Identifying some basic disturbances of rhythm Flashcards

1
Q

What heart rate is considered bradycardia and tachycardia?

A
Bradycardia = < 60 bpm
Tachycardia = > 100 bpm
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2
Q

What is the difference between segments and intervals?

A

Segments are isoelectric regions between two waveforms.

Interval is the time between the start of one wave and the start of the next.

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3
Q

What is the sweep speed of ECG?

A

25 mm/s

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4
Q

How wide is a small square and a large square and what time interval does that represent?

A

Small Square = 0.04 s (1 mm)

Large Square = 0.2 s (5 mm)

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5
Q

What’s the duration and amplitude of a normal P wave?

A
Duration = 0.1s (Heart rate = 60)
Amplitude = < 2.5 mm
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6
Q

What is the duration of a normal PR interval?

A

0.2s (Heart rate = 60)

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7
Q

What is the duration and amplitude of a normal QRS complex?

A
Duration = 0.08s (Heart rate = 60)
Amplitude = < 25 mm
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8
Q

What is the normal range for the cardiac axis?

A

-30 to + 90

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9
Q

What is the duration and amplitude of a normal Q wave?

A
Duration = <0.04s 
Amplitude = < 25% of the total QRS complex
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10
Q

What is the duration of a normal QT interval and a T wave?

A

QT = 0.4s

T wave = 0.16s

(Heart rate = 60)

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11
Q

What does a QRS complex with a large amplitude indicate?

A

Ventricular Hypertrophy

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12
Q

What are the ECG features of sinus tachycardia?

A

Normal waveforms
Abnormally fast resting heart rate
Atrial and Ventricular Rate = 200 bpm

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13
Q

What are the ECG features of atrial fibrillation? Include atrial rate and ventricular rate in your answer.

A

ABSENT P WAVES (may get an oscillating baseline)
Irregular ventricular rhythm (duration between QRS varies)
Could be high or normal ventricular rate
QRS complexes are normal
Atrial Rate = 350-600 bpm
Ventricular rate = 100-180 bpm

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14
Q

What are the ECG features of atrial flutter?

A

SAW-TOOTHED BASE LINE
No isoelectric line - shows constant atrial activity
Regular ventricular rhythm - one in every few atrial depolarisations will get conducted down to the ventricles
QRS normal + regular ventricular rhythm
Atrial Rate = 250-350 bpm
Ventricular Rate = 150 bpm (with 2:1)
4:1 is also common

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15
Q

How is atrial fibrillation different to atrial flutter?

A

Atrial flutter has a regular ventricular rhythm

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16
Q

What is atrioventricular nodal reentrant tachycardia?

A

When a local circuit is created within the AV node

17
Q

What is atrioventricular reentrant tachycardia?

A

Local circuit is within the atria and the ventricles

18
Q

What are the ECG features of AVNRT and AVRT?

A

Lots of QRS complexes
No clear P wave
QRS complexes are RAPID and IRREGULAR
You get simultaneous depolarisation of the atria and ventricles so you get instantaneous P wave and QRS complexes

19
Q

What happens in AVNRT?

A

Depolarisation is rotating within the AV node

Then it re-enters and causes simultaneous atrial and ventricular contraction

20
Q

What is preexcitation syndrome and what is a defining feature of the ECG?

A

Defining Feature = DELTA WAVES
Some people are born with a congenital connection between the atria and the ventricles called an ACCESSORY PATHWAY
This allows early depolarisation of the ventricles leading to slurring of the QRS complexes
This gives an abnormally short PR interval

21
Q

What syndrome causes preexcitation syndrome?

A

Wolff-Parkinson-White Syndrome

22
Q

What is the treatment to remove the accessory pathway?

A

Radio frequency ablation

23
Q

What are the three types of atrioventricular nodal block and how do they vary?

Broad QRS complexes that are VOID OF ANY PATTERN

A
1st degree = prolonged PR interval 
2nd degree (Mobitz type 1 and type 2) = some conduction gets there but it's slow 
3rd degree = complete heart block
24
Q

What is an ECG feature of grade 1 AVN block?

A

Prolonged PR interval

25
Q

What is the difference between Mobitz type 1 and Mobitz type 2 atrioventricular nodal block?

A

2nd degree block = some of the beats from the atria do NOT reach the ventricles
Mobitz type I = gradual prolongation of the PR interval culminating in a dropped beat
Mobitz type II = fixed PR interval and then a dropped beat (you do NOT see gradually prolonging of the PR interval)

26
Q

What is the ECG feature of 3rd degree atrioventricular nodal block?

A

There is NO conduction from atria to ventricles
ECG shows COMPLETE DISSOCIATION between QRS complexes and P waves
Ventricles fire on their own as a protective mechanism

27
Q

What is the main ECG feature of bundle branch blocks?

A

QRS complex WIDENS

It takes longer to depolarise the ventricles

28
Q

How do you distinguish between RBBB and LBBB?

A

WilliaM MarroW
RBBB = V1 + V2 = rabbit ears
LBBB = V1 + V2 = deep S waves

29
Q

What are the ECG features of ventricular tachyarrhythmia?

A

Rapid, regular, broad QRS complex pattern

30
Q

What are the ECG features of ventricular fibrillation?

A

Broad QRS complexes that are VOID OF ANY PATTERN

31
Q

How to calculate cardiac axis?

A

Work out net QRS deflection for leads 1 and AVF by adding Q, R and S deflections together
Mark the deflections onto the respective leads on the hexaxial representation
Draw perpendicular lines and draw a vector from the origin to the intersection of the perpendicular lines -> shows the direction of the cardiac axis

32
Q

How to eyeball cardiac axis?

A

Lead I + and Lead AVF + = Normal
Lead I + and Lead AVF - = Left axis deviation
Lead I - and Lead AVF + = Right axis deviation
Lead I - and Lead AVF - = Indeterminable

33
Q

Chest lead placement?

A
V1 = Right 4th intercostal space, parasternal
V2 = Left 4th intercostal space, parasternal
V4 = Left 5th intercostal space, mid-clavicular line
V3 = Midway between V2 and V4
V5 = Anterior axillary line, horizontal level of V4
V6 = Mid-axillary line, horizontal level of V4