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Rob Buttner Profile picture
Rob Buttner
@rob_buttner
Author of the LITFL ECG Library | Adult/Paediatric Emergency Medicine Advanced Trainee | Adj Lecturer @monash_para | #ECG #FOAMed @LITFLblog

Sep 22, 2021, 12 tweets

Crushing chest pain and diaphoresis.

The computer reads "inferior ischaemia"

You, the astute twitter-reading clinician, read "normal"

Here's why ๐Ÿ‘‡๐Ÿพ๐Ÿงต

litfl.com/ecg-case-134

No, you are not smarter than a computer. But computers donโ€™t allow for human error.

This ECG looks a bit odd. That should prompt us to shift to our system 2 thinking (systematic, conscious, analytical interpretation). (1/11)

Immediately, we notice an abnormal P wave axis, with an upright P wave in aVR and negative in II.

Whilst on its own this can represent an ectopic atrial rhythm, the QRS axis is also abnormal and is northwest. (2/11)

Our potential causes of a northwest axis include:
- Ventricular rhythms (VT, AIVR, ventricular ectopy)
- Hyperkalaemia
- Extreme RAD
- Dextrocardia

However, QRS conduction itself is normal. (3/11)

A NW axis in hyperK is a relatively late sign โ€“ we would expect significant intraventricular conduction delay and an abnormal QRS.

Extreme RAD, usually seen in COPD patients, should be associated with other features of RVH, P pulmonale, and/or arrhythmias such as MAT. (4/11)

In dextrocardia, there is absent R wave progression in precordial leads โ€“ in fact, there is often R wave REVERSAL as the lateral precordial leads move further away from the right-sided heart. (5/11)

So where does this leave us? Well, a NW axis in an ECG with normal precordial leads simply does not make sense. This must be lead misplacement.

Limb electrode reversal is a common cause of ECG abnormality and can simulate ectopic rhythms, chamber enlargement or ischaemia. (6/11)

Recognising this pattern is easier if we understand the changes. Limb leads are calculated from LA, RA, and LL electrodes.

For example, โ€œlead Iโ€ = LA โ€“ RA, โ€œlead IIโ€ = LL โ€“ RA, and so forth. (7/11)

The relationship between limb leads and electrodes can be described by Einthoven triangle โ€“ whilst this diagram can be overwhelming, it gives us an overview of all lead derivations.

Notice how augmented leads such as aVR are simply derived from leads I and II. (8/11)

Our patient above has RA/LL electrode reversal. Their "triangle" has been flipped around the fixed LA vector.

Most notably, aVF and aVR switch places. All of leads I, II and III are now "inverted". (9/11)

Here is a quick guide to spotting different types of limb lead reversal (10/11)

It can be a bit much to remember the exact changes in each type of limb lead reversal.

More relevant is that a uniformally positive aVR, or negative lead I, should always prompt us to consider and check lead reversal, especially when the QRS complex is otherwise normal. (11/11)

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