I offer this gem to the EKG enthusiasts out there to ponder. It's not every day we find a 12-lead EKG of this from a post-operative patient with an ischemic cardiomyopathy:
Definitely bigeminal rhythm. width and morphology suggest a RBBB, axis appears normal. Inverted T-waves in inferior and precordial leads suggestive of ischemia.
hmm. ugly, for sure! i don't think it's ashman's due to regularity; i'm inclined to go with a bigeminal junctional rhythm of sorts. as for VT, is the rate too slow to be considered VT?
hmm. i'm inclined to go with a bigeminal accelerated junctional rhythm. ashman's doesn't seem right due to the regularity of the rhythm...as for VT, isn't the rate too slow? just curious and my 2 cents.
Looks to me like bidirectional tachycardia. This is a regular rhythm, so cannot be atrial fibrillation. Ashmann's phenomenon happens mostly in atrial fib or with premature atrial contractions. It happens if a beat comes directly after a previous long R-R interval; the refractory period after this long R-R interval is prolonged, and so the next beat, though supraventricular (a fib or PAC), is aberrant. These are all wide and regular beats but with alternating axes.
Congrats to all of you who recognized the regular wide complex rhythm with alternating axes which define bidirectional ventricular tachycardia. (Yes, it truely is a regular rhythm - print it out to see).
Of interest, this patient was NOT on digoxin. Note that both QRS morphologies seen in this tachycardia have a RBBB morphology (predominant R wave in V1) suggesting this arrhythmia arose from the left ventricular chamber.
The mechanism of this arrhythmia is controversial. Many <a href="http://content.onlinejacc.org/cgi/content/full/54/13/1189>believe</a> the rhythm is an automatic or triggered arrhythmia from two locations in separate portions of the distal conduction system (e.g., the left anterior and left posterior fascicles). Reentrant mechanisms have been proposed as well but the usual inability to overdrive pace this arrhythmia makes many feel the arrhythmia is more likely a triggered phenomenon.
In this patient's case, these tracings were recorded after the patient was placed on dobutamine for reduced LVEF (estimated EF 24%) following a transmyocardial laser revascularization procedure via a thorocotomy approach. Discontinuation of dobutamine helped decrease the frquency of the arrhythmia, but did not completely control it. Low-dose beta blockers and (later) Amiodarone were eventually successful at maintaining sinus rhythm.
Hopefully this EP rotation has paid off... Is it Ashman phenomenon?
ReplyDeleteBi-directional VT = dig toxicity?
ReplyDeleteBI-directional VT concerning for dig toxicity
ReplyDeleteJunctional rhythm with bigeminy?
ReplyDeleteNice catch on all leads!! (of bidirectional VT..)
ReplyDeleteDefinitely bigeminal rhythm. width and morphology suggest a RBBB, axis appears normal. Inverted T-waves in inferior and precordial leads suggestive of ischemia.
ReplyDeletehmm. ugly, for sure! i don't think it's ashman's due to regularity; i'm inclined to go with a bigeminal junctional rhythm of sorts. as for VT, is the rate too slow to be considered VT?
ReplyDeletecan't wait to find out!
hmm. i'm inclined to go with a bigeminal accelerated junctional rhythm. ashman's doesn't seem right due to the regularity of the rhythm...as for VT, isn't the rate too slow? just curious and my 2 cents.
ReplyDeletecan't wait to find out the answer.
Bidirectional VT. Too old for Catecholaminergic Polymorphic Ventricular Tachycardia, so prob. digitalis toxicity or reentry?
ReplyDeleteNice catch in all leads! (of bidirectional VT..)
ReplyDeleteGonna say sinus rhythm RBBB rate around 100 using large block method with PVC's in bigeminny. I see P waves in lead I and AVF (zoom in)
ReplyDeleteLooks to me like bidirectional tachycardia. This is a regular rhythm, so cannot be atrial fibrillation. Ashmann's phenomenon happens mostly in atrial fib or with premature atrial contractions. It happens if a beat comes directly after a previous long R-R interval; the refractory period after this long R-R interval is prolonged, and so the next beat, though supraventricular (a fib or PAC), is aberrant. These are all wide and regular beats but with alternating axes.
ReplyDeleteSteve Smith of Dr. Smith's ECG Blog
By the way, I have posted another example of bidirectional tachycardia here: http://hqmeded-ecg.blogspot.com/search/label/bidirectional%20tachycardia
ReplyDeleteSteve Smith
Congrats to all of you who recognized the regular wide complex rhythm with alternating axes which define bidirectional ventricular tachycardia. (Yes, it truely is a regular rhythm - print it out to see).
ReplyDeleteOf interest, this patient was NOT on digoxin. Note that both QRS morphologies seen in this tachycardia have a RBBB morphology (predominant R wave in V1) suggesting this arrhythmia arose from the left ventricular chamber.
The mechanism of this arrhythmia is controversial. Many <a href="http://content.onlinejacc.org/cgi/content/full/54/13/1189>believe</a> the rhythm is an automatic or triggered arrhythmia from two locations in separate portions of the distal conduction system (e.g., the left anterior and left posterior fascicles). Reentrant mechanisms have been proposed as well but the usual inability to overdrive pace this arrhythmia makes many feel the arrhythmia is more likely a triggered phenomenon.
In this patient's case, these tracings were recorded after the patient was placed on dobutamine for reduced LVEF (estimated EF 24%) following a transmyocardial laser revascularization procedure via a thorocotomy approach. Discontinuation of dobutamine helped decrease the frquency of the arrhythmia, but did not completely control it. Low-dose beta blockers and (later) Amiodarone were eventually successful at maintaining sinus rhythm.