How to read an ECG

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Assistant Editor(s)-in-Chief: Rim Halaby

Overview

The interpretation of an ECG should be done in a consistent step-by-step way. Each ECG should be evaluated for the following: 1- Rhythm 2- Rate 3- Conduction

• PR interval
• QRS duration
• QT duration

4- Heart axis 5- P wave morphology 6- QRS morphology 7- ST morphology 8- Compare the current ECG to previous ECG

Rhythm

The sinus node (SA), located in the roof of the right atrium, is the fastest physiological pacemaker. When the sinus node generates an electrical impulse, the surrounding cells of the right atrium depolarize. Then the depolarization wave spreads to the cells of the left atrium, the AV (atrioventricular) node, the bundle oh His and then to the ventricles through the purkinje fibers.

In order to evaluate the rhythm, several parameters must be checked:

• The presence of a P wave
  • A rhythm is sinus when every P wave is always followed by a QRS wave
  • P wave is absent in atrial fibrillation, junctional or ventricular rhythm
• The P wave morphology
  • The P wave corresponds to atrial contraction
  • Normal P waves are similar in shapes in the same lead
  • Variable morphologies of P waves in a single ECG lead is suggestive of an ectopic pacemaker rhythm such as wandering pacemaker or multifocal atrial tachycardia
  • The maximum height of the P wave is 2.5 mm in II and/or III
• The regularity of the waves
  • The distance between two R waves, called RR interval, is constant in a regular rhythm
  • When the RR interval is not constant, the rhythm is said irregular. When the rhythm is irregularly irregular it is a sign of the presence of atrial fibrillation.

Rate

• The normal heart rate is between 60 and 100 beats per minutes
• A heart rate less than 60 or larger than 100 is called bradycardia and tachycardia respectively
• It is important to remember the temporal significance of the small and large squares on an ECG strip. See the picture below for a detailed explanation:
• Determining the heart rate can be done using one of these three methods:
  • First method: Counting the squares
    • Use the sequence 300-150-100-75-60-50-43-37. Count from the first QRS complex, the first thick line is 300, the next thick line 150 etc. Stop the sequence at the next QRS complex. When the second QRS complex is between two lines, take the mean of the two numbers from the sequence
  • Second method:
    • The ECG paper runs at 25 mm/sec through the ECG printer; therefore:
  • Third method:
    • Count the number of QRS complexes that fit into 3 seconds (some ECG writers print this period on the ECG paper). Multiply this number by 20 to find the number of beats/minute.

Evaluation of the Conduction

The evaluation of the conduction requires the evaluation of the PR interval, QRS duration and QT interval.

PR interval

• The PR interval is measured from the beginning of the P wave to the beginning of the QRS complex.

• The PR interval reflects the time the electrical impulse takes to travel from the sinus node through the AV node where it enters the ventricles. The PR interval is therefore a good estimate of AV node function.

• The PR interval is normally between 120 to 200 ms long (3 to 5 small boxes).

• A long PR interval (of over 200 ms) may indicate a first-degree heart block or electrolyte disturbances (for example hypokalemia)

• A variable PR interval may indicate other types of heart block.

• • Mobitz 1

• • Mobitz 2

• • Third degree heart block

• A short PR interval may indicate a pre-excitation syndrome via an accessory pathway that leads to early activation of the ventricles, such as seen in Wolf Parkinson White syndrome

The Duration of QRS

• The QRS duration indicates how fast the ventricles depolarize.

• The normal QRS is normally < 0.10 seconds

• When the QRS duration is longer than 110 miliseconds, a conduction delay is present.

• • Possible causes of a QRS duration > 110 miliseconds include:

• • • Left bundle branch block

• • • Right bundle branch block

• • • Electrolyte disorders

• • • Idioventricular rhythm and paced ryhtm

• For the diagnosis of LBBB or RBBB QRS duration must be >120 ms.

The QT interval

• The QT interval indicates how fast the ventricles are repolarized, becoming ready for a new cycle.

• The QT interval comprises the QRS-complex, the ST-segment, and the T-wave. One difficultly of QT interpretation is that the QT interval gets shorter as the heart rate increases. This problem can be solved by correcting the QT time for heart rate .

• • Calculation of QTc using the tangent method:

Use lead II. Use lead V5 alternatively if lead II cannot be read.

Draw a line through the baseline (preferably the PR segment)

Draw a tangent against the steepest part of the end of the T wave. If the T wave has two positive deflections, the taller deflection should be chosen. If the T wave is biphasic, the end of the taller deflection should be chosen.

The QT interval starts at the beginning of the QRS interval and ends where the tangent and baseline cross.

**Calculation of QTc using Bazett’s equation:

• The normal value for QTc (corrected QT interval) is: below 450ms for men and below 460ms for women.

• If QTc is < 340ms short QT syndrome can be considered.

• The QT interval is prolonged in congenital long QT syndrome, but QT prolongation can also occur be acquire as a results of:

• • Medication (anti-arrhythmics, tricyclic antidepressants, phenothiazedes, …)

• • Electrolyte imbalances

• • Ischemia