Hamburger

Call: 1-202-476-5000

 
Electrophysiology (Heart Rhythm Team)
Conditions & Treatments
Meet Our Team
Locations
Resources for Families
Contact Information
Request an Appointment
Best Children's Hospitals
 
 
Email This Page
Print This Page
 
 

Tests and Services

Pacemaker and Defibrillator Implantation


Children’s National’s interventional electrophysiology team developed and perfected techniques for transvenous pacemaker and defibrillator implantation in children. The team has been on the cutting edge for extracting broken pacing leads using laser techniques.

What is a permanent pacemaker?
A permanent pacemaker is a small device that is implanted under the skin and sends electrical signals to start or regulate a slow heartbeat. A permanent pacemaker may be used to make the heart beat if the heart's natural pacemaker (the sinoatrial or SA node) is not functioning properly, and has developed an abnormal heart rate or rhythm, or if the electrical pathways are blocked. Pacemakers are typically used for slow arrhythmias such as sinus bradycardia, sick sinus syndrome, or heart block.

In infants and young children pacemakers are usually placed in the abdomen. The wires that connect the pacemaker to the heart are placed on the outside surface of the heart. This position is beneficial because the fat in the abdomen protects the pacemaker and pacemaker wires from injury that might occur during everyday childhood activities such as climbing and falling.

School-aged children and adolescents may have the pacemaker placed in the shoulder area, just under the collarbone. The pacemaker wires are often placed inside the subclavian vein, a large vein that connects to the superior vena cava and right atrium, and then guided inside the heart.

What is an implantable cardioverter defibrillator (ICD)?
An ICD is a small device, slightly larger than a pacemaker, that is implanted under the skin, often in the shoulder area, just under the collarbone. In infants and small children ICDs are placed in the abdomen and the wires are connected to the outside surface of the heart, as described above for pacemakers. An ICD senses the rate of the heartbeat. When the heart rate exceeds a rate programmed into the device the ICD delivers a small, electrical shock to the heart to slow the heart rate. ICDs can also function as a pacemaker by delivering an electrical signal to regulate a heart rate that is too slow. ICDs are typically used for fast arrhythmias such as ventricular tachycardia or ventricular fibrillation.

When is a pacemaker or an ICD needed?
When the heart's natural pacemaker has a dysfunction the signals it sends out may become erratic: too slow, too fast, or too irregular, to stimulate adequate contractions of the heart chambers. When the heartbeat becomes erratic it is referred to as an arrhythmia (an abnormal rhythm of the heart, which can cause the heart to pump less effectively).

Arrhythmias can cause problems with contractions of the heart chambers by:

  • Not allowing the chambers to fill with an adequate amount of blood because the electrical signal is causing the heart to pump too fast.
  • Not allowing a sufficient amount of blood to be pumped out to the body because the electrical signal is causing the heart to pump too slow or too irregularly.
The American Heart Association has established guidelines for the indications for placing pacemakers or ICDs in children. In general, the indications are thought of as the following:
  1. Class I – very definite evidence that the patient needs a pacemaker or ICD
  2. Class II – most doctors agree that having a pacemaker or ICD would be beneficial
  3. Class III – most doctors agree that a pacemaker or ICD would not be beneficial
What are indications for ICDs in children?
There are three indications for placing ICDS in children. They are:
What are the components of a permanent pacemaker/ICD?
A permanent pacemaker or ICD has two components, including the following:

  • A pulse generator which has a sealed lithium battery and an electronic circuitry package. The pulse generator produces the electrical signals that make the heart beat. The pulse generators also have the capability to receive and respond to signals that are sent by the heart itself.
  • One or multiple wires (also called leads). Leads are insulated, flexible wires that conduct electrical signals to the heart from the pulse generator. The leads may also relay signals from the heart to the pulse generator. One end of the lead is attached to the pulse generator and the electrode end of the lead is positioned in the atrium (the upper chamber of the heart) or in the ventricle (the lower chamber of the heart).
Pacemaker leads may be positioned in the atrium, ventricle, or both, depending on the condition requiring the pacemaker to be inserted.
Pacemakers that pace either the right atrium or the right ventricle are called "single-chamber" pacemakers (Figure 1). Pacemakers that pace both the right atrium and right ventricle of the heart and require two pacing leads are called dual-chamber pacemakers (Figure 2). Pacemakers that pace both the right and left ventricle are called “bi-ventricular” pacemakers.



How is a pacemaker/ICD implanted?

Pacemaker/ICD insertion is done in the hospital, either in the operating room or the cardiac catheterization laboratory. The child is under general anesthesia during the procedure.
In older children and teenagers who receive a transvenous pacemaker (Figure 3), a small incision is made just under the collarbone. The pacemaker/ICD lead(s) is inserted into the heart through a blood vessel which runs under the collarbone. This procedure is usually performed in the catheterization laboratory. Once the procedure has been completed, the child goes through a recovery period of several hours and usually stays in the hospital for 48 hours.

In younger children, the pacemaker may be placed into the abdomen through a small incision. A second incision is made in the chest to visualize the heart. The lead(s) are guided to the heart and then placