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Transcript 
ECG Analysis Part 2
A/Prof Andrew Dean
February 2014
Ballarat RCS
Practice presenting ECGs often
To train your systematic analysis
approach
To develop fluency with your
presentation skills
Quick Review: Cardiac Conduction
Pathway
Quick Review: Lead Placement
aVF
Quick Review: Limb Leads and
Axis (Coronal plane)
Quick Review: Axis
Use Lead I, and Lead AVF
Net amplitude: add + (upward) deflection to –
(downward) deflection
Plot these on a vector drawing
Draw perpendicular lines to those net amplitude
measurements
Draw “axis arrow” from (O,O) to where these lines
cross; the normal axis is -30deg to +90deg.
Review: Vectors and
Axis
 Represents the overall direction of the heart’s activity
 Axis of –30 to +90 degrees is normal
The Quadrant Approach
QRS up in I and up in aVF = Normal
What is the axis?
Normal- QRS up in I and aVF
Praecordial Axis Vectors (Axial
plane)
Quick Review: Localising AMIs
Anteroseptal: V1, V2, V3, V4
Anterior: V1–V4
Anterolateral: V4–V6, I, aVL
Lateral: I and aVL
Inferior: II, III, and aVF
Inferolateral: II, III, aVF, and V5 and
V6
Posterior: Deep ST DEPRESSION in
V1 V2
Quick Review: Rate definitions
HR of 60-100 per minute = normal
HR > 100 = tachycardia
Emotional stress, exercise, sepsis, fever, shock, drugs
HR < 60 = bradycardia
Hypothyroid, relaxation, inferior ischaemia, AV block
hypothermia, drugs
Quick Review: Calculating Rate
Rule of 300: Divide 300 by the number of large 5mm
squares between successive QRS complexes => rate
per minute
Number of
large 5mm
squares
Rate/min.
1
300
2
150
3
100
4
75
5
60
6
50
What is the heart rate?
www.uptodate.com
(300 / 6) = 50 bpm
Reviewing our algorithm:
Tachycardia
Tachycardia Narrow Complex
ST
Regular
Irregular
SVT
Atrial flutter
A-fib
A-flutter w/
variable conduction
MAT
Wide Complex
ST w/ aberrancy
SVT w/ aberrancy
VT
A-fib w/ aberrancy
A-fib w/ WPW
VT
Quick Review: Normal QRST
Time Intervals
PR
0.12 - 0.20 sec (3 – 5 small
squares)
QRS
0.08 – 0.12 sec (2 - 3 small
squares)
QT
~450 ms in men (~11 small
squares), ~460 ms in
women
Varies with heart rate
~Half the R-R interval with
normal HR
Prolonged QT
Normal
Men 450ms
Women 460ms
Corrected QT (QTc): QT usually shortens with increasing HR
QTm/√(R-R) ( in seconds, therefore at HR 60/min, QTc = QTm )
Causes
Drugs (Na channel blockers)
Hypocalcemia, hypomagnesemia, hypokalemia
Hypothermia
AMI
Congenital
Increased ICP
Review: AV Conduction Blocks
AV blocks
First degree block
PR interval fixed and > 0.2 sec
Second degree block, Mobitz type 1, Wenckebach
PR progressively lengthens, until a P wave fails to conduct,
resulting in ‘dropped’ QRS, and the cycle repeats
Second degree block, Mobitz type 2
PR interval fixed, but regular P waves fail to conduct
through AV node eg 2:1, 3:1, 4:1
Third degree block, Complete Heart Block, AV dissociation
PR and QRS are dissociated, or electrically independent
What is this rhythm?
First degree AV block : PR > 0.2 sec, and is constant
First Degree Heart
Block
PR interval > 0.2 sec ( > 5 small squares )
What is this rhythm?
Type 1 second degree block (Wenckebach)
Second Degree Heart Block, Mobitz Type II
PR interval fixed, QRS dropped intermittently
What is this rhythm?
Type 2 second degree AV block: ‘2:1 AV Block’
What are the atrial and ventricular rates?
What is this rhythm?
3rd degree heart block (complete)
Accelerated
Idioventricular
Ventricular escape rhythm, 40-110 bpm
Seen in AMI
Junctional Rhythm
Rate 40-60, no p waves, narrow complex QRS
Wellen’s Sign
ST elevation and biphasic T wave in V2 and V3
Sign of large proximal LAD lesion
Brugada Syndrome 1
RBBB or incomplete RBBB in V1-V3 with convex ST elevation and
‘terminal S waves’.
Brugada Syndrome 2
Autosomal dominant genetic mutation of sodium
channels
Causes syncope, due to self terminating VT, and sudden
cardiac death, from VF
Can be intermittent on ECG
Most common in middle-aged males
Can be induced in EP lab using Amiodarone or Ajmaline
Need ICD
Premature Atrial
Contractions
Trigeminy pattern
Atrial Flutter with Variable Block
Sawtooth waves
Typically at HR of 150
Torsades de Pointes
Notice twisting pattern: rotating
electrical axis
Treatment: Magnesium 2 grams IV
NSTEMI/ diffuse ischaemic
ST depression
ST depression II, III, aVF, V3-V6 = ischaemia
Another cause of ST depression:
Digoxin: causes a ‘reversed tick’ ST depression
Dubin, 4th ed. 1989
Lateral MI
What is the diagnosis?
Acute inferior STEMI with ST elevation in leads II, III,
aVF
Inferolateral MI
ST elevation II, III, aVF
Note reciprocal changes in aVL, V1-V3; consider
posterior involvement
Anterolateral / Inferior Ischaemia
LVH, AV junctional rhythm, bradycardia
Left Bundle Branch
Block
Monophasic R wave in I and V6, QRS > 0.12 sec
Loss of R wave in precordial leads
QRS T wave discordance I, V1, V6
Consider cardiac ischemia if a new finding
Right Bundle Branch
Block
V1: RSR prime pattern with inverted T wave
V6: Wide deep slurred S wave
First Degree Heart Block, Mobitz Type I
(Wenckebach)
PR progressively lengthens until QRS drops
Supraventricular
Tachycardia
Retrograde P waves
Narrow complex, regular; retrograde P waves, rate <220
Inferior STEMI with Posterior and Right
Ventricular involvement using Right-sided
V leads
Found in 1/3 of patients with inferior MI
Increased morbidity and mortality: if hypotensive, give IV fluid
bolus to volume load the RV
ST elevation in V4-V6 of Right-sided EKG, also ST depression V1
V2
Ventricular Tachycardia
Prolonged QT
QT > 450 ms
Inferior and anterolateral ischemia
Acute Pulmonary
Embolism
SIQIIITIII in 10-15%; Sinus Tachycardia is the MOST common finding;
RV strain pattern with RAD and RBBB are the next most common
findings.
Also look for inverted T-waves, occurring in
inferior and anteroseptal simultaneously
Wolff-Parkinson-White Syndrome
Short PR interval <0.12 sec
Prolonged QRS >0.10 sec
Delta wave
Can simulate ventricular hypertrophy, BBB and previous MI
LV Hypertrophy

Add the larger S wave of V1 or V2 in mm, to the larger R wave of V5
or V6.

Sum > 35mm = LVH
Hyperkalaemia
Flattened P waves, with tall, narrow T
waves
Hypokalaemia
U waves
Can also see PVCs, ST depression, small T waves
Thankyou
* [This presentation comprises original material, and also some
slides modified from a public domain ‘Medical Student ECG
Lecture’ Powerpoint, University of Northern California]
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