Saturday, October 27, 2018

Our residents are getting really good at this.

I was asked to look at this ECG in a patient with 30 minutes of acute onset of nausea and vomiting and perhaps some chest discomfort:

First ED ECG:
Here is my response:
It is VERY suspicious for acute inferior MI because of some ST Elevation and large and fat T-waves in II, III, aVF.  It is not diagnostic because of absence of ST Depression (or T-wave inversion) in aVL.  
--There are Q-waves, which suggest "old inferior MI with persistent STE" (also known as "inferior LV aneurysm") or subacute inferior MI.  
--However, symptoms for only 30 minutes, so it is not subacute.  
--On the other hand, the T-waves are too large for old MI.

I am going to guess that this is acute MI.

In our study of inferior MI, 99% had some amount of ST depression in lead aVL:
https://www.sciencedirect.com/science/article/pii/S0735675715008189


Here is the case:

A 60-something called 911 for acute onset of diaphoresis, vomiting, and also chest pain.

3 prehospital ECGs were recorded.  They were all identical.  Here is the 3rd one:
Very similar to that first ED ECG above

Here is the first ED ECG again (30 minutes of symptoms):

This was viewed by one of our fantastic 2nd year residents, BG TenBrink.  And he was very suspicious of acute MI.  They are getting very good at this!

So he showed it to one of our junior faculty, Nick Simpson.  Nick was convinced.

The patient reportedly "looked terrible and continued to drip sweat."  He had "nausea and multiple episodes of vomiting."   He was "clammy and diaphoretic for medics."  He did not receive aspirin or nitroglycerin prehospital, and "he did not endorse chest pain or shortness of breath."

In emergency department, the patient began endorsing midsternal chest pain that began while he was here in the ED. He endorsed continued nausea and diaphoresis. He denied any history of heart disease. Has not had a heart attack before.

The pain was coming and going in the ED, and another, 2nd, ECG was recorded without pain, or at least with a lot less pain, 17 minutes after the 1st ECG:
Now there is some more upward concavity in lead II. See comparisons side-by-side below.
The patient dropped his blood pressure a couple times to the mid 80's

The cath lab was activated.  Result:

RCA is a medium caliber vessel with low anterior take off.
Hazy 80% stenosis is noted in the distal vessel.

Lesion on Dist RCA: 80% stenosis 15 mm length reduced to 0%. Pre-procedure TIMI III flow was noted. Post Procedure TIMI III flow was present. Good run off was present.The lesion was diagnosed as a low risk lesion.The lesion was tubular and eccentric.The lesion showed evidence of thrombus presence, with irregular contour, mild angulation and mild tortuosity.  Lesion plaque is ruptured.

Culprit Lesion (s):
Hazy 70-80% stenosis of the dRCA

Impression:

Inferior STEMI with RCA culprit, vessel recanalization prior to angiography (i.e., spontaneous reperfusion, as indicated by ECG improvement and resolution of pain)
Successful PCI with 2.5 x 16 mm Synergy DES; excellent angiographic result

Here is an ECG the next AM:



Here are all 3 ECG together, side by side:

                First ECG                                   2nd ECG, pain free                          3rd ECG, post cath
Notice how the ST segment in lead II on the first ECG is almost straight. 
After pain resolution (2nd ECG), there is more upward concavity
3rd is after stenting and there is not much difference from ECG 2. 

The first troponin I was below the level of detection (0.010 ng/mL), as were all subsequent troponins!

Echo showed no wall motion abnormality and normal EF.

Thus, the patient ruled out for MI.

So how do we know that there actually was an acute coronary syndrome?

1. The angiogram showed a hazy lesion and ruptured plaque
2. The "gold standard" (reference standard) is ECG evolution.  If ST Elevation and/or large T-waves are due to ischemia, then when the ischemia is gone (and it always goes away at some point -- ischemia is not a chronic condition), the ST Elevation will decrease and/or T-waves become less large; if they are NOT due to ischemia, they will not change. 

Here we see the evolution: when the patient becomes pain free, the T-wave became less "fat".  The angiogram has TIMI-3 flow, corresponding to the resolving ECG.


Conclusion:

This patient was treated so fast that he had no actual infarction.  Spontaneous reperfusion certainly helped.

So this is really another case of Unstable Angina. 
Here are more cases of Unstable Angina


