Pacemaker: Difference between revisions

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[[Image:paced.gif|thumb| Atriale pacemakerspikes. Het signaal moet eerst nog door de AV knoop voordat het de ventrikels bereikt. De eerste slag is wel ventriculair gepaced.]]
|mainauthor= [[user:Drj|J.S.S.G. de Jong]]
[[Image:paced2.gif|thumb| Ventriculaire pacemakerspikes]]
|moderator= [[user:Drj|J.S.S.G. de jong]]
[[Image:Pacemaker2.jpg |thumb| VVI pacemakerritme]]
|supervisor=
Een pacemaker worden geïmplanteerd als de pulsvorming of pulsgeleiding van het hart gestoord is. '''Pacemakerritme''' is op het ECG te herkennen aan '''pacemakerspikes''': verticale lijntjes die de electrische pulsen van de pacemaker weergeven.  
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A pacemaker is indicated when electrical impulse conduction or formation is dangerously disturbed. The '''pacemaker rhythm''' can easily be recognized on the ECG. It shows '''pacemaker spikes''': vertical signals that represent the electrical activity of the pacemaker. Usually these spikes are more visible in unipolar than in bipolar pacing.


In het eerste voorbeeld rechts worden de atria gepaced, zodat het QRS pas volgt nadat het signaal door de AV-knoop vertraagd is. In het tweede voorbeeld worden de ventrikels direct gepaced. Aangezien dit vrijwel altijd in de rechter ventrikel gebeurd heeft het QRS complex een LBTB patroon.
In the first example, the atria are being paced, but not the ventricles, resulting in an '''atrial paced rhythm'''. Accordingly the ventricular complex is delayed until the atrial signal has passed through the AV node. In the second image the ventricles are paced directly, resulting in a '''ventricular paced rhythm'''. As ventricular pacing occurs exclusively in the right ventricle the ECG shows a left bundle branch block pattern. An exception to this rule is left ventricular pacing in patients with congenital anomalies and patients with surgically placed epicardial pacemakers. Another exception is septal or RVOT placement of the pacing lead, which results in a less widened to normal QRS complex.
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{|align="right"
|
[[Image:picture_pacemaker.jpg|thumb|A (used) DDDr pacemaker]]
[[Image:chest_xray_pacemaker.jpg |thumb| Chest x-ray of a patient with a pacemaker]]
[[Image:paced2.gif|thumb| Ventricular paced rhythm shows ventricular pacemaker spikes]]
[[Image:ddd_paced_12lead.jpg |thumb| DDD paced rhythm]]
[[Image:Pacemaker2.jpg |thumb| Atrial sensed, ventricular paced rhythm (tracking). Note the LBBB morphology with left axis deviation indicating the pacing lead in the right ventricular apex.]]
[[Image:DVA0838.jpg|thumb|Atrial paced rhythm]]
|}
==Pacemaker Coding==
Pacemakers can be categorized according to the NASPE coding system, that usually consists of 3-5 letters.  


Pacemakers worden vaak aangeduid met een NASPE code, die bestaat uit 3-5 letters.
{| class="wikitable" width="80%"
* De eerste letter geeft de kamer aan waarin '''gesensed''' wordt: O=geen, A=atrium, V=ventrikel, D=dual (atrium en / of ventrikel)
|+ '''The revised NASPE/BPEG generic code for antibradycardia pacing'''<cite>Bernstein</cite>
* De tweede letter de kamer aan waarin '''gepaced''' wordt: A=atrium, V=ventrikel, D=dual (atrium en / of ventrikel)
! I || II || III || IV || V
* De derde letter geeft de actie aan die volgt op de sense: O = geen, T = triggered, I = inhibited (als het hart zelf een slag maakt, doet de pacemaker niets) en D = dual (T + I).
|-
* De vierde letter geeft aan of de pacemaker een vaste frequentie heeft (O = none). Als de pacemaker 'intelligenter' is, dan staat er een R= rate modulation.
| Chamber(s) paced  || Chamber(s) sensed || Response to sensing || Rate modulation || Multisite pacing
* De vijfde letter geeft aan of de pacemaker in zowel het atrium als de rechter kamer kan pacen. Deze letter wordt zelden gebruikt.
|-
| 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)
|-
|}


