Difference between revisions of "McGill Case 320"

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(Created page with "{{McGillcase| |previouspage= McGill Case 319 |previousname= McGill Case 319 |nextpage= McGill Case 321 |nextname= McGill Case 321 }} [[File:E321.jpg|thumb|600px|left|This is ...")
 
 
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[[File:E321.jpg|thumb|600px|left|This is a rhythm strip from a patient with a newly implanted ventricular lead. The patient also has an atrial lead. His pacemaker is a dual chamber DDD Medtronic pacemaker. A magnet was placed over the pacemaker in the middle of the recording.  
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[[File:E320.jpg|thumb|600px|left|This is a rhythm strip from a patient with a newly implanted ventricular lead. The patient also has an atrial lead. His pacemaker is a dual chamber DDD Medtronic pacemaker. A magnet was placed over the pacemaker in the middle of the recording.  
 
This recording shows an important aspect of magnet testing. First the magnet turns off the sensing circuit and makes the pacemaker pace in a DOO mode. Second there are first 3 A/V paced complexes at 100/min. This identifies the beginning of the magnet application, and also does a crude check on threshold by reducing the pulse width by 25% on the 3rd set of spikes. Most important though is that the A/V interval has been shortened to ensure that ventricular capture is seen. Not that in the following complexes the conduction of paced "p" wave captures the ventricle and makes it impossible to determine if there is capture. This is critical in this case both to ensure capture and perhaps more important, to ensure that the paced complex has a left bundle branch morphology confirming that the lead is in the right sided chambers.
 
This recording shows an important aspect of magnet testing. First the magnet turns off the sensing circuit and makes the pacemaker pace in a DOO mode. Second there are first 3 A/V paced complexes at 100/min. This identifies the beginning of the magnet application, and also does a crude check on threshold by reducing the pulse width by 25% on the 3rd set of spikes. Most important though is that the A/V interval has been shortened to ensure that ventricular capture is seen. Not that in the following complexes the conduction of paced "p" wave captures the ventricle and makes it impossible to determine if there is capture. This is critical in this case both to ensure capture and perhaps more important, to ensure that the paced complex has a left bundle branch morphology confirming that the lead is in the right sided chambers.
 
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Latest revision as of 09:59, 21 February 2012

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This case report is kindly provided by Michael Rosengarten from McGill and is part of the McGill Cases. These cases come from the McGill EKG World Encyclopedia.


Previous Case: McGill Case 319 | Next Case: McGill Case 321

This is a rhythm strip from a patient with a newly implanted ventricular lead. The patient also has an atrial lead. His pacemaker is a dual chamber DDD Medtronic pacemaker. A magnet was placed over the pacemaker in the middle of the recording. This recording shows an important aspect of magnet testing. First the magnet turns off the sensing circuit and makes the pacemaker pace in a DOO mode. Second there are first 3 A/V paced complexes at 100/min. This identifies the beginning of the magnet application, and also does a crude check on threshold by reducing the pulse width by 25% on the 3rd set of spikes. Most important though is that the A/V interval has been shortened to ensure that ventricular capture is seen. Not that in the following complexes the conduction of paced "p" wave captures the ventricle and makes it impossible to determine if there is capture. This is critical in this case both to ensure capture and perhaps more important, to ensure that the paced complex has a left bundle branch morphology confirming that the lead is in the right sided chambers.