===================================
Comment by KEN GRAUER, MD (10/27/2018):
===================================
Superb case by Dr. Smith with prompt recognition and treatment of acute coronary syndrome resulting in rapid cardiac cath before any actual infarction occurred. The patient was lucky in that the 80% RCA “culprit lesion” spontaneously reperfused. The lesion was stented in the hope of preventing a future event.
  • I focus my comments on the ECG definition of a “normal” ST segment (Figure-1) — and on some additional fine points regarding ECG interpretation of the first 2 tracings shown in this case (Figure-2):
Figure-1: Compare the ST segment in Panel A with Panel BWhat is the difference? Is this likely to be clinically significant?  (See text).
========================-
Recognizing Subtle SSegment Changes — Consensus among expert electrocardiographers is lacking regarding the definition of a normal ST segment. Much of this relates to semantics — since minor ST-T wave abnormalities in a non-acute setting generally provide no more than a nonspecific suggestion to potential etiologies. That said — I feel it important to hone in on recognizing even minimal abnormalities because: iit is good to let others reading our interpretation be aware that we saw the abnormality in question, even if we may not have thought it clinically important for the case at hand; and, iiin an acute setting — even subtle ST-T wave abnormalities may be very important!
  • The ST-T wave in Panel A of Figure-1 is normal. Note the smooth contour at the point of transition between the end of the S wave and the beginning of the ST segment. Note an equally smooth contour at the end of the ST segment and the point where the ascending limb of the T wave begins. There is a slight normal upward concavity at this transition between the end of the ST segment, and the beginning of the T wave.
  • In contrast — Note the sharp angle in Panel B at the point where the straight (flat) ST segment ends and the ascending limb of the T wave begins (RED arrow). While admittedly “splitting hairs” — the ST-T wave in Panel B is not normal. Instead — there is nonspecific ST segment straightening (ie, with loss of that smooth transition between the end of the ST segment and the beginning of the T wave ascending limb).
  • I’ll emphasize that in a non-acute setting, “nonspecific ST segment straightening” — is a descriptive finding. It is nonspecific. It may mean nothing — especially if only seen in a single lead. Or, it may suggest some other problem (ie, electrolyte disorder) — or, it may be a nonspecific indicator of underlying coronary disease.
  • On the other hand, in an acute setting (ie, in a patient with new-onset chest pain— even subtle ECG abnormalities, especially if present in multiple leads — may be extremely important. For this reason — recognition of subtle ST-T wave changes is an essential skill for emergency providers to master.
=============================
Now look at Figure-2 — in which we compare the initial ED tracing (ECG #1obtained during chest pain — with ECG #2 obtained 17 minutes later, at a time when chest pain had greatly decreased. To facilitate discussion of the ECG abnormalities noted by Dr. Smith above — I’ve added magnified inserts (within the RED rectangles) for the first 2 complexes in leads II and aVF of ECG #1. Similar changes in the ST-T wave are seen in lead III.
  • In addition to slight-but-real J-point ST elevation — note straightening of the ST segment takeoff. The normal upward-concavity appearance of the ST segment (that we saw in Panel A of Figure-1) has been lost in each of the inferior leads of ECG #1.
  • In contrast — a more normal upward-concavity appearance for the ST segment in the inferior leads has returned in ECG #2 (as shown within the YELLOW rectangle inserts for leads II and aVF). To be clear — the ST-T waves in the inferior leads for ECG #2 are by no means normal (!) — but there clearly is less ST segment straightening — and we now clearly can see some upward concavity to the ST segment in the inferior leads.
Figure-2: Comparison between the initial ECG obtained in the ED (TOP = ECG #1) — with ECG #2 (BOTTOM) obtained 17 minutes later at a time when chest pain had markedly decreased (See text).
============================-
Additional fine points regarding the 2 serial ECGs in Figure-2:
  • Could this patient have had prior inferior infarction? After all — there are inferior Q waves that are actually quite large considering the small size of the QRS complexes in the inferior leads. We are told that the patient had “no history of prior infarction” — and, cardiac cath did not suggest any wall motion abnormality — but given presumed significant baseline RCA narrowing, with an episode of spontaneous resolution of acute occlusion — perhaps one or more similar episodes occurred in the past?
  • This is relevant — because (as emphasized earlier by Dr. Smith) — it is highly unusual with acute RCA occlusion (with inferior ST elevation) not to see reciprocal changes in lead aVL. Keep in mind that lead aVL in ECG #1 is not “normal” (ie, the ST segment is uncharacteristically flat) — but there is no ST depression. Could the reason for this be that the lead aVL “baseline” was abnormal from a prior event?
  • There is a change in lead aVL in ECG #2 — in that there is now ever-so-subtle-but-real T wave inversion. This probably is another reflection of this patient’s spontaneous reperfusion.
  • In ECG #1 — there is early transition by lead V2, with R = S in lead V1. This is not a normal appearance in lead V1, which typically shows predominant negativity. Could these findings (ie, R=S in V1 & early transition by lead V2) have similar implications as the inferior Q waves, namely reflect prior posterior infarction?
  • Finally, note in ECG #2 that the tiny QRS complex in lead V1 now manifests an rsr’ — which in conjunction with the narrow terminal s waves in leads I and V6 suggests incomplete RBBB. That said — I suspect the reason for this change in QRS appearance in lead V1 is more likely due to lead misplacement (too high) of V1 and V2 — because the P in V1 of ECG #2 is now all negative (it was biphasic in ECG #1); there is now a negative component to the P in V2 (the P wave was all positive in V2 of ECG #1) — and leads V3-thru-V6 are virtually identical in both tracings (suggesting a technical problem may be the cause of the change in V1 and V2).



7 comments:

  1. Wow. This is such a great post.
    And excellent notes from Dr Ken Grauer!

    ReplyDelete
    Replies
    1. Thank you Ken! So glad you are enjoying Dr. Smith's ECG Blog & my comments — :)

      Delete
  2. thank you again, gentlemen, Steve and Ken.
    was away for a while. need to catch up.
    excellent blog

    ReplyDelete
  3. Dr. Smith, suppose this case is a new STEMI, so how much possibilities that a new inferior MI can cause an early Q wave like this (in first hour)?

    ReplyDelete
    Replies
    1. Good point. It is unlikely that this MI caused Q-waves. And it is uncertain whether there was, or was not, a previous inferior MI. These Q-waves are certainly not 100% specific for old MI, so it remains an unknown. However, the patient did NOT have a wall motion abnormality on later ultrasound, so these are probably false positive Q-waves

      Delete
    2. @ Green Wind — In addition to Dr. Smith's excellent answer — Please also look at My Comment at the bottom of the blog post (Bullet beginning in bold with, "Could this patient have had prior inferior infarction?" — :)

      Delete
  4. Nice post.
    Great comment's Ken

    ReplyDelete

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