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Pacemaker Rhythm ECGs

Overview

pacemaker illustration

Learn to recognize pacemaker ECG. This page provides an introduction to pacemaker rhythms with lessons and drills.

Pacemakers create electrical impulses in the heart. Several types of pacemaker rhythm patterns may be seen:

  • Normal Single Chamber Pacemaker
  • Normal Dual Chamber Pacemaker
  • Failure to Sense
  • Failure to Pace
  • Failure to Capture

Pacemaker Rhythm Strips

pacemaker rhythm ECG tracing

Pacemaker Rhythms Categories

Normal Single Chamber Pacemaker

Normal Single Chamber Pacemaker ECG tracing

Failure to Capture

Failure to Capture ECG tracing

Here the ventricles fail to response to the pacemaker impulse: the pacemaker spike will appear on the tracing, but it will not be followed by a QRS complex.

Failure to Pace

Failure to Pace ECG tracing

If the pacemaker does not generate an electrical impulse when needed, failure to pace occurs. In this tracing the pacemaker spikes are missing.

Failure to Sense

When the pacemaker does not detect cardiac depolarization, failure to sense occurs. This can often be seen on an ECG tracing as a spike following a QRS complex too early.


Click To Begin Pacemakers Rhythms Training Module

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Lessons


Lesson #1: Rhythm Analysis 317


Intro

The five steps of rhythm analysis will be followed when analyzing any rhythm strip. Analyze each tracing in the following order.

  • Rhythm Regularity
  • Heart Rate
  • P wave morphology
  • P R interval or PRi
  • QRS complex duration and morphology

Step 1

Rhythm Regularity

ekg rhythm regularity
  • Carefully measure from the tip of one R wave to the next, from the beginning to the end of the tracing.
  • A rhythm is considered “regular or constant” when the distance apart is either the same or varies by 1 ½ small boxes or less from one R wave to the next R wave.

Step 2

Heart Rate Regular (Constant) Rhythms

regular ekg rhythm
  • The heart rate determination technique used will be the 1500 technique.
  • Starting at the beginning of the tracing through the end, measure from one R wave to the next R wave (ventricular assessment), then P wave to P wave (atrial assessment), then count the number of small boxes between each and divide that number into 1500. This technique will give you the most accurate heart rate when analyzing regular heart rhythms. You may include ½ of a small box i.e. 1500/37.5 = 40 bpm (don’t forget to round up or down if a portion of a beat is included in the answer).

Step 2-2

Heart Rate - Irregular Rhythms

irregular ekg rhythm
  • If the rhythm varies by two small boxes or more, the rhythm is considered “irregular”.
  • The heart rate determination technique used for irregular rhythms will be the “six-second technique”.
  • Simply count the number of cardiac complexes in six seconds and multiply by ten.

Step 3

P wave Morphology (shape)

ekg p wave tracing
  • Lead II is most commonly referenced in cardiac monitoring
  • In this training module, lead two will specifically be referenced unless otherwise specified.

Step 4

PR interval (PRi)

    PR interval regular
    Constant PR Interval

    PR interval irregular
    Variable PR Interval
  • Measurement of the PR interval reflects the amount of time from the beginning of atrial depolarization to the beginning of ventricular depolarization.
  • Plainly stated, this measurement is from the beginning of the P wave to the beginning of the QRS complex.
  • The normal range for PR interval is: 0.12 – 0.20 seconds (3 to 5 small boxes)
  • It is important that you measure each PR interval on the rhythm strip.
  • Some tracings do not have the same PRi measurement from one cardiac complex to the next. Sometimes there is a prolonging pattern, sometimes not.
  • If the PR intervals are variable, report them as variable, but note if a pattern is present or not.

Step 5

QRS complex

QRS Complex
  • QRS represents ventricular depolarization.
  • It is very important to analyze each QRS complex on the tracing and report the duration measurement and describe the shape (including any changes in shape).
  • As discussed in step 3, when referring to P waves, remember changes in the shape of the waveform can indicate the locus of stimulation has changed or a different conduction pathway was followed. It is no different when analyzing the QRS complex. The difference is that in step 3, we were looking at atrial activity. Now we are looking at ventricular activity.
  • Measure from the beginning to the end of ventricular depolarization.
  • The normal duration of the QRS complex is: 0.06 – 0.10 second

Close

  • The previous slides presented the five-steps of rhythm analysis. These five steps must be followed regardless of how simple of complex the tracing is you are reviewing.
  • The information gathered in these steps are telling a story.
  • The title of that story is the interpretation.



