Pacemaker complication: Difference between revisions

Background

Nomenclature

Paced rhythm with characteristic wide LBBB and pacer spikes

PA Xray with pacemaker

Atrial Sensed Ventricular Paced ECG

Pacer type based on Xray

Indications

• Sinus Node Dysfunction-sinus bradycardia/arrest, sinoatrial block, chronotropic incompetence, a-fib.
• Acquired AV block- 3rd degree block and 2nd degree type II
• Chronic Bifascicular or Trifascicular block
• After Acute MI-high mortality with persistent AV block post MI
• Cardiac Resynchronization Therapy- Conduction delay (>150msec with mortality benefit) in chronic systolic heart failure further decreases EF, increases remodeling and increased MR.
• Neurocardiogenic Syncope and Carotid Sinus Syndrome

Methods to Identify Manufacturer

• Patient most often has a pocket card indicating manufacturer
• Manufacturer Hotline has patient database
  • Medtronic Inc. (1-800-328-2518)
  • St. Jude Medical Inc. (recently acquired by Abbott, Inc.) (1-800-722-3774)
  • Boston Scientific Inc. (1-800-227-3422)
• Magnet mode - with placement of a magnet over the device, the mode changes to asynchronous (i.e. DOO or VOO). Each brand has slightly different rates
  • Medtronic Inc.: 85 bpm; 65 bpm when battery is ready for replacement
  • St. Jude Medical Inc.: 98.6 bpm; 86.3 bpm when battery is ready for replacement
  • Boston Scientific Inc.: 100 bpm; 85 bpm when battery is ready for replacement
• Manufacturer code on pulse generator is visible on Chest Xray

Electromagnetic Interference

• Nonmedical
  • Cell phones: do not interact with device
  • Airport security: may trigger alarm, no alteration of activity
• Medical Sources
  • MRI: mostly safe, consult cards on device specific recs
  • Cardioversion: Use AP pads >8cm from device to minimize adverse effects
  • Unipolar Cautery - can cause sensing and pacing malfunction as well as reprogramming

Differential Diagnosis

Pacemaker Malfunction

Problems with pocket

• Infection
  • Most commonly S. aureus or S. epidermidis
  • 2% local wound infection; 1% sepsis/bacteremia
• Hematoma
  • Typically occurs shortly after placement

Problems with leads

• Dislodgment
• Perforation (most commonly at RV apex)
• Infection can cause severe sepsis
• Tricuspid regurgitation
• Coiling (ie: Twiddler's Syndrome)
  

  Twiddler Syndrome after large pocket and pacemaker wires spinning on themselves

Failure to Capture

• Delivery of pacing stimulus without depolarization
  • Functional - refractory myocardium, desensitized local tissue around the lead
  • Medical - drugs, myocardial disease, electrolytes
  • Technical - insufficient device output, lead dislodgment, fracture, insulation defect, ventricular wall perforation

Failure to Pace

• Failure to deliver a stimulus to the heart
  • Oversensing - most common cause: retrograde P’s, T’s, skeletal muscle myopotentials,
  • Crosstalk - type of oversensing where the ventricular lead senses atrial pacing stimulus, and ventilator output inhibited

Failure to Sense

• Normal function: a sensed myocardial depolarization greater than the programmed threshold causes inhibition of pacing
• Failure to sense results in a paced beat on top of an intrinsic beat (as the device is "unaware" of the intrinsic beat")
  • Voltages of patient's intrinsic QRS complex is too low to be detected
  • New intrinsic arrhythmia (AF has a smaller depolarization than sinus beat), AMI, electrolyte abnormalities, lead separation, battery depletion

Runaway Pacing

• Physiologic electrical activity (T waves, muscle potentials)
• External electromagnetic interference
• Signals generated by interaction of different portions of the pacing system
• Potentially life-threatening as it can cause V-Fib or (paradoxically) bradycardia due to failure to capture

Pacemaker Mediated Tachycardia

• Also known as Endless Loop Tachycardia
• Formation of a re-entrant circuit causing inappropriate tachycardia
  • Most commonly: paced ventricular beat -> retrograde AV node conduction -> intrinsic P wave -> device reacts to intrinsic P wave by looking for intrinsic QRS, but since AV node is now refractory it delivers a paced beat at the programmed P-R interval (typically ~200-250ms), starting the process anew
• Tachycardia does not exceed programmed upper limit rate on pacemaker

Evaluation

Work-Up

• BMP and Mg
• CXR
• ECG
• Troponin
• Interrogation
  • Each company has on-call representatives who will come interrogate a device 24/7 (phone numbers above)
  • Most cath labs will have machines capable of interrogating each brand

Expected ECG Patterns

• Absence of pacer artifact indicates intrinsic depolarization
  • With newer pacemakers, pacer spikes may not appear on some or all paced beats, depending on EKG machine
• Pacing artifacts preceding depolarizations indicate successful pacing and capture
• Leads in RV apex produce LBBB pattern with appropriate discordance
• New RBBB pattern may indicate lead in LV
• Simultaneous depol of ventricles produces dominant R wave in V1

Plain Film Findings

• Obtain PA/Lateral Films to confirm pulse generator, manufacturer, lead placement/number/integrity
• R atrial lead J shaped(tip medially on AP) entering right atrial appendage
• RV leads point downward with tip between left spine and cardiac apex--lateral XR shows inferior and anterior
• Coronary sinus lead- courses posteriorly on lateral XR
• Extra leads may be appropriately abandoned and capped
• ICD component appears as thickened shock coil

Management

• Pacemaker Mediated Tachycardia
  • Break with adenosine or magnet.^[2]
  • Consider chest wall stimulation techniques^[3] - transcutaneous pacing, isometric muscular exercise, precordial thump
• Electrophysiology or cardiology consult is often needed
• Contact a device representative for a full interrogation

Disposition

• Infection - admission with MRSA coverage antibiotics, consult to cardiology, with likely replacement of pacemaker after 4-6 weeks of IV antibiotics

See Also

• Medical device complications
• In-Training Exam Review

References