EM Cases – Missed Ischemia – Never Trust the ECG Computer Interpretation

Originally published at EM Cases. Reposted with permission.

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In this ECG Cases – Missed Ischemia – Never Trust the ECG Computer Interpretation, we review ECGs from 7 patients presenting to the ED with chest pain, all of whom had a computer interpretation as “normal.” And guess what…they all show acute ischemia! Can you see what the computer couldn’t?


Written by Jesse McLaren; Edited by Anton Helman. September 2019

ECG Cases 1: Missed Ischemia – Never Trust the ECG Computer Interpretation

Patient 1. 65yo with hours of chest pain. No prior ECG

 

Patient 2: 50yo with 3hrs of mid-sternal squeezing chest pain with diaphoresis. No prior ECG

 

Patient 3. 70yo with 90 minutes exertional chest pain and nausea. No prior ECG

 

Patient 4: 70yo with one hour of exertional chest pain radiating to the arm. Old then new ECG

 

Patient 5: 70yo with 6hrs on/off chest tightness radiating to the arm now constant. Old then new ECG

 

Patient 6: 75yo one day chest pain radiating to bilateral shoulders. Old then new ECG

 

Patient 7: 55yo history RCA stent with 30 minutes chest pain radiating to the arm. Old then new ECG

ECGs read as ‘normal’ by the computer

Automated interpretation has high rates of error for detecting ischemia, up to 42% for STEMI.[1] But what about those ECGs read as “normal”? A 2017 study concluded that “triage ECGs identified by the computer as normal are unlikely to have clinical significance that would change triage care. Eliminating physician review of triage ECGs with a computer interpretation of normal may be a safe way to improve patient care by decreasing physician interruptions.” [2]

But this was based on only 4 months of triage ECGs collected at a single centre with a low incidence of STEMI. A critical response explained both the shortcomings of the study, and a different approach to “normal” ECGs:

“Using non-blinded expert review rather than outcome as a reference standard precludes any meaningful conclusion about triage ECGs…A sample size of 855 has no chance of generating a meaningful conclusion about the reliability of computer ‘Normal.’…Physicians should take steps to develop their skills in detecting subtle signs of myocardial ischemia, and computerized interpretation algorithms should state ‘No abnormalities detected’ rather than ‘Normal ECG.’ ” [3]

 

Back to the cases

Patient 1. ischemic ST morphology

NSR, normal conduction/axis/R wave, no hypertrophy. Mild ST elevation in V1-2 which could be normal, but the morphology is not: ST is convex in V2 and straight in V3. Plus there’s an inverted U wave in V2, another marker of LAD occlusion. When trop returned positive an hour later, repeat ECG below showed further convex ST in V1-2 and terminal T wave inversion, and cath lab was activated: 100% mid LAD occlusion

 

Patient 2: ischemic T wave morphology

NSR, normal conduction/axis/R wave, no hypertrophy. No ST segment elevation or depression, but there is terminal T-wave inversion in aVL and reciprocal down-up T waves in III/III/aVF, and inverted U wave in V2-3. The physician was concerned about these and asked for a repeat ECG:

Now there is ST elevation in V1-2 and aVL, a deeper Q wave in aVL and new Q wave in V2, and ST depression inferolaterally. Code STEMI called: 95% proximal LAD occlusion

 

Patient 3. subtle LAD occlusion

NSR, normal conduction/axis, no hypertrophy.There is 1-2mm concave ST elevation in V2-3 which could be normal, but there are a number ischemic changes: reverse R wave progression from V2 to V3, Q wave in V2, terminal QRS distortion (no S wave or J wave) in V2, hyperacute T waves (relative to their preceding QRS) in V2-3, and inferior reciprocal changes. When trop came back positive an hour later, a repeat ECG was done:

Now there is a full QS wave in V2. Code STEMI called: 100% mid-LAD occlusion.

 

Patient 4: subtle LAD occlusion

NSR, normal conduction/axis/R wave progression, no hypertrophy. Compared to the old ECG there is no ST elevation, but there are three other signs of occlusion: hyperacute T waves (now bigger than the R wave in V2 and as big as the R wave in V3), a deeper Q wave in V3, and terminal QRS distortion in V3. Physician asked for a repeat ECG

Read by the machine as “nonspecific”, but the deWinter T waves in V3-4 (ST depression followed by tall symmetric T waves) are very specific for LAD occlusion. Cath lab activated: 100% mid-LAD occlusion. First trop negative, peak 50,000.

 

Patient 5:  ST/T changes compared to prior

There’s mild concave ST elevation in lead V2-3 which doesn’t meet STEMI criteria. But this is new compared to previous, along with hyperacute T waves in V2-3 and mild ST depression laterally. When trop came back positive an hour later, repeat ECG below showed straightening of the ST segments, and the cath lab was activated: 100% distal LAD occlusion.

 

Patient 6: subtle circumflex occlusion

There’s barely 1mm of ST elevation in aVL only (no STEMI criteria), but this is large compared to its small QRS complex, and there’s mild reciprocal ST depression inferiorly, and pseudonormalized ST segment in V3. Concerned about the patient’s symptoms and the new ischemic changes, the physician activated the cath lab: circumflex occlusion.

 

Patient 7: subtle RCA occlusion.

NSR, normal conduction/axis, R wave, no hypertrophy. There’s an old Q wave from the prior MI. But there is now mild ST elevation in III/AVF with reciprocal ST depression in aVL (which is very sensitive for inferior MI), the inverted T waves in III/aVF are now upright (pseudonormalization), and there is relative ST depression (pseudonormalization) in V2–all concerning for posterolateral ischemia. Cath lab activated: 100% occlusion at the stent. First trop negative, peak 8,000.

 

Take home points for Missed Ischemia Never Trust the ECT Computer Interpretation

Never trust the ECG computer interpretation, even if it says “normal,” because:

  1. ischemic morphology: the computer focuses on ST segment elevation, and can miss ischemic ST-T wave morphology—including straight or convex ST segments, terminal T wave inversion, down-up T waves, hyperacute T waves,  deWinter T waves, and inverted U waves
  2. dynamic change: the computer interprets each ECG in isolation, and can’t compare to prior or repeat ECGs (which is critical in a dynamic process like coronary occlusion)—so it can miss subtle changes, including pseudonormalization of ST segments or T waves
  3. STEMI criteria: computer interpretation is based on STEMI criteria, which has limited sensitivity for identifying acute coronary occlusion—so it can miss subtle ST elevation (which may be significant in small amplitude QRS complexes), ST depression in aVL (which is very sensitive for inferior MI), and subtle signs of LAD occlusion like terminal QRS distortion.

This blog will explore all these signs in more detail, and more.

 

References for Missed Ischemia Never Trust The ECG Computer Interpretation

  1. Schläpfer J, Wellens HJ. Computer-Interpreted Electrocardiograms: Benefits and Limitations. J Am Coll Cardiol. 2017;70(9):1183-1192.
  2. Hughes KE, Lewis SM, Katz L, Jones J. Safety of Computer Interpretation of Normal Triage Electrocardiograms. Acad Emerg Med. 2017;24(1):120-124.
  3. Litell JM, Meyers HP, Smith SW. Emergency physicians should be shown all triage ECGs, even those with a computer interpretation of “Normal”. J Electrocardiol. 2019;54:79-81.

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