Veel voorkomende typen pacemakers:
==Commonly Used Pacemakers==
* AAI: de pacemaker pacet in de boezem als het ritme daar te traag wordt
The most often used codes are:
* VVI: de pacemaker pacet in de kamer als het ritme daar te traag wordt
* '''AAI''': The atria are paced, when the intrinsic atrial rhythm falls below the pacemaker's threshold.
* DDD: de pacemaker detecteerd of er depolarisatie plaatsvindt in het atrium of de ventrikel en kan in beide compartimenten pacen
* '''VVI''': The ventricles are paced, when the intrinsic ventricular rhythm falls below the pacemaker's threshold.
* DDDR: zie boven, deze pacemaker kan ook lichameljke activiteit detecteren en de hartfrequentie aanpassen.
* '''VDD''': The pacemaker senses atrial and ventricular events, but can only pace the ventricle. This type of pacemaker is used in patients with a reliable sinus node, but with an AV-block.
* Biventriculaire pacemakers: leads in beide ventrikels om synchronie tussen de beide kamers te optimaliseren. Bijvoorbeeld bij een linker bundeltakblok of hartfalen. Dit is in het kader van CRT (cardiac resynchronisation therapy)
* '''DDD''': The pacemaker records both atrial and ventricular rates and can pace either chamber when needed.
* ICD (Internal cardioversion Device)(eventueel in combinatie met een pacemaker): Is in staat VT/Vfib te detecteren en eventueel te defibrileren
* '''DDDR''': As above, but the pacemaker has a sensor that records a demand for higher cardiac output and can adjust the heart rate accordingly.
 
* Biventricular pacemakers ('''CRT-P'''): Leads in both ventricles are present for synchronized contraction. The lead pacing the left ventricle is usually positioned in the coronary sinus. This cardiac resynchronization therapy can improve symptoms and survival in some heart failure patients. Several optimizing methods are being evaluated to find the most effective pacing delay between left and right ventricles. They include echocardiography, finding the narrowest QRS, and invasive hemodynamic measurements with pressure and flow wires.
==Externe Links==
* '''[[ICD]]''' (Internal Cardioversion Device): This device can detect and treat [[Ventricular Tachycardia]] and [[Ventricular Fibrillation]]. ICDs are a separate category and usually not considered pacemakers although they do have a pacing function. Usually the first treatment is anti-tachy pacing (pacing at a rate +- 10% above the ventricular rate in ventricular tachycardia, which can convert the rhythm to sinus rhythm). If this is not effective, a defibrillator shock is delivered, usually with 16-36 Joules of energy. ICDs can save lives in patients who have a high risk of ventricular arrhythmias. All ICDs have optional pacemaker activity to treat bradycardias. New biventricular ICDs have 3 leads: an atrial lead, a left ventricular lead and a right ventricular lead.
[http://www.hrsonline.org/swPositionStatementFiles/ps101036428.asp Heart Rhytm Society]
* Biventricular ICDs ('''CRT-D'''): an ICD with biventricular pacing option.
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==Pacemaker Indications==
A full list of pacemaker indications can be read in the ESC guidelines on cardiac pacing <cite>Vardas</cite>. A selection of class I indications is: chronic symptomatic third- or second degree (Mobitz I or II) atrioventricular block, syncope with sinus node disease, alternating bundle branch block, and persisting AV block after surgery.


===Atrial-sensed ventricular-paced rhythm===
===AV dual-paced rhythm===
[[Image:DVA0968.jpg|thumb|AV-sequencial paced rhythm]]
{{clr}}
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==Pacemaker Malfunction==


