Arrhythmias

Question 1

How to determine the rate of an ECG?

Answer 1

count the large boxes between each R wave and divide 300 by that number
300, 150, 100, 75, 60

Question 2

is the rhythm regular or irregular for tachycardia and fibrillation ?

Answer 2

tachycardia - regular

fibrillation - irregular

Question 3

What presentation may someone have who has an arrhythmia/supraventricular tachycardia?

Answer 3

• asymptomatic
• palpitations, dyspnoea, chest pain, fatigue
• embolism

Question 4

investigations would you do?

Answer 4

ECG - 12 leads
Heart monitoring for 24 hours
Blood test (especially thyroid function)
Echocardiogram

Question 5

First-Degree Heart Block

Answer 5

In first-degree heart block, the heart’s electrical signals are slowed as they move from the atria to the ventricles (the heart’s upper and lower chambers, respectively) through the AV node.
This results in a longer, flatter line between the P and the R waves on the ECG (electrocardiogram).
First-degree heart block usually doesn’t cause any symptoms or require treatment.

Question 6

Second-degree Heart Block

Answer 6

In this type of heart block, electrical signals between the atria and ventricles are slowed to a large degree. Some signals don’t reach the ventricles. On an ECG, the pattern of QRS waves doesn’t follow each P wave as it normally would.
There is increasing delays in the time it takes the AV node to send the pulse to the ventricle. This will eventually lead to a heartbeat being skipped.

Question 7

What are the two types of second degree heart block called?

Answer 7

Mobitz type I and Mobitz type II

Question 8

Mobitz type I

Answer 8

In this type (also known as Wenckebach’s block), the electrical signals are delayed more and more with each heartbeat, until the heart skips a beat.
On the ECG, the delay is shown as a line (called the PR interval) between the P and QRS waves. The line gets longer and longer until the QRS waves don’t follow the next P wave.
This is the less serious type. It occasionally causes mild dizziness and doesn’t usually require treatment.

Question 9

Mobitz type II

Answer 9

Some of the electrical signals don’t reach the ventricles. However, the pattern is less regular than it is in Mobitz type I.
Some signals move between the atria and ventricles normally, while others are blocked.
This is the more serious type. It can cause light-headedness, dizziness and fainting and usually requires treatment.
On an ECG, the QRS wave follows the P wave at a normal speed. Sometimes, though, the QRS wave is missing (when a signal is blocked).
Less common than type I, but it’s usually more severe. Some people who have type II need medical devices called pacemakers to maintain their heart rates.

Question 10

Third-Degree Heart Block

Answer 10

None of the electrical signals reach the ventricles through the AV node. This type also is called complete heart block or complete AV block.
When complete heart block occurs, special areas in the ventricles may create electrical signals to cause the ventricles to contract. This natural backup system is slower than the normal heart rate and isn’t coordinated with the contraction of the atria. On an ECG, the normal pattern is disrupted. The Pwaves occur at a faster rate, and it isn’t coordinated with the QRS waves.
This type of heart block can be a medical emergency, although in many cases it’s mild and doesn’t require treatment.

Question 11

What is Supraventricular tachycardia (SVT)

Answer 11

abnormally fast heart rate of over 100 heartbeats a minute.

Question 12

What happens during SVT?

Answer 12

the heart rate is not being controlled by the sinus atrial node. another part of the heart is over ridding this and causing the heart to beat faster

Question 13

Describe Wolff-Parkinson-White Syndrome

Answer 13

There is an extra electrical pathway between your heart’s upper chambers (atria) and lower chambers (ventricles) which causes a rapid heartbeat (tachycardia).
Treatment for Wolff-Parkinson-White syndrome can stop or prevent episodes of fast heartbeats. A catheter-based procedure, known as ablation, can permanently correct the heart rhythm problems.

Question 14

Indications for temporary pace maker

Answer 14

• intermittent or sustained symptomatic bradycardia,
• 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

Question 15

Indications for permanent pace maker

Answer 15

• symptomatic or profound 2nd/3rd degree AV block
• 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
• sinus node disease associated with symptoms
• carotid sinus hypersensitivity/malignant vasovagal syncope

Question 16

In the Vaughan Williams Classification,

how does 1A work?

