The electrocardiogram (ECG) is a diagnostic tool that measures and records the electrical activity of the heart in detail. Being able to interpret these details allows diagnosis of a wide range of heart problems.

ECG Electrodes

Skin Preparation:

Clean with an alcohol wipe if necessary. If the patients are very hairy – shave the electrode areas.

ECG standard leads

There are three of these leads, I, II and III. 
 
Lead I: is between the right arm and left arm electrodes, the left arm being positive. 
Lead II: is between the right arm and left leg electrodes, the left leg being positive. 
Lead III: is between the left arm and left leg electrodes, the left leg again being positive.

Chest Electrode Placement

V1: Fourth intercostal space to the right of the sternum.
V2: Fourth intercostal space to the Left of the sternum.
V3: Directly between leads V2 and V4.
V4: Fifth intercostal space at midclavicular line.
V5: Level with V4 at left anterior axillary line.
V6: Level with V5 at left midaxillary line. (Directly under the midpoint of the armpit)

Click on Picture to view large image

 

 

 

 

 

 

 

ECG Leads - Views of the Heart

Chest Leads	View
V1 & V2	Right Ventricle
V3 & V4	Septum/Lateral Left Ventricle
V5 & V6	Anterior/Lateral Left Ventricle

 

 

The ECG records the electrical activity that results when the heart muscle cells in the atria and ventricles contract.

• Atrial contractions show up as the P wave.

• Ventricular contractions show as a series known as the QRS complex.

• The third and last common wave in an ECG is the T wave. This is the electrical activity produced when the ventricles are recharging for the next contraction (repolarizing).

• Interestingly, the letters P, Q, R, S, and T are not abbreviations for any actual words but were chosen many years ago for their position in the middle of the alphabet.

• The electrical activity results in P, QRS, and T waves that are of different sizes and shapes. When viewed from different leads, these waves can show a wide range of abnormalities of both the electrical conduction system and the muscle tissue of the hearts 4 pumping chambers.

ECG Interpretation

The graph paper that the ECG records on is standardized to run at 25mm/second, and is marked at 1 second intervals on the top and bottom. The horizontal axis correlates the length of each electrical event with its duration in time. Each small block (defined by lighter lines) on the horizontal axis represents 0.04 seconds. Five small blocks (shown by heavy lines) is a large block, and represents 0.20 seconds. 

Duration of a waveform, segment, or interval is determined by counting the blocks from the beginning to the end of the wave, segment, or interval.

P-Wave: represents atrial depolarization - the time necessary for an electrical impulse from the sinoatrial (SA) node to spread throughout the atrial musculature. 

• Location: Precedes QRS complex
  Amplitude: Should not exceed 2 to 2.5 mm in height Duration: 0.06 to 0.11 seconds
   

 

P-R Interval: represents the time it takes an impulse to travel from the atria through the AV node, bundle of His, and bundle branches to the Purkinje fibers.

• Location: Extends from the beginning of the P wave to the beginning of the QRS complex
  Duration: 0.12 to 0.20 seconds.
   

QRS Complex: represents ventricular depolarisation. The QRS complex consists of 3 waves: the Q wave, the R wave, and the S wave.

• The Q wave is always located at the beginning of the QRS complex.
  It may or may not always be present.
  
  The R wave is always the first positive deflection.
  
  The S wave, the negative deflection, follows the R wave
   

• Location: Follows the P-R interval
  Amplitude: Normal values vary with age and sex
  
  Duration: No longer than 0.10 seconds
   

Q-T Interval: represents the time necessary for ventricular depolarization and repolarization.

• Location: Extends from the beginning of the QRS complex to the end of the T wave
  (includes the QRS complex, S-T segment, and the T wave)
  
  Duration: Varies according to age, sex, and heart rate
   

T Wave: represents the repolarization of the ventricles. On rare occasions, a U wave can be seen following the T wave. The U wave reflects the repolarization of the His-Purkinje fibers.

• Location: Follows the S wave and the S-T segment
  Amplitude: 5mm or less in standard leads I, II, and III; 10mm or less in precordial leads V1-V6.
  
  Duration: Not usually measured
   

S-T Segment: represents the end of the ventricular depolarization and the beginning of ventricular repolarization.

• Location: Extends from the end of the S wave to the beginning of the T wave
  Duration: Not usually measured
   

The ECG and Myocardial Infarction

During an MI, the ECG goes through a series of abnormalities. The initial abnormality is called a hyperacute T wave. This is a T wave that is taller and more pointed than the normal T wave. 

Hyperacute T Wave

The abnormality lasts for a very short time, and then elevation of the ST segment occurs. This is the hallmark abnormality of an acute MI. It occurs when the heart muscle is being injured by a lack of blood flow and oxygen and is also called a current of injury.

ST Elevation

An ECG can not only tell you if an MI is present but can also show the approximate location of the heart attack, and often which artery is involved. When the ECG abnormalities mentioned above occur, then the MI can be localized to a certain region of the heart. For example, see the table below:

ECG leads	Location of MI	Coronary Artery
II, III, aVF	Inferior MI	Right Coronary Artery
V1-V4	Anterior or Anteroseptal MI	Left Anterior Descending Artery
V5-V6, I,aVL	Lateral MI	Left Circumflex Artery
ST depression in V1, V2	Posterior MI	Left Circumflex Artery or Right Coronary Artery