Pacemaker complication: Difference between revisions
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*Chronic Bifascicular or Trifascicular block | *Chronic Bifascicular or Trifascicular block | ||
*After Acute MI-high mortality with persistent AV block post MI | *After Acute MI-high mortality with persistent AV block post MI | ||
*Cardiac Resynchronization Therapy- Conduction delay (>150msec | *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 | *Neurocardiogenic Syncope and Carotid Sinus Syndrome | ||
===Methods to Identify Manufacturer=== | ===Methods to Identify Manufacturer=== | ||
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*Manufactuer code on pulse generator is visible on Chest Xray | *Manufactuer 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 contraindications|MRI]]: mostly safe, consult cards on device specific recs | ||
**Cardioversion: Use AP pads >8cm from device to minimize adverse effects | |||
==Pacemaker Malfunction== | ==Differential Diagnosis== | ||
===Problems with pocket=== | ===Pacemaker Malfunction=== | ||
====Problems with pocket==== | |||
*Infection | *Infection | ||
**Most commonly Staphylococcus aureus or S. epidermidis | **Most commonly Staphylococcus aureus or S. epidermidis | ||
**2% local wound infection; 1% sepsis/bacteremia | |||
*Hematoma | *Hematoma | ||
**Typically occurs shortly after placement | **Typically occurs shortly after placement | ||
===Problems with leads=== | ====Problems with leads==== | ||
*Lead separation | *Lead separation | ||
*Lead dislodgment may cause thrombosis or myocardial rupture | *Lead dislodgment may cause thrombosis or myocardial rupture | ||
*Lead infection can cause severe sepsis | *Lead infection can cause severe sepsis | ||
*Leads can cause tricuspid regurg, | *Leads can cause tricuspid regurg, diagnosis with TTE | ||
*Lead coiling (ie: Twiddler Syndrome) [[File:Twiddler Syndrome.png|thumb|Twiddler Syndrome after large pocket and pacemaker wires spinning on themselves]] | *Lead coiling (ie: [[Twiddler's Syndrome]]) [[File:Twiddler Syndrome.png|thumb|Twiddler Syndrome after large pocket and pacemaker wires spinning on themselves]] | ||
==Failure to Capture== | ===Failure to Capture=== | ||
*Def-delivery of pacing stimulus without depolarization | *Def-delivery of pacing stimulus without depolarization | ||
*Functional- myocardium in refractory state or tissue reaction around lead insensitive | *Functional- myocardium in refractory state or tissue reaction around lead insensitive | ||
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*Causes-lead dislodgement, fracture, perforation, insulation defect | *Causes-lead dislodgement, fracture, perforation, insulation defect | ||
==Failure to Pace== | ===Failure to Pace=== | ||
*Def-failure to deliver a stimulus to the heart ( | *Def-failure to deliver a stimulus to the heart (with or with out capture) | ||
*Oversensing-most common cause-retrograde P’s, T’s, skeletal muscle myopotentials, | *Oversensing-most common cause-retrograde P’s, T’s, skeletal muscle myopotentials, | ||
*Crosstalk- type of oversensing-vent lead senses atrial pacing stim, and | *Crosstalk- type of oversensing-vent lead senses atrial pacing stim, and ventilator output inhibited | ||
==Failure to Sense== | ===Failure to Sense=== | ||
*Signal sensed when myocardial depol sent up leads and into pacemaker, if voltage exceeds threshold, pacing inhibited(appropriately) | *Signal sensed when myocardial depol sent up leads and into pacemaker, if voltage exceeds threshold, pacing inhibited(appropriately) | ||
*Most commonly break in lead/insulation, battery | *Most commonly break in lead/insulation, battery | ||
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*External electromagnetic interference | *External electromagnetic interference | ||
*Signals generated by interaction of different portions of the pacing system | *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 | |||
*Tachycardia does not exceed programmed upper limit rate on pacemaker | |||
== | ==Evaluation== | ||
===Work-Up=== | ===Work-Up=== | ||
*CXR | *BMP and Mg | ||
*[[CXR]] | |||
*[[ECG]] | *[[ECG]] | ||
*Troponin | *[[Troponin]] | ||
*Interrogation | *Interrogation | ||
===Expected ECG Patterns=== | |||
*Absence of pacer artifact indicates intrinsic depolarization | |||
*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== | ==Management== | ||
