Interpreting ECG – Echocardiography Principles

interpreting ECG
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An ECG is a ‘snapshot’ of the electrical activity of the heart presented on a graph. When interpreting ECG one can note the heart rate and rhythm, normal/abnormal conduction of both the atria or ventricles, structural changes within the heart such as atrial or ventricular enlargement, as well as an indication of a past Myocardial Infarction.

ECG Principles

The ECG’s value is magnified when recorded during a stress test eg. when the patient is running on a treadmill, or when recorded for a long period of time as in with a Holter.

The pumping action of the heart:

  1. DEPOLARISATION – is initiated by an electrical activation of the myocardium
  2. AUTOMATICITY – causes heart action
  3. EXCITABILITY – responds to the electrical impulse
  4. CONDUCTIVITY – conducts an electrical impulse
  5. CONTRACTILITY – initiates contraction

Repolarisation in an ECG acts as an indication for diagnosis of ischaemia, myocardial stretch, pharmacological effects, electrolyte imbalance, and congenital ionic diseases able to cause a sudden cardiac arrest and imminent death.

interpreting ECG
Motor Unit Action Potential showing Depolarization, Repolarization and Resting Potential – Retrieved from https://www.researchgate.net/figure/Motor-Unit-Action-Potential-showing-Depolarization-Repolarization-and-Resting-Potential_fig2_340126449 on 8th January 2023

In both depolarisation and repolarisation, cardiac myocytes act like electric generators that cause electric currents to flow out into the body and back again into the heart. This produces various electrical potentials on the body’s surface, which are then recorded and represented on an ECG.

The ECG graph is usually set up at a speed of 25mm/s:

  • 1 small square = 0.04 sec
  • 1 large square = 0.2 sec
  • 5 large squares = 1 sec
  • 15 large squares = 3 sec
interpreting ECG
Retrieved from https://www.practicalclinicalskills.com/ekg-course-contents?courseid=301 on 8th January 2023

Each ECG lead used represents the heart from a different point of view on an ECG strip. The horizontal base line recorded is referred to as the iso-electric line, and a deflection from it signals electrical activity of the heart.

A normal ECG strip features the following:

  • P Wave = electrical activity within the atrial chamber
  • QRS Complex = ventricular depolarisation
  • T Wave = ventricular repolarisation

The heart’s conductive system functions through the:

  • SA Node (Sinus Node a.k.a. sino-atrial node) – The pacemaker of the heart, firing about 60-100 times per minute;
  • AV Node (Atrio-Ventricular Junction) – Fires at a rate of 40-60 times per minute. The AV node takes charge whenever the SA node experiences impulse issues;
  • AV Bundle (Bundle of His), Left Bundle and Right Bundle Branches, and the Purkinje Fibres – Fire at 20-40 times per minute if both the AV and the SA node experience impulse issues.

Interpreting ECG

Heart Rate

  • The Rule of 300: when the rhythm is regular = 300 / (number of boxes between R to R wave)
  • Six Second Method: when the rhythm is irregular = number of R waves per 6 seconds X 10

ECG Recording

Limb Connection Points – Retrieved from https://www.pngegg.com/en/search?q=ecg+Monitor on 8th January 2023
Accessed from https://slideplayer.com/slide/10943937/ on 24th January 2021

Deflections

The direction of the electrical current determines the upward or downward deflection of an ECG waveform.

Major deflections include:

  • P Wave – atrial depolarisation
  • QRS Complex – ventricular depolarisation
  • T Wave – ventricular repolarisation
Retrieved from https://ijdr.in/article.asp?issn=0970-9290;year=2014;volume=25;issue=3;spage=386;epage=389;aulast=Anoop;type=3 on 8th January 2023
Retrieved from https://aneskey.com/ecg-basics/ on 8th January 2023

P Wave should be small, rounded, and positive, visible through leads I, II, aVF, and V2-V6, with an amplitude of 0.5-2.5mm and duration of <120ms; there should be only 1 P Wave preceding the QRS Complex.

QRS Normal Interval should be less than 3 small squares on the ECG graph.

ST Segment is normally isoelectric and gently upsloping.

interpreting ECG
Retrieved from https://www.aclsmedicaltraining.com/basics-of-ecg/ on 8th January 2023

QT Prolonged could be indicating Hypokalaemia, Hypocalcaemia, Bradycardia, Drugs, issues with the CNS, Left Ventricular Hypertrophy and Pericarditis.

ST Elevation could be indicating MI or Myocardial Injury, Coronary Vasospasm or Pericarditis.

ST Depression could be indicating Ischaemia, Digitalis Glycocides use (eg. Digoxin), block in the left or right Bundle Branch, or left or right ventricular hypertrophy. ST Depression is a sign of a narrowed blood vessel.

interpreting ECG
Accessed from https://www.pinterest.com/pin/428967933232415341/ on 24th January 2021
interpreting ECG
Retrieved from https://www.cvphysiology.com/CAD/CAD012 on 8th January 2023
interpreting ECG
Retrieved from https://www.cvphysiology.com/CAD/CAD012 on 8th January 2023
interpreting ECG
Retrieved from https://www.washingtonhra.com/arrhythmias/long-qt-syndrome.php on 8th January 2023

NOTE: Some drugs such as antibiotics, anti-psychotic and anti-arrhythmic drugs, prolong depolarisation and repolarisation time.


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Claire

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Author: Claire

Claire Galea is a mum of three currently in her final year following a Degree in Nursing at the Faculty of Health Sciences, University of Malta, as a mature student. Claire is keen about public education on health-related subjects as well as holistic patient-centered care. She is also passionate about spreading awareness on the negative effects that domestic abuse leaves on its victims’ mental, emotional, social and physical wellbeing. Claire aspires to continue studying following completion of her Nursing Degree, because she truly believes in lifelong education.