Lesson #2: Pacemaker Rhythms


Introduction Part 1

  • Rhythms are often named according to the source of the electrical activity in the heart or the structure where the problem is occurring.
  • Pacemaker Rhythms are aptly named due to the locus of stimulation coming from an artificial impulse generator called a pacemaker.
  • The most common pacemakers may deliver an electrical impulse to the right atrium, right ventricle or both.
  • Artificial pacemakers are often implanted as a result of either a failure of the higher (faster) pacemakers within the heart or an irregular rhythm resulting in decreased cardiac output.
  • Remember, the fastest electricity in the heart (regardless of location or source) will dictate the heart rate.

Introduction Part 2

  • Each rhythm in this category will share unique a morphologic feature which separate them from all other rhythms.
  • Pacemaker rhythms are identified by the presence of a conspicuous vertical mark known as a “spike”.
  • If the spike precedes the P wave, it is referred to as an Atrial Pacemaker rhythm.
  • If the spike precedes the ventricular depolarization, it is referred to as a Ventricular Pacemaker rhythm.
  • If there is a spike prior to the P wave and the ventricular depolarization, it is referred to as an AV (atrioventricular sequential) Pacemaker rhythm. Note: QRS complexes in Ventricular and Atrioventricular Pacemaker rhythms will have a wide, bizarre appearance (just like ventricular rhythms) and typically measure 0.12 seconds or greater.
  • After learning the unique features just described, it is simply a matter of recalling the unique feature and associating it with the corresponding waveform.

Introduction Part 3

  • During implantation, pacemakers are programmed by the physician to provide electrical impulses at a specific strength of impulse (enough to cause depolarization) and with a certain rate to maintain cardiac output within a specific normal range.
  • Many pacemakers also are programmed to “sense” the inherent electrical activity occurring within the heart, so the device only turns on when needed and does not compete with the patients own natural electrical activity.
  • Sensing capability is an important safety feature in pacemakers to ensure the electrical impulse provided by the pacemaker does not inadvertently occur during the vulnerable period of repolarization (relative refractory period).

Introduction Part 4

  • Unfortunately not all pacemakers work the way they should. According to Pub Med, an article titled “Complications related to permanent pacemaker therapy” (http://www.ncbi.nlm.nih.gov/pubmed/10353129): In a group of patients studied at Kuopio University Hospital, inadequate capture or sensing was observed in 7.4% of the patients.
  • A variety of problems can occur when is comes to pacemakers. The wire may not embed in the endocardium or pull out post-procedure, the device may oversense or undersense or fail to capture.



Lesson #3: Terminology 317


Part 1

  • Oversensing occurs when the device interprets non-cardiac sources of energy as being cardiac. This results in the device not turning on when it should.
  • Undersensing results in a device that doesn’t know when to turn off. This may result in pacemaker competition, a potentially dangerous situation (as discussed earlier).
  • Capture refers to when the device delivers an electrical impulse of sufficient strength to result in depolarization. The waveform immediately follows the pacing spike.
  • Loss or Failure to Capture may occur for a number of reasons, but commonly occurs when the generator is unable to deliver a sufficient amount of energy to cause depolarization. This may be due to the age of the batteries. This will result in a spike with no corresponding depolarization or a delayed depolarization of unusual morphology.

Part 2

Capture – notice the waveform immediately following the pacing spike.

pacemaker ecg image 102

Loss of Capture – notice the 4th and 7th complex morphology is different and the waveform does not immediately follow the pacing spike.

pacemaker ecg image 102b



Lesson #4: Atrial Pacemaker Rhythm


Description

  • This rhythm is easily identified by the conspicuous presence of a pacing spike immediately preceding the P wave.
  • Not all pacing spikes will look exactly the same. They may be below or above the isoelectric line or be partially above and below.
  • The PR interval is measured from the pacing spike to the beginning of ventricular depolarization.
pacemaker ecg image 103

Practice Strip

pacemaker ecg image 104

Analyze this tracing using the five steps of rhythm analysis.

