Monday, May 29, 2017

Chest Pain Diagnosed as Gastroesophageal Reflux


A 50-something male presented to a clinic for one day of intermittent substernal chest and jaw pain.  He had had several episodes of pain since onset; it was described as pressure-like and lasts about 5-15 minutes and resolves spontaneously.  He had been pain free for about an hour.   He had some "pre-diabetes," but no h/o hypertension, no known family history of heart disease, and he smokes about 1-2 cigarettes per day. 

An ECG was recorded:
The computer read:
Normal ECG
What do you think?

Veritas algorithm













I sent this to the Queen years later.  You can see that she does not see OMI, but she  has low confidence.  In other words, she would never call this "normal."

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Smith Comment:

This is definitely not a normal ECG.
There is less than 1 mm of ST depression in II, III, aVF, and in V3-V6.
The STD is nearly 1 mm in III and V6.
There is a tiny amount of ST Elevation in aVL
The ST vector is around -60 degrees, so that there is some STE in aVL and a bit in I, and zero in aVR

What is a normal ST segment?

--First, one must be sure that the QRS is normal.  An abnormal QRS (abnormal depolarization), such as in LBBB, LVH, RBBB, or RVH, may result in abnormal ST-T (abnormal repolarization).  In this case, the QRS is normal: normal axis, duration, and amplitude, without abnormal Q-waves.

When the QRS is normal
--The normal ST vector is towards leads II and V5 (anterior and leftward)
--Leads I, II, and aVF should not have any ST depression, as the normal ST vector is leftward and anterior.  It is common to have some normal variant ST elevation in these leads, often called "early repolarization."
--Precordial leads also usually have normal ST elevation, not ST depression.  
--Up to 0.5 mm of ST depression can be normal, though it is unusual.  It should not be assumed to be normal unless there are previous ECGs that confirm it.

Causes of ST Depression with a normal QRS:
1. Normal Variant
2. Ischemia
3. Hypokalemia
4. Digoxin


It is very likely that the "inferior ST depression" is due to high lateral MI.  The ST depression in precordial leads suggest still more widespread ischemia, so the exact culprit is not at all clear.

Case continued

He was diagnosed with reflux and treated with a proton pump inhibitor and given nitroglycerin.

He presented to the ED 1 day later:

He stated that he had continued episodes of chest pain and then it became constant that morning (about 8 hours prior).  The NTG had not helped.  There is no change in symptoms with exertion, the pain is not pleuritic, positional, or reproducible by palpation.

An ECG was recorded:
The ED ECG has some differences: there is more ST depression, there is some T-wave inversion in aVL.   There may be new Q-waves in V2 and V3 and there is also some apparent change in the ST-T of V2 and V3.  However, there is so much artifact that this is indeterminate.

Here is yesterday's for direct comparison:


The patient was given aspirin and his first troponin returned at 4.94 ng/mL.  The pain spontaneously resolved.  He was given heparin and metoprolol, with a plan to go urgently to cath if his pain recurred.

Another ECG was recorded at t = 46 minutes:
There is less ST depression

This was recorded at T = 105 minutes
There is a suggestion of terminal T-wave inversion in V2, suggestive of Wellens' waves

The next AM, this was recorded before the angiogram:
What is the culprit artery?


Here is the troponin profile:








The angiogram showed a 100% thrombotic mid-LAD occlusion with faint left to right and right to left collaterals.

Here is the post cath ECG:



So that very subtle terminal T-wave inversion were indeed subtle Wellens' waves.

In Wellens' original studies, every case had either an open artery (LAD) or collateral circulation.  Wellens' waves imply reperfusion, but it might be due to collaterals, not due to reperfusion of the infarct-related artery.


Learning Points

1. Beware ST depression
2. Never assume chest pain is reflux.  They cannot be differentiated without troponin.  (The ECG could be entirely normal in MI, though in this case it was NOT normal)
3. Wellens' syndrome is due to reperfusion or good collateral circulation
4. Ischemia that resolves need not go to the cath lab emergently as long as there is very close monitoring.

See this case:

Chest pain relieved by Maalox and viscous lidocaine
















7 comments:

  1. GREAT case with excellent insights provided by Dr. Smith! I’d emphasize as a KEY point that the 1st ECG is simply not “normal”. To me, the ECG findings are quite subtle indeed, and I would label them “nonspecific”. But the important point to recognize is that leads like II, V4,V5,V6 on this 1st ECG are simply not what you should see in a “normal” tracing. That’s because the ST segment is straightened in these leads. It is also slightly depressed in leads V5,V6 — but even if it was not depressed, the straightening of the ST segment that is seen (highlighted by angulation of the junction of the end of the ST and the beginning of the T wave in leads V5,V6) is simply not “normal”. Instead, a truly “normal” ST-T wave has some “rounding” with gradual transition from the end of the ST segment to the beginning of the T wave. More than just ST flattening — there is also slight-but-real lateral chest leads ST depression here — which in association with chest pain, should be considered ischemic until proven otherwise.

    I’d expand on the 4 cause list from the blog. One might modify the title to “Causes of Non-Specific ST-T wave Flattening (with or without slight ST Depression) — and add to the 4 entities listed a host of other potential causes of these nonspecific ST-T wave findings. For example, a similar ECG pattern of ST-T wave flattening may also be seen with hyperventilation; autonomic discharge (from things like fear; anxiety; stress; excess warmth or cold); or simply from “sick patient”. The KEYS are to realize that MANY entities may produce similar nonspecific ECG findings — AND — that when you see this picture in a patient with chest pain, that ischemia can certainly be the cause.

    Finally, serial tracings once again “tell the tale” here. Without careful lead-to-lead comparison — it would be all too easy to overlook loss of R wave amplitude in anterior leads on subsequent serial tracing — as well as those subtle, but definitely present Wellens T waves that become apparent in leads V2,V3,V4 on later tracings. In retrospect, the ST-T wave we see in lead V2 of the very 1st ECG is abnormal (it’s too fat at its base with overly elevated J-point, especially considering suggestion of slight ST depression in neighboring lead V3). That said, I still initially thought ECG #1 was nonspecific — but awareness of the history with recognition of the subtle findings that are just not “normal” on this 1st ECG should still be enough to get you to look further. GREAT case!

    ReplyDelete
  2. Apologies for the simplicity of my question, how do one calculate the ST-segment vector? Do you have any post which address the topic?
    Thanks

    ReplyDelete
    Replies
    1. You just look for the direction of ST elevation, and in the opposite direction from any ST depression. If there is ST depression maximal in V2, then the ST vector is anterior.
      See here: http://hqmeded-ecg.blogspot.com/2012/02/five-primary-patterns-of-ischemic-st.html

      Delete
  3. how does one calculate the st segment vector?

    ReplyDelete
    Replies
    1. Just look at the direction of the ST segment.
      See this post: https://hqmeded-ecg.blogspot.com/2012/02/five-primary-patterns-of-ischemic-st.html

      Delete
  4. excellent. its funny. we get handed 20-30 ekg's a day to "glance at , and sign "no STEMI". this one could easily be overlooked first time around ( by me, but no longer, right?).
    thank you

    ReplyDelete

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