78. Atrial-paced rhythm
====Failure of appropriate capture, atrial====
[[Image:DVA0856.jpg|thumb|Failure of atrial capture in a patient with atrial standstill, no P waves are seen after the atrial stimuli]]
[[File:Atrial_capture_loss.svg|thumb|Loss of atrial capture]]
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79. Ventricular-paced rhythm
====Failure of appropriate capture, ventricular====
[[File:ECG000020.jpg|thumb|Failure of ventricular capture]]
[[File:Ventricular_noncapture.svg|thumb|Failure of ventricular capture]]
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80. Atrial-sensed ventricular-paced rhythm
====Failure of Appropriate Inhibition, Atrial====
Failure of appropiate inhibition results from atrial malsensing.  
[[File:atrial_malsensing.svg|thumb|Atrial malsensing. Atrial spikes are present right after spontaneous atrial activity.]]
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81. AV dual-paced rhythm
====Failure of Appropriate Inhibition, Ventricular====
[[File:Ventricular_undersensing.svg|thumb|Failure of Appropriate Ventricular Inhibition, ventricular undersensing]]
====Failure of Appropriate Pacemaker Firing====
[[File:Ventricular_oversensing.svg|thumb|Failure of appropiate ventricular firing due to ventricular oversensing]]
[[File:Atrial_malsensing.svg|thumb|Atrial malsensing]]
====Retrograde Atrial Activation====
====Pacemaker Mediated Tachycardia====
[[Image:DVA1225.jpg|thumb|Pacemaker Mediated Tachycardia, successfully terminated by withholding a ventricular pace, followed by an atrial pace]]
[[File:Pacemaker_mediated_tachycardia.svg|thumb|Pacemaker mediated tachycardia]]
[[File:Termination_of_pmt.svg|thumb|Termination of pacemaker mediated tachycardia]]


82. Failure of appropriate capture, atrial
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83. Failure of appropriate capture, ventricular
{{Box|
 
==External Links==
84. Failure of appropriate inhibition, atrial
[http://www.hrsonline.org/swPositionStatementFiles/ps101036428.asp Heart Rhytm Society]
 
}}{{clr}}{{Box|
85. Failure of appropriate inhibition, ventricular
==References==
 
<biblio>
86. Failure of appropriate pacemaker firing
#Vardas pmid=17726042
 
#Gregoratos pmid=12379588
87. Retrograde atrial activation
#Bernstein pmid=11916002
 
</biblio>
88. Pacemaker mediated tachycardia
}}
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[[Category:ECG Textbook]]

Latest revision as of 17:32, 24 June 2010

Author(s) J.S.S.G. de Jong
Moderator J.S.S.G. de jong
Supervisor
some notes about authorship


A pacemaker is indicated when electrical impulse conduction or formation is dangerously disturbed. The pacemaker rhythm can easily be recognized on the ECG. It shows pacemaker spikes: vertical signals that represent the electrical activity of the pacemaker. Usually these spikes are more visible in unipolar than in bipolar pacing.

In the first example, the atria are being paced, but not the ventricles, resulting in an atrial paced rhythm. Accordingly the ventricular complex is delayed until the atrial signal has passed through the AV node. In the second image the ventricles are paced directly, resulting in a ventricular paced rhythm. As ventricular pacing occurs exclusively in the right ventricle the ECG shows a left bundle branch block pattern. An exception to this rule is left ventricular pacing in patients with congenital anomalies and patients with surgically placed epicardial pacemakers. Another exception is septal or RVOT placement of the pacing lead, which results in a less widened to normal QRS complex.


A (used) DDDr pacemaker
Chest x-ray of a patient with a pacemaker
Ventricular paced rhythm shows ventricular pacemaker spikes
DDD paced rhythm
Atrial sensed, ventricular paced rhythm (tracking). Note the LBBB morphology with left axis deviation indicating the pacing lead in the right ventricular apex.
Atrial paced rhythm

Pacemaker Coding

Pacemakers can be categorized according to the NASPE coding system, that usually consists of 3-5 letters.

The revised NASPE/BPEG generic code for antibradycardia pacing[1]
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)

Commonly Used Pacemakers

The most often used codes are:

  • AAI: The atria are paced, when the intrinsic atrial rhythm falls below the pacemaker's threshold.
  • VVI: The ventricles are paced, when the intrinsic ventricular rhythm falls below the pacemaker's threshold.
  • VDD: The pacemaker senses atrial and ventricular events, but can only pace the ventricle. This type of pacemaker is used in patients with a reliable sinus node, but with an AV-block.
  • DDD: The pacemaker records both atrial and ventricular rates and can pace either chamber when needed.
  • DDDR: As above, but the pacemaker has a sensor that records a demand for higher cardiac output and can adjust the heart rate accordingly.
  • Biventricular pacemakers (CRT-P): Leads in both ventricles are present for synchronized contraction. The lead pacing the left ventricle is usually positioned in the coronary sinus. This cardiac resynchronization therapy can improve symptoms and survival in some heart failure patients. Several optimizing methods are being evaluated to find the most effective pacing delay between left and right ventricles. They include echocardiography, finding the narrowest QRS, and invasive hemodynamic measurements with pressure and flow wires.
  • ICD (Internal Cardioversion Device): This device can detect and treat Ventricular Tachycardia and Ventricular Fibrillation. ICDs are a separate category and usually not considered pacemakers although they do have a pacing function. Usually the first treatment is anti-tachy pacing (pacing at a rate +- 10% above the ventricular rate in ventricular tachycardia, which can convert the rhythm to sinus rhythm). If this is not effective, a defibrillator shock is delivered, usually with 16-36 Joules of energy. ICDs can save lives in patients who have a high risk of ventricular arrhythmias. All ICDs have optional pacemaker activity to treat bradycardias. New biventricular ICDs have 3 leads: an atrial lead, a left ventricular lead and a right ventricular lead.
  • Biventricular ICDs (CRT-D): an ICD with biventricular pacing option.


