your heart and interrupts abnormal electrical circuits.)

(Catheters (thin, soft wires) are guided through one of your veins into your heart, where they record electrical activity. When the source of the abnormality is found, an energy source, such as high-frequency radiowaves that generate heat, is transmitted through one of the catheters to destroy the tissue.)

Pacemaker

Question 45

What medications are able to restore normal rhythm?

Answer 45

Flecainide

beta-blockers, particularly sotalol

amiodarone

dronedarone (only for certain people)

Question 46

What drugs are used to control the rate of heart beat?

Answer 46

Beta blocker (bisoprolol or atenolol)

Calcium channel blocker (verapamil, diltiazem)

A medicine called digoxin may be added to help control the heart rate further. In some cases, amiodarone may be tried.

Question 47

WHat can cardioversion be used to treat?

Answer 47

Ventricular tachycardia

Supraventricular tachycardia due to reentry

Atrial fibrillation

Atrial flutter

Atrial tachycardia

Monomorphic VT with pulses

Question 48

f you’ve had atrial fibrillation for more than two days, cardioversion can increase the risk of a clot forming, how is clot formation avoided?

Answer 48

anticoagulant for three to four weeks before cardioversion, and for at least four weeks afterwards

Question 49

What are the indications for ICD therapy (implantable cardioverter-defibrillator)?

Answer 49

Cardiac arrest due to VF/VT not due to transient or

reversible cause eg early phase of acute MI

Sustained VT causing syncope or significant compromise

Sustained VT with poor LV function

Question 50

What are the indications for temporary pacing?

Answer 50

• Intermittent or sustained symptomatic bradycardia, particularly syncope
• Prophylactic when patient at high risk for development of severe bradycardia eg 2nd or 3rd degree AV block, post anterior MI, even when asymptomatic

(basically if there is bradycardia or risk of bradycardia)

Question 51

What are the indications for permanent pacing?

Answer 51

• Symptomatic or profound 2nd/3rd degree AV block, particularly when cause unlikely to disappear
• Probably Mobitz type II 2nd/3rd degree AV block even if asymptomatic
• AV block associated with neuromuscular diseases after (or in preparation for) AV-node ablation
• Alternating RBBB/LBBB
• Syncope when bifascicular/trifascicular block and no other explanation
• Sinus node disease associated with symptoms
• Carotid sinus hypersensitivity/malignant vasovagal syncope

Question 52

What is meant by bifasicular block?

Answer 52

Bifascicular block – The term bifascicular block most commonly refers to conduction disturbances below the atrioventricular (AV) node in which the right bundle branch and one of the two fascicles (anterior or posterior) of the left bundle branch are involved

Question 53

Define trifasicular block

Answer 53

Prolongation of the PR interval (first degree AV block)

Right bundle branch block

Either left anterior fascicular block or left posterior fascicular block.

Question 54

What is a bundle branch block?

Answer 54

When there is abnormal conduction through either the right or left bundle branches.

There is a delay in the depolarization of part of the ventricular muscle. The extra time taken for depolarization of the whole of the ventricular muscle causes widening of the QRS complex.

In the normal heart, the time taken for the depolarization wave to spread from the interventricular septum to the furthest part of the ventricles is less than 120 ms, represented by three small squares of ECG paper. If the QRS complex duration is greater than 120 ms, then conduction within the ventricles must have occurred by an abnormal, and therefore slower, pathway.

Question 55

What is the approach to assess ECG?

Answer 55

ARIBAR

A - Any electrical activity

R - Rate

I - Irregular or regular

B - QRS complexes Broad or Narrow

A - Atrial activity?

R - Relationship between atrial acivity and ventricular activity?

Question 56

What are the four main types of supraventricular tachycardia?

Answer 56

atrial fibrillation, paroxysmal supraventricular tachycardia (PSVT), atrial flutter, and Wolff-Parkinson-White syndrome

Question 57

What is the disease mechanism behind paroxysmal supraventricular tachycardia?

Answer 57

The underlying mechanism typically involves an accessory pathway that results in re-entry.

Question 58

How is diagnosis of paroxysmal supraventricular tachycardia achieved?

Answer 58

Diagnosis is typically by an electrocardiogram (ECG) which shows narrow QRS complexes and a fast heart rhythm typically between 150 and 240 beats per minute

Question 59

What is the initial treatment of paroxysmal supraventricular tachycardia?

Answer 59

Vasalva manouvre