*Pacemaker Mediated Tachycardia | *Pacemaker Mediated Tachycardia | ||
**Break with [[adenosine]] or magnet.<ref>EB Medicine- Sept 2014- Managing Pacemaker-Related Complications and Malfunctions in the Emergency Department </ref> | |||
**Consider chest wall stimulation techniques<ref>Barold SS, Falkoff MD, Ong LS, Heinle RA. Pacemaker endless loop tachycardia: termination by simple techniques other than magnet application. Am J Med. 1988;85(6):817-22.</ref> - transcutaneous pacing, isometric muscular exercise, precordial thump | |||
*Use magnet to convert pacemaker to asynchronous mode if oversensing or runaway pacing | *Use magnet to convert pacemaker to asynchronous mode if oversensing or runaway pacing | ||
== | ==Disposition== | ||
* | *Infection - admission with [[MRSA]] coverage antibiotics, consult to cardiology, with likely replacement of pacemaker after 4-6 weeks of IV antibiotics | ||
==See Also== | ==See Also== | ||
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==References== | ==References== | ||
<references/> | <references/> | ||
[[Category: | [[Category:Cardiology]] | ||
[[Category:Surgery]] |
Revision as of 16:03, 25 September 2019
Background
Nomenclature
I | II | III | IV | V |
---|---|---|---|---|
Chamber(s) paced | Chamber(s) sensed | Response to sensing | Rate modulation | Multisite pacing |
O = None | O = None | O = None | O = None | O = None |
A = Atrium | A = Atrium | T = Triggered | R = Rate modulation | A = Atrium |
V = Ventricle | V = Ventricle | I = Inhibited | V = Ventricle | |
D = Dual (A+V) | D = Dual (A+V) | D = Dual (T+I) | D = Dual (A+V) |
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
- Magnet types are specific to each model so use magnets to deactivate pulse generator
- Manufactuer Hotline has patient database
- Medtronic Inc. (1-800-328-2518)
- St. Jude Medical Inc. (1-800-722-3774)
- Manufactuer 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
Differential Diagnosis
Pacemaker Malfunction
Problems with pocket
- Infection
- Most commonly Staphylococcus aureus or S. epidermidis
- 2% local wound infection; 1% sepsis/bacteremia
- Hematoma
- Typically occurs shortly after placement
Problems with leads
- Lead separation
- Lead dislodgment may cause thrombosis or myocardial rupture
- Lead infection can cause severe sepsis
- Leads can cause tricuspid regurg, diagnosis with TTE
- Lead coiling (ie: Twiddler's Syndrome)
Failure to Capture
- Def-delivery of pacing stimulus without depolarization
- Functional- myocardium in refractory state or tissue reaction around lead insensitive
- Pathologic- drugs, myocardial disease, lytes
- Causes-lead dislodgement, fracture, perforation, insulation defect
Failure to Pace
- Def-failure to deliver a stimulus to the heart (with or with out capture)
- Oversensing-most common cause-retrograde P’s, T’s, skeletal muscle myopotentials,
- Crosstalk- type of oversensing-vent lead senses atrial pacing stim, and ventilator output inhibited
Failure to Sense
- Signal sensed when myocardial depol sent up leads and into pacemaker, if voltage exceeds threshold, pacing inhibited(appropriately)
- Most commonly break in lead/insulation, battery
- Voltages of patient's intrinsic QRS complex is too low to be detected
- New intrinsic arrhythmia, 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
- Tachycardia does not exceed programmed upper limit rate on pacemaker
Evaluation
Work-Up
Expected ECG Patterns
- Absence of pacer artifact indicates intrinsic depolarization
- 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
- Use magnet to convert pacemaker to asynchronous mode if oversensing or runaway pacing
Disposition
- Infection - admission with MRSA coverage antibiotics, consult to cardiology, with likely replacement of pacemaker after 4-6 weeks of IV antibiotics
See Also
References
- ↑ Bernstein AD. et al. The revised NASPE/BPEG generic code for antibradycardia, adaptive-rate, and multisite pacing. North American Society of Pacing and Electrophysiology/British Pacing and Electrophysiology Group. Pacing Clin Electrophysiol 2002 Feb; 25(2) 260-4. lmid:11916002
- ↑ EB Medicine- Sept 2014- Managing Pacemaker-Related Complications and Malfunctions in the Emergency Department
- ↑ Barold SS, Falkoff MD, Ong LS, Heinle RA. Pacemaker endless loop tachycardia: termination by simple techniques other than magnet application. Am J Med. 1988;85(6):817-22.