ECG interpretation

Question 1

How does the ECG work?

Answer 1

Voltmeter recoding electrical voltages at the skin surface, generated by the electrical activity of cardiac cells and caused by extracellular currents.

Question 2

How many electrodes are placed on the body?

Answer 2

10

6 on the chest
4 on the limbs

Question 3

How many leads does an ECG have?

Answer 3

12 leads.

6 chest/precordial leads: transverse plane.
6 limb leads: frontal plane.

Question 4

What is lead I (electrodes)?

Answer 4

Lead between electrode at right arm (-) and electrode at left arm (+)

Question 5

What is the lead that goes from top to bottom?

Answer 5

aVF (unipolar lead), +90 degrees
CT (-) towards left leg (+)

Question 6

How many unipolar vs bipolar leads are there?

Answer 6

9 unipolar (CT is -)
3 bipolar

Question 7

Does the voltmeter record electrical impulses outside or inside of the cell?

Answer 7

OUTSIDE.

Question 8

When do we see a positive deflection on the ECG?

Answer 8

When the current outside (which goes from - to + by convention), travels towards the positive electrode.

When a depolarization current is directed towards the + electrode, an upward deflection is recorded!!

Vice versa

Question 9

What is an equiphasic deflection?

Answer 9

An equiphasic deflection occurs when the current travels perpendicularly to the lead. If it is perfectly perpendicular, no deflection is seen. Otherwise, there is an equiphasic deflection, which is equally positive and negative.

Question 10

Why is the T-wave upright despite being a repolarization?

Answer 10

Because the last cell to have been depolarized is the first cell to be repolarized. Therefore, the repolarization current still moves towards the + electrode.

Question 11

What is the nomenclature of the QRS complex?

Answer 11

Q wave: when the first deflection of the QRS complex is downward

R wave: the first upward deflection (whether or not a Q wave is present)

S wave: any downward deflection following the R wave.

Additional deflections might be described (ie. R and R’).

We can use capital letters to indicate the dominant waves and lower cases to name the smaller waves.

Question 12

What is the ST segment?

Answer 12

Line between QRS complex and T wave.
Normally isoelectric (same level as baseline).

Question 13

What is the PR interval?

Answer 13

Time from start of P wave to start of QRS complex.

Question 14

What is the QT interval?

Answer 14

Time from the start of the QRS to the end of the t-wave.

Question 15

Time equivalent to 1 small box and 1 large box on an ECG, and paper speed?

Answer 15

1 small box (1 mm) = 40 ms
1 large box (5 mm) = 0.2s

Paper speed = 25 mm /s

Question 16

Axes of ECG

Answer 16

Vertical: voltage (mV). 1mm = 0.1 mV
Horizontal: time.

Question 17

Sequence of analysis of an ECG

Answer 17

1) Sinus rhythm or not?
2) Heart rate
3) Intervals (PR and QT)
4) Mean QRS axis
5) P-wave abnormalities
6) QRS abnormalities
7) ST and T wave abnormalities

Question 18

How to assess sinus rhythm?

Answer 18

Upright P waves in leads I and II.

Question 19

Normal PR interval

Answer 19

3-5 small boxes (0.12s-0.20s).

Question 20

How to measure QT interval? (2 ways)

Answer 20

1. Bazett’s formula (tachy or brady use):
   Qtc = (QT interval in ms /sqr(RR interval in s))
   Normal Qtc for women <0.46
   Normal Qtc for men < 0.44
2. Normal if QT is <1/2 of RR.

Question 21

Mean QRS axis: negative lead 1 and negative lead 2

Answer 21

Can’t know, need to look at aVF.

Question 22

Mean QRS axis: positive lead 1 and negative lead 2

Answer 22

left axis deviation

Question 23

Mean QRS axis: positive lead 1 and positive lead 2 and negative aVF

Answer 23

normal

Question 24

Mean QRS axis: negative lead 1 and negative aVF

Answer 24

extreme axis deviation

Question 25

Mean QRS axis: negative lead 1 and positive lead aVF

Answer 25

right axis deviation

Question 26

Which leads to look at for P-wave atrial enlargement?

Answer 26

leads II and V1

Question 27

Right atrial enlargement characteristics.

Answer 27

Tall P-Wave in lead II (>2.5 mm)
Taller upwards than downwards deflection in lead V1.

Question 28

Left atrial enlargement characteristics.

Answer 28

Large and deep negative P wave in V1 (>1 mm wide and > 1 mm deep).

Question 29

How to assess right ventricular hypertrophy

Answer 29

Look at V1 and V2
Right axis deviation
R >S in lead V1

Question 30

How to assess left ventricular hypertrophy

Answer 30

Look at V5 and V6 and aVL and 1
Left axis deviation suggestive.

• Big S wave in V1 and R wave in V5 or V6 >35 mm
  OR
• R in aVL >11 mm
  OR
• R in lead I >15 mm

Question 31

How to assess right bundle branch block

Answer 31

V1 and V6
Wide QRS

MarRooN or MaRroW
M in V1
N or W in V6

Question 32

How to assess left bundle branch block

Answer 32

V1 and V6
Wide QRS

WilLiam or VilLheiM
W or V in V1
M in V6

Question 33

How to assess pathologic Q waves

Answer 33

wide (>1mm) and deep (>25% of QRS)

Question 34

Anteroseptal leads

Answer 34

V1 and V2

Question 35

Anterior leads

Answer 35

V3 and V4

Question 36

Lateral leads

Answer 36

1, aVL, V5 and V6

Question 37

inferior leads

Answer 37

2, 3, and aVF

Question 38

Transient MI characteristics

Answer 38

ST depression
T wave inversion

Reversible once ischemia is gone.

Question 39

STEMI characteristics

Answer 39

Complete obstruction of the coronary artery
Elevation of ST

Question 40

NSTEMI characteristics

Answer 40

Partial obstruction of coronary artery

No Q wave
T wave inversion
ST depression