Answer 16

Fast Moderate Na blockage

Question 17

In the Vaughan Williams Classification,

how does 1B work?

Answer 17

Intermediate Weak Na blockage

Question 18

In the Vaughan Williams Classification,

how does 1C work?

Answer 18

Slow Strong Na blockage

Question 19

In the Vaughan Williams Classification,

how does 2 work?

Answer 19

B Adrenergic receptor antagonism

Question 20

In the Vaughan Williams Classification,

how does 3 work?

Answer 20

K channel blockage

Question 21

In the Vaughan Williams Classification,

how does 4 work?

Answer 21

Ca channel blocker

Question 22

In the Vaughan Williams Classification,

Name a 1A drug

Answer 22

Disopyramide

Question 23

In the Vaughan Williams Classification,

Name a 1B drug

Answer 23

Phenytoin, Lidocaine

Question 24

In the Vaughan Williams Classification,

Name a 1C drug

Answer 24

Flecainide

Question 25

In the Vaughan Williams Classification,

Name a 2 drug

Answer 25

Bisoprolol, atenolol

Question 26

In the Vaughan Williams Classification,

Name a 3 drug

Answer 26

Amiodarone

Question 27

In the Vaughan Williams Classification,

Name a 4 drug

Answer 27

Verapamil, diltiazem

Question 28

In the Vaughan Williams Classification,

What type of problem is 1A drug used for?

Answer 28

¥	atrial fibrillation, 
¥	premature atrial contractions, 
¥	premature ventricular contractions, 
¥	ventricular tachycardia, 
¥	Wolff-Parkinson-White syndrome

Question 29

In the Vaughan Williams Classification,

What type of problem is 1B drug used for?

Answer 29

Ventricular tachyarrhythmias

Question 30

In the Vaughan Williams Classification,

What type of problem is 1C drug used for?

Answer 30

For serious problems
¥ Severe ventricular dysrhythmias
¥ May be used in atrial fibrillation/flutter

Question 31

In the Vaughan Williams Classification,

What type of problem is 2 drug used for?

Answer 31

¥ General myocardial depressants for both supraventricular and ventricular dysrhythmias

Question 32

In the Vaughan Williams Classification,

What type of problem is 3 drug used for?

Answer 32

¥ dysrhythmias that are difficult to treat
¥ Life-threatening ventricular tachycardia or fibrillation, atrial fibrillation or flutter—resistant to other drugs
¥ Sustained ventricular tachycardia

Question 33

In the Vaughan Williams Classification,

What type of problem is 4 drug used for?

Answer 33

¥ paroxysmal supraventricular tachycardia

¥ rate control for atrial fibrillation and flutter

Question 34

In the Vaughan Williams Classification,

Name two drugs in the other classification

Answer 34

digoxin

adenosine

Question 35

What is the pathophysiology of digoxin?

Answer 35

• Inhibits the sodium-potassium ATPase pump so there is less ATP to maintain the resting membrane potential
• increases the conc of Na in the cell as it cannot be pumped out of the cell
• increases the time of depolarisation
• phase 4 and 0 is increased
• this leads to a decrease in heart rate

Question 36

What conditions is digoxin used for?

Answer 36

¥ CHF

¥ Atrial dysrhythmias (AF)

Question 37

What are the toxicity signs of digoxin ?

Answer 37

¥	Nausea and vomiting
¥	Xanthopsia
¥	Bradycardia - low HR
¥	Tachycardia - high HR 
¥	Arrhythmias: VT and VF (tachycardia and fibrillation)

Question 38

What increases the risk of toxicity from digoxin?

Answer 38

low potassium levels in the blood

Question 39

How would you treat toxicity from digoxin?

Answer 39

1. stop medication
if severe:
2. give digibind 
- digoxin immune antibody 
- binds to digoxin and is exerted in urine

Question 40

What does adenosine do pathophysiologily?

