Sunday, November 29, 2020

A woman in her 40s with acute chest pain

Case written by Neha Ray MD, Brandon Fetterolf MD, and Pendell Meyers MD


A woman in her 40s with a history of rheumatoid arthritis, anemia, and thrombocytopenia presented to the ED with acute onset chest pain starting around 5am on the morning of presentation.  It woke her from sleep. The chest pain was midsternal, severe, sharp, and constant. 

On the previous night she had had a mild version of the same pain that she thought was heartburn (esophageal reflux). She reported some radiation to the left arm. She also reports 3 episodes of non-bloody vomiting over the course of the morning. She had a recent admission for endoscopy and colonoscopy which failed to show any source of bleeding. She denied any fevers, chills, sick contacts, diarrhea, or abdominal pain.

Here is her triage ECG:

What do you think?








An old ECG from 4 years ago was available:




The current triage ECG shows normal sinus rhythm with:

 - New pathologic QS-waves ("QS-wave" means there is no R-wave at all; the entire QRS is negative) in the anterior, lateral, and inferior leads.  These QS-waves alone are all but diagnostic of infarction of indeterminate age.

 - In the anterolateral leads, the are QS-waves with obliteration of the previously normal R wave progression

 - Very slight STE in leads II, III, aVF, V3-V6 that does not meet STEMI criteria

 - T waves in V3 and V4 are not consistent with old MI, but rather are hyperacute.  (They are not consistent with chronic, old LV aneurysm morphology as the the T/QRS ratio is 4.5 mm/ 6mm = 0.75 in lead V3 and 3.0mm/4.5mm = 0.67, both greater than our studied cutoff of 0.36 (see discussion below regarding Dr. Smith's derived and validated rules for differentiating chronic LV aneurysm morphology from acute anterior OMI)


Although QS waves are a sign of decreased acuity, the persistent pain and hyperacute T waves definitively mean that there is ongoing ischemia and more viable myocardium that can be salvaged with reperfusion therapy and which will infarct if emergent reperfusion is not achieved quickly.


In these cases, it is important and sometimes difficult to decide between several possibilities:


1) Old anterior MI with no active ischemia (old LV aneurysm morphology)

2) Old anterior MI with superimposed acute occlusion

3) Subacute MI (no prior MI at that location, and now at least 6-12 hours into full thickness infarction)


T waves are tall and hyperacute (use the ratios below) in both #2 and for at least a few hours in #3, then fall with time, loss of tissue, and rising troponin.


Troponin will be positive already in #3, will quickly become positive in #2, and will be negative in #1.



===============================================================


We have derived and validated a rule to differentiate "LV aneurysm" ST elevation from STEMI.  The rule depends on the principle that acute STEMI has a tall T-wave and LV aneurysm does not.  There are two versions:

In the first rule, if there is any single T/QRS ratio in V1-V4 that is greater than 0.36, it is likely STEMI:  for the ECG from 3 years prior, that would be lead V2.  At 5mm/21mm, the ratio is less than 0.36 and would indicate LV aneurysm.  But for the first acute ECG above, lead V2 is 8.5/15 which is 0.56 and would NOT indicate LV aneurysm.

In the second rule, one takes the sum of T-wave amplitudes in V1-V4 and divides by the sum of the QRS amplitude in V1-V4.  A value less than 22 indicates LV aneurysm.  In the second ECG from 3 years ago, that comes to 10/47 = 0.215, consistent with LVA.


T/QRS ratio to differentiate anterior STEMI from anterior LV aneurysm:


These studies showed that acute anterior MI (symptoms less that 6 hours) almost always had a T/QRS ration greater than 0.36 in at least one of leads V1-V4.  A subacute MI (symptoms of at least 6 hours) and Old MI both had ratios less than 0.36.  This just demonstrates that in acute MI, the T-wave is large.


===============================================================


Case continued


The team called cardiology immediately via our "high risk ECG alert" pathway (this gets immediate consultation with the on-call interventionalist, to decide if immediate cath lab activation is appropriate). 


