A reader texted this ECG without any clinical information, with the question:
"This is not a Subtle ECG, right?"
The reader reported that this ECG was not recognized as abnormal and that he himself had found it at the doctor's station shortly after it was recorded.
The reader was concerned about the towering anterior T-waves and the small S-waves in V2 and V3.
The computer read it as benign early repolarization and the treating physician did not notice that it might be something else.
The reader activated the cath lab.
The reader asked another doc for whom he has great respect to look at it, and he also thought it was early repolarization.
It was a 40-something male with stuttering chest pain.
Outcome: proximal LAD occlusion.
The ST elevation does not meet STEMI criteria, as is very common in LAD occlusion.
However, to me and to my former resident, this is an obvious LAD occlusion because of the enormous T-waves, and the small QRS, with especially small S-waves, which almost meet the definition of terminal QRS distortion (but not quite).
I told him that V2 and V3 manifest a "forme fruste" of terminal QRS distortion, ("forme fruste:" an atypical or attenuated manifestation of a disease or syndrome).
This ECG is not obvious to everyone, as is clear from what happened in this ED.
And that is why I developed the formulas for differentiating the two entities.
How would the formulas fare?
[Here is an explanation of the formulas: 12 Cases of Use of 3- and 4-variable formulas to differentiate normal STE from subtle LAD occlusion]
I do not have the computerized QTc, but I measure the QT at 400 and the RR interval at 760. So the QTc is 470.
STE60V3 = 2.5 mm
RAV4 = 9.5 mm
QRSV2 = 5 mm
3-variable formula: 30.7 (far greater than 23.4, the most accurate cutpoint)
4-variable formula: 23.8 (far greater than 18.2, the most accurate cutpoint)
Even if the QTc was only 400 ms, the values would still be positive:
3-variable: 23.49
4-variable: 20.154
Both of these values are extremely high and diagnostic of LAD occlusion.
Learning points:
1. Use the formulas when there is ST elevation that you think is due to early repolarization.
2. Be suspicious of coronary occlusion when the T-wave towers over the R-wave, especially if in more than consecutive lead.
3. Do not believe the computer when it says normal or early repolarization. Interpret it yourself.
4. Use the formulas when there is any question.
See many cases of occlusion in which the computer interpretation was totally normal:
"This is not a Subtle ECG, right?"
My response: "No! Activate!" |
The reader reported that this ECG was not recognized as abnormal and that he himself had found it at the doctor's station shortly after it was recorded.
The reader was concerned about the towering anterior T-waves and the small S-waves in V2 and V3.
The computer read it as benign early repolarization and the treating physician did not notice that it might be something else.
The reader activated the cath lab.
The reader asked another doc for whom he has great respect to look at it, and he also thought it was early repolarization.
It was a 40-something male with stuttering chest pain.
Outcome: proximal LAD occlusion.
The ST elevation does not meet STEMI criteria, as is very common in LAD occlusion.
However, to me and to my former resident, this is an obvious LAD occlusion because of the enormous T-waves, and the small QRS, with especially small S-waves, which almost meet the definition of terminal QRS distortion (but not quite).
I told him that V2 and V3 manifest a "forme fruste" of terminal QRS distortion, ("forme fruste:" an atypical or attenuated manifestation of a disease or syndrome).
This ECG is not obvious to everyone, as is clear from what happened in this ED.
And that is why I developed the formulas for differentiating the two entities.
How would the formulas fare?
[Here is an explanation of the formulas: 12 Cases of Use of 3- and 4-variable formulas to differentiate normal STE from subtle LAD occlusion]
I do not have the computerized QTc, but I measure the QT at 400 and the RR interval at 760. So the QTc is 470.
STE60V3 = 2.5 mm
RAV4 = 9.5 mm
QRSV2 = 5 mm
3-variable formula: 30.7 (far greater than 23.4, the most accurate cutpoint)
4-variable formula: 23.8 (far greater than 18.2, the most accurate cutpoint)
Even if the QTc was only 400 ms, the values would still be positive:
3-variable: 23.49
4-variable: 20.154
Both of these values are extremely high and diagnostic of LAD occlusion.
Learning points:
1. Use the formulas when there is ST elevation that you think is due to early repolarization.
2. Be suspicious of coronary occlusion when the T-wave towers over the R-wave, especially if in more than consecutive lead.
3. Do not believe the computer when it says normal or early repolarization. Interpret it yourself.
4. Use the formulas when there is any question.
See many cases of occlusion in which the computer interpretation was totally normal:
Steve — As you and I have discussed many times, I think having your formulas automatically calculate a value that automatically appears on the computer readout (as was done in the study we both participated in) — could be VERY helpful. That said, as stated in the 2nd sentence of this post (above) — There is NOTHING subtle about this tracing. Anyone who misreads this ECG in a patient with chest pain as reflecting “early repolarization” should (in my opinion) simply not be reading ECGs on the “front line”, but instead NEEDS to study/practice more on their ECG interpretation skills. Otherwise, I just don’t understand criteria that describe the amount of ST elevation in this case as “not enough for a stemi … “. QRS amplitude in V2 and V3 is tiny (which of itself is highly suggestive in association with the T waves in these leads as an acute ongoing stemi) — and the relative amount of ST elevation in V3 is about 2/3 the height of the R wave in this lead. Bottom Line: The fact that emergency providers continue to misread tracings like these is evidence of the IMPORTANCE of your ECG Blog as playing an essential role in improving emergency ECG interpretation. THANKS for your continued efforts in this endeavor!
ReplyDeleteWhat are the formulas? I can't seem to see them?! Thanks you
DeleteSee here:
Delete12 Cases of Use of 3- and 4-variable formulas to differentiate normal STE from subtle LAD occlusion:
http://hqmeded-ecg.blogspot.com/search?q=12+cases+formula+LAD+occlusion
Time and again you are driving home this point.
ReplyDeleteCudos to you sir.
Hey Steve
ReplyDeleteQuick question: do the results of the 3 and 4 variable formulas correlate with specificity for subtle LAD occlusion? For example, is a patient with a 3-variable result of 30 dramatically more likely to have subtle LAD occlusion than another patient with a result of 25? Or is it simply a binary cutoff. Thanks!
Much more likely to be LAD occlusion with 30 than 25!
DeleteMore important, 22 has sensitivity of 96%, where 23.4 has sensitivity of 86%.