Show Answer
  • Rhythm: Regular
  • Rate: 83
  • P Wave: upright and uniform with spikes
  • PR interval: 0.16 sec
  • QRS: 0.06 sec
  • Interpretation: Atrial Pacemaker Rhythm with 100% capture





Lesson #5: Ventricular Pacemaker Rhythm


Ventricular Pacemaker Rhythm

  • Ventricular pacemaker rhythm is easily identified by the conspicuous presence of a pacing spike immediately preceding the QRS complexes.
  • Sometimes there will be P waves in the tracing, sometimes there will not.
  • Follow the five-steps of rhythm analysis and document as always.
image P118 ventricular pace

Practice Strip

pacemaker ecg image ventricular

Analyze this tracing using the five steps of rhythm analysis

Show Answer
  • Rhythm: regular
  • Rate 83
  • P Wave: absent
  • The PR interval: n/a
  • QRS: 0.16 sec, wide and bizarre with spikes
  • Interpretation: Ventricular Pacemaker Rhythm with 100% capture





Lesson #6: Atrioventricular Pacemaker Rhythm


Atrioventricular Rhythm

  • This rhythm is easily identified by the conspicuous presence of a pacing spike immediately preceding the P waves and the QRS complexes.
  • The PR interval is measured from the atrial spike to the ventricular spike. This is also referred to as AV delay.
  • This “delay” is programmed by the physician during implantation to mimic the natural delay of the PR interval to facilitate the “atrial kick”.

Paced Rhythm Practice Strip

atrioventricular tracing question

Analyze this tracing using the five steps of rhythm analysis.

Show Answer
  • Rhythm: regular
  • Rate 88
  • P Wave: upright and uniform with spikes
  • PR interval: 0.18 sec
  • QRS: 0.16 sec, wide and bizarre with spikes
  • Interpretation: Atrioventricular (sequential) Pacemaker Rhythm





Lesson #7: Failure (Loss) to Capture


Description

  • When a pacemaker loses its ability to cause depolarization (capture), the inherent rhythm of the patient will become present within the tracing.
  • As mentioned earlier in this presentation you will note the presence of a pacing spike, but you will not see a waveform immediately following it.
  • You will likely see a delay after the spike, then the presence of some waveform of different morphology
pacemaker ecg image 109

Practice Strip

pacemaker ecg image 110

Analyze this tracing using the five steps of rhythm analysis.

Show Answer
  • Rhythm: Irregular
  • Rate: 80
  • P Wave: absent
  • PR interval: n/a
  • QRS: 0.14 sec, two non-captured complexes 0.16 sec, all wide and bizarre
  • Interpretation: Ventricular Pacemaker Rhythm with Loss of Capture





Lesson #8: Quiz Test Questions 317


Question #1

When analyzing a rhythm strip, it qualifies as being regular when

A. the QT intervals are the same
B. the PR interval measures the same
C. the QRS complexes measures the same
D. the R - R intervals measure the same




Question #2

Which of the following steps is not one of the five-steps of rhythm analysis?

A. PR interval measurement
B. Rhythm regularity
C. TP interval measurement
D. QRS complex measurement




Question #3

Which of the following is considered normal range of the QRS complex?

A. 0.12 - 0.20 minutes
B. 0.06 - 0.10 minutes
C. 0.12 - 0.20 seconds
D. 0.06 - 0.10 seconds




Question #4

Which of the following is considered normal range of the PR interval?

A. 0.12 - 0.20 minutes
B. 0.06 - 0.10 minutes
C. 0.12 - 0.20 seconds
D. 0.06 - 0.10 seconds




Training Resources

Pacemaker Rhythms Training

Use the button below to start our pacemaker rhythms module. This module focuses on the features and qualifying criteria of pacemaker rhythms and failures.

Pacemaker Rhythms



ECG Rhythm Tests

Selectg a quiz or drill that meets your learning objectives.

ECG Rhythm Tests

Authors and Reviewers


Sources




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