Friday, June 19, 2015

Cardiac Arrest and ST Elevation: You Should Learn to Recognize This!

The following case was incredibly interesting for other reasons, but in order to maintain confidentiality and also to allow for a subsequent case report by the physicians caring for the patient, I limit the discussion to the ECG findings and their etiology.

A man was resuscitated from an Asystolic Cardiac Arrest with Epi, bicarb, and chest compressions.  He was in shock.  

Here was the initial 12-lead:
This is nearly pathognomonic of at least one condition.  What is it?












There is sinus rhythm with a prolonged QRS, right precordial ST elevation, and very peaked T-waves in V4-V6.   This is hyperkalemia until proven otherwise.

It is possible that the ST elevation is due to STEMI, but unlikely.

Hyperkalemia often produces a Brugada-like right precordial PseudoSTEMI pattern.

The pH was 6.65, with a K of 7.5 mEq/L.

Here are 7 other examples of PseudoSTEMI due to HyperK:
1. http://hqmeded-ecg.blogspot.com/2013/06/a-tragic-case-related-to-last-post.html
2. http://hqmeded-ecg.blogspot.com/2013/11/you-must-recognize-this-pattern-even-if.html
3. http://hqmeded-ecg.blogspot.com/2013/06/hyperkalemia-and-st-segment-elevation.html
4. http://hqmeded-ecg.blogspot.com/2013/06/this-ecg-is-pathognomonic-of-life.html
5. (there are 3 in this post): http://hqmeded-ecg.blogspot.com/2013/02/right-bundle-branch-block-with-st.html


There is remarkably little literature on ECG findings in severe acidosis.
Here is a case in which one patient had 2 cardiac arrests on separate dates, both due to cocaine use, and both with severe acidosis and a bizarre Brugada-like ECG. 



He was given Calcium, bicarbonate, and Insulin


This ECG was recorded 30 minutes after the first:
Same findings, but less pronounced, and slower rate

The pH at this point was 6.80, with a K of 6.2 mEq/L.  More Calcium and Bicarb were given.



At 1 hour, with a pH of 6.95 and K of 7.2 (difficult to control), another ECG was recorded:
Similar

12 comments:

  1. I am not that good, but i think the first EKG is irregular,

    ReplyDelete
  2. Hey Steve thanks for the great case! Hyper K is the syphilis of EKGs. Steve was this PTs hyper K due to shock and acidosis exclusively? Also what caused the shock? Thanks!

    ReplyDelete
    Replies
    1. This comment has been removed by the author.

      Delete
    2. To give the cause of the shock and acidosis might reveal the patient's identity, so I cannot give it. I will say it was toxic.

      Delete
  3. Is there a correlation between the potassium level and heart rate? It appears that it speeds up as the potassium rises, seems like it would be the other way around.

    ReplyDelete
    Replies
    1. In such a criticlly ill patient, there are too many variables to predict the response to hyperK.
      Steve Smith

      Delete
  4. It looks like the T wave is peaked because of a buried p wave.

    ReplyDelete
    Replies
    1. I'm not exactly sure what bump you are referring to, but you may be right. But hyperK usually flattens P-waves do where they may be invisible, even though the sinus is still driving the rate

      Delete
  5. Did the patient survive? there seems to be an ongoing hyperkalemia despite improving ABG, which is ominous..

    ReplyDelete
    Replies
    1. Marco,
      you are correct. It is ominous and the patient did not survive.
      Steve

      Delete
  6. Hi Steve, are these changes purely due to the high K?

    These changes are not what I'm looking for with hyper k. Was calcium okay?

    ReplyDelete
    Replies
    1. Wayne, there may be some contribution of acidosis, but hyperK alone can do this.
      Steve

      Delete

DEAR READER: I have loved receiving your comments, but I am no longer able to moderate them. Since the vast majority are SPAM, I need to moderate them all. Therefore, comments will rarely be published any more. So Sorry.