Answer 40

¥ Slows conduction through the AV node to decrease the HR

Question 41

What is adenosine used to treat?

Answer 41

¥ Used to convert paroxysmal supraventricular tachycardia to sinus rhythm

Question 42

how does Amiodarone (class three) work pathophysiology?

Answer 42

¥ Delayed repolarization of the heart by potassium channel blockage

Question 43

What is amiodarone used to treat?

Answer 43

¥ VT

¥ occasionally in supraventricular tachycardia (SVT)

Question 44

What are the side effects of amiodarone?

Answer 44

¥	Thyroid (hypo or hyperthyroidism)
¥	Pulmonary fibrosis
¥	Slate – grey pigmentation
¥	Corneal deposits
¥	LFT abnormalities

Question 45

Does adenosine have a long or short half life?

Answer 45

very short

Question 46

What is the purpose of treating a patient who has AF with an anticoagulant?

Answer 46

Patient with AF has atria that cannot pump blood effectively around the body so thrombosis formation risk is high
Therefore they are at a greater risk of embolism. (Stroke, ischaemic limb disease, PE)
Giving them an anticoagulant will decrease this risk

Question 47

What two types of thrombosis can a patient get?

Answer 47

arterial

venous

Question 48

What are the characteristics of an arterial thrombosis ?

Answer 48

Adherence of platelets to arterial walls
White in colour
Often associated with MI, stroke and ischaemia

Question 49

What are the characteristics of a venous thrombosis?

Answer 49

Develops in areas of stagnated blood flow - where blood flow is slower (e.g. deep vein thrombosis- damaged valves in the venous circulation, left atrium - blood is not being pumped out of the atrium effectively)
Red in colour
Associated with Congestive Heart Failure, Cancer, Surgery.
Made up of fibrin

Question 50

Generally, what is warfarin used for?

Answer 50

to thin the blood

Question 51

What structure does warfarin look similar to ?

Answer 51

Vitamin K

Question 52

What is the clearance time for warfarin?

Answer 52

36 hours

Question 53

How long does it take for warfarin to begin having an effect?

Answer 53

8-12 hours

Question 54

How does warfarin work pathophysiology ?

Answer 54

it is a vitamin K antagonist

Question 55

Can warfarin cross the placenta?

Answer 55

yes

Question 56

How is a warfarin overdose treated?

Answer 56

Vitamin K infusion

Question 57

What are three side effects of warfarin?

Answer 57

intraocular haemorrhage - bleeding in the eye
bleeding
chondrodysplasia - cartilage not forming properly

Question 58

What is the scoring system used to determine the risk of bleeding with a patient on warfarin?

Answer 58

CHADS

Question 59

What does CHADS stand for?

Answer 59

congestive heart failure 
hypertension 
age >75 
diabetes 
stroke (or TIA - transient ischaemic attack)

Question 60

Name 5 drugs that increase the activity of warfarin and describe briefly how they work

Answer 60

Aspirin, Sulphonamides - decrease binding to albumin
Cimetidine, Disulfiram - inhibit degradation
Oral antibiotics - decrease synthesis of clotting factor

Question 61

Name 5 drugs that decrease the activity of warfarin and describe briefly how they work

Answer 61

• Induce metabolising enzymes
  Barbiturates, phenytoin
• Promote clotting factor synthesis
  Vitamin k
• Reduce absorption
  Cholestyramine, colestipol

Question 62

What should patients be educated on when taking warfarin?

Answer 62

alcohol intake
diet - certain foods they shouldn’t eat (broccoli)
avoid injuring them selfs

Question 63

What does INR stand for?

Answer 63

international normalised ratio

Question 64

What is the normal INR and what is the normal therapeutic INR?

Answer 64

normal = 1 
therapeutic = 2.5-4

Question 65

Name three new drugs they act in a similar to warfarin

Answer 65

• Dabigatran
• Apixaban
• Rivaroxaban

Question 66

Do these new drugs reduce the risk of stroke and non CVS embolism more than warfarin?

Answer 66

yes