Pacemaker Indications

A full list of pacemaker indications can be read in the ESC guidelines on cardiac pacing [2]. A selection of class I indications is: chronic symptomatic third- or second degree (Mobitz I or II) atrioventricular block, syncope with sinus node disease, alternating bundle branch block, and persisting AV block after surgery.

Atrial-sensed ventricular-paced rhythm

AV dual-paced rhythm

AV-sequencial paced rhythm


Pacemaker Malfunction

Failure of appropriate capture, atrial

Failure of atrial capture in a patient with atrial standstill, no P waves are seen after the atrial stimuli
Loss of atrial capture


Failure of appropriate capture, ventricular

Failure of ventricular capture
Failure of ventricular capture


Failure of Appropriate Inhibition, Atrial

Failure of appropiate inhibition results from atrial malsensing.

Atrial malsensing. Atrial spikes are present right after spontaneous atrial activity.


Failure of Appropriate Inhibition, Ventricular

Failure of Appropriate Ventricular Inhibition, ventricular undersensing

Failure of Appropriate Pacemaker Firing

Failure of appropiate ventricular firing due to ventricular oversensing
Atrial malsensing

Retrograde Atrial Activation

Pacemaker Mediated Tachycardia

Pacemaker Mediated Tachycardia, successfully terminated by withholding a ventricular pace, followed by an atrial pace
Pacemaker mediated tachycardia
Termination of pacemaker mediated tachycardia



External Links

Heart Rhytm Society


References

  1. Bernstein AD, Daubert JC, Fletcher RD, Hayes DL, Lüderitz B, Reynolds DW, Schoenfeld MH, and Sutton R. 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. DOI:10.1046/j.1460-9592.2002.00260.x | PubMed ID:11916002 | HubMed [Bernstein]
  2. Vardas PE, Auricchio A, Blanc JJ, Daubert JC, Drexler H, Ector H, Gasparini M, Linde C, Morgado FB, Oto A, Sutton R, Trusz-Gluza M, European Society of Cardiology, and European Heart Rhythm Association. Guidelines for cardiac pacing and cardiac resynchronization therapy: The Task Force for Cardiac Pacing and Cardiac Resynchronization Therapy of the European Society of Cardiology. Developed in collaboration with the European Heart Rhythm Association. Eur Heart J. 2007 Sep;28(18):2256-95. DOI:10.1093/eurheartj/ehm305 | PubMed ID:17726042 | HubMed [Vardas]
  3. Gregoratos G, Abrams J, Epstein AE, Freedman RA, Hayes DL, Hlatky MA, Kerber RE, Naccarelli GV, Schoenfeld MH, Silka MJ, Winters SL, Gibbons RJ, Antman EM, Alpert JS, Gregoratos G, Hiratzka LF, Faxon DP, Jacobs AK, Fuster V, Smith SC Jr, and American College of Cardiology/American Heart Association Task Force on Practice Guidelines/North American Society for Pacing and Electrophysiology Committee to Update the 1998 Pacemaker Guidelines. ACC/AHA/NASPE 2002 guideline update for implantation of cardiac pacemakers and antiarrhythmia devices: summary article: a report of the American College of Cardiology/American Heart Association Task Force on Practice Guidelines (ACC/AHA/NASPE Committee to Update the 1998 Pacemaker Guidelines). Circulation. 2002 Oct 15;106(16):2145-61. DOI:10.1161/01.cir.0000035996.46455.09 | PubMed ID:12379588 | HubMed [Gregoratos]
All Medline abstracts: PubMed | HubMed