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Dawn's picture

ECG Basics: Pacemaker Failure to Capture

This ECG is taken from a patient with an implanted pacemaker who was experiencing near-syncope.  She was taken to the hospital by EMS, where the pacemaker was adjusted to obtain ventricular capture.  This ECG did not have a Lead II rhythm strip, so the 12-lead ECG is being presented.  The P waves have been marked with a "P", pacemaker spikes marked with an arrow, and the QRS complexes marked with a "J" because they are junctional.  Because we can see 12 leads, or viewpoints, the morphology of the P waves and QRS complexes changes each time the machine switches to a new lead.

The underlying rhythm is sinus, with nearly regular P waves occuring at a rate of about 72 beats per minute.  The QRS complexes are also regular, but they are dissociated from the P waves.  Because the rate is near or just under 40 bpm, and the QRS complexes are narrow, this represents a slow junctional rhythm.  Because both atrial and ventricular rhythms are regular, but not associated with each other, an interpretation of complete heart block (third-degree AV block) can be made.  This explains why the patient had a pacemaker implanted.

The pacer spikes, for the most part, track the P waves, which is how this pacemaker is programmed.  They are not followed by a paced QRS complex, however.  This is failure to capture.  The second and fourth P waves did not stimulate a pacer spike because of their proximity to the T wave of the junctional beat.  The mA (energy setting) was adjusted in the Emergency Dept., and the pacemaker did not require repositioning.  The patient regained a reliable paced rhythm.

This section of the ECG Guru is meant to be for your basic students.  Pacemakers now have become very complex, with many options and variable settings.  So complex, that I would not feel comfortable getting into any more detail than I have here (although visitors to the site are welcome to).  It is important that, if you deal with patients in an emergency setting, you do not tell the patient that "something is wrong with their pacemaker" until it has been evaluated by a qualified person who can electronically interrogate the device.  It can be very difficult to determine from an ECG how a pacemaker is programmed, and how it should be reacting.  Since this patient had symptoms related to the bradycardia, and since pacemaker spikes occurred free of any refractory period and did not produce QRS complexes, it is safe to say there needs to be an adjustment.

In an emergency, with serious symptoms present, a transcutaneous or transvenous temporary pacemaker can be used.  Medications such as Atropine, epinephrine, and norepinephrine are also used, depending upon the type of AV block and the resources available.

 

Dawn's picture

Inferior Wall M.I. With Junctional Rhythm

We do not have a patient history for this ECG, other than that it was an 81-year-old woman with chest pain.  The classic signs of acute ST-elevation inferior wall M.I. are there:  ST segment elevations in Leads II, III, and aVF.  There are the expected reciprocal ST depressions in Leads I and aVL.   The ST depression in V2 suggests posterior wall injury, and would normally be seen in V1 as well, unless something else is causing ST elevation in V1 at the same time.  That "something" would be right ventricular injury, and it can be confirmed by performing a V4Rt (or full set of right-sided V leads).  The slight elevation in V3 and V4 don't seem to "fit" with the IWMI - one might expect V5 and V6 to have ST elevation, reflecting injury in the low lateral wall.  We don't have the cath lab results, so we do not have an explanation for this (lead placement issues, perhaps?).

The rhythm here is interesting, but not unexpected with IWMI.  The rhythm is junctional, as reflected by the regular, narrow QRS complexes at a rate of about 54/min.  IWMI often causes blocks of the AV node, which has the same blood supply as the inferior wall in most people.  Even though there appear to be some "PR intervals", they are not consistent, and also do not meet the criteria for second-degree AVB Type I, so we are left with an interpretation of complete heart block.  The P waves here are also inconsistent.  They are regular at times, then disappear.  The SA node can be affected in IWMI also, and develop rate irregularities and exit blocks.  The IMPORTANT thing to consider is how the patient is handling the rate.  If this rate is not causing perfusion problems, that is - the patient has enough rate to maintain her blood pressure and level of consciousness, the rate is not harmful, and the junctional rhythm is not harmful.  In fact, one could argue that this junctional rhythm is more beneficial to the injured heart than a faster sinus rate would be.

Dawn's picture

ECG Basics: Sinus Rhythm With Complete AV Block and Ventricular Escape Rhythm

This rhythm strip shows a good example of complete (third-degree) AV block with ventricular escape rhythm.  It will be easy for your basic students to "march out" the P waves.  They are regular at a rate of about 88/min., and they are either visible, or are "hiding" in the QRS complex.  The ventricular rhythm is wide and very slow, and completely dissociated from the sinus rhythm.

For your more advanced students, you may want to discuss the likely origin or "level" of the block.  Blocks above the Bundle of His can have JUNCTIONAL escape rhythms, while blocks that occur below the Bundle of His generally have ventricular escape rhythms.  Ask your students which type of CHB they would prefer to have:  suprahisian or subhisian - and why?

Dawn's picture

Inferior Wall M.I. With Third-degree AV Block

This ECG was obtained from an elderly woman who suffered a complete right coronary artery occlusion and inferior wall M.I.  In her case, the AV node was also affected, and she developed a third-degree AV block with a junctional escape rhythm.  A good ECG for ACLS classes as well as for ECG classes.  A lively discussion can be had regarding "types" of complete heart block and the nature of the escape rhythm - when to treat and when to leave the rhythm alone.  In this case the rate of the junctional escape rhythm was adequate for perfusion, and the patient's blood pressure was stable. Priority for treatment in this situation is restore blood flow through the coronary artery, if the patient is a candidate for PCI.  You might want to review Christopher Watford's contribution to the Ask the Expert page on AVB vs. AV Dissociation.

Dawn's picture

Third-degree AV Block (Complete Heart Block)

This 84-year-old man called 911 because he felt dizzy and fell.  He was not injured in the fall, but the paramedics noted a slow pulse. He denied significant medical history. The initial ECG showed sinus rhythm at about 80 bpm and AV dissociation with an apparent acellerated idioventricular rhythm at about 40 bpm.  Less than one minute later, he has developed a complete heart block with an idioventricular escape rhythm less than 30 bpm.  The escape rhythm speeds slightly toward the end of the strip.  He retained stable vital signs and adequate perfusion during transport.  It is presumed that he was scheduled for an implanted pacemaker.  It is interesting to note the machine's interpretation, and it reminds us to always interpret the ECG ourselves.   Thanks to ECG Guru member, Sebmedic, for his contribution of this ECG. 

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