While waiting for the arrival of cardiology, we obtained a beside ultrasound looking for wall motion abnormalities.


ED bedside limited cardiac echo (performed by Drs. Dominic Nicacio and Gabriela Rivera-Camacho):




The parasternal long axis view above appears to show hypokinesis of the anterior septum. 





The parasternal short axis view above appears to show hypokinesis of anterior septum and anterior wall.


With the ECG as it is, there will always be a wall motion abnormality. The question is: is it new or old? It can be very difficult to tell on bedside echo. If it is old (i.e. aneurysm) a very high quality echo might see wall thinning and diastolic distortion. If it is new, there will be a thick wall and no distortion. But usually bedside echo would not be able to make this distinction.  


Repeat ECG about 1.5hrs later:



 


The repeat ECG shows worsening STE and persistent hyperacute T waves. The QRS complexes especially in the inferior leads are proportionally tiny compared to the ST segments and T waves.



The initial troponin (high sensitivity troponin I) returned highly elevated at 5,478 ng/L. This is consistent with the Q-waves on the ECG, and together they confirm some irreversible myocardial necrosis.  However, this in no way means that there is no remaining salvagable myocardium if the patient undergoes emergent reperfusion therapy.


The patient was taken for emergent cath which showed a fully occlusive spontaneous coronary artery dissection of the proximal LAD. There was also an acute spontaneous nonocclusive dissection of the distal RCA. There was no aortic dissection. The occlusive LAD dissection underwent PCI with 3 overlapping stents. The nonocclusive RCA dissection was treated conservatively without PCI.


The next four serial troponin measurements were all greater than 25,000 ng/L (the assay does not report higher concentrations). 


Her formal echocardiogram showed an EF of 25-30% with akinesis of the anteroseptal, apical, anterior, and lateral myocardium. 


Her medical regimen was complicated by platelets of 2,000/uL (history of chronic low platelets). Hematology was consulted and the patient was transfused platelets with a goal of greater than 5,000/uL, at the same time he was continued on ticagrelor (the reasoning being that ticagrelor may have favorable pharmacokinetics in the setting of platelet transfusion). Aspirin was considered contraindicated.


Repeat echocardiogram on day 3 showed improvement of the EF to 43%, but still with severe hypokinesis in the same location.


She remained on ticagrelor monotherapy and had no bleeding issues. She was discharged home but long term follow-up is unavailable.




See these related cases:


Subtle Anterior STEMI Superimposed on Anterior LV Aneurysm Morphology






 

 

 

Hyperacute T waves examples:


10 Cases of Inferior Hyperacute T-waves





http://www.emdocs.net/hyperacute-t-waves/

https://www.emra.org/emresident/article/stemi-equivalents/

 





3 comments:

  1. Dr Pendel Meyers, thanks for the great post of Spontaneous coronary artery dissection (SCAD ) in this young patient without the usual CAD risk factors. Was SCAD suspected in view of Rheumatoid Arthritis prior to Angiogram ?. This association is known
    Diffuse low voltage ( even in the old ecg) in a rheumatoid patient may indicate a possibility of
    secondary cardiac amyloidosis.
    with regards
    DrR.Balasubramanian

    ReplyDelete
  2. the echo images can be cleaned up a bit and they muddy the waters for wall motions. The parasternal long is catching some of the apex, so the septum/apex will be foreshortened, limiting interpretation. The parasternal short is through the mitral apparatus, making wall motion unreliable at that level.

    ReplyDelete
  3. incredible case , and excellent discussion Neha, Brandon, and Pendell. i very much appreciate this one. at first, when i saw the global low voltage i thought pericardial effusion, or large body habitus. but wrong. it appears it was the LAD and RCA dissections that caused diffuse OMI and and thus loss of voltage (and healthy myocardium?).
    thank you all.
    and excellent pix on the echos. mine are rarely so clear. thank you.

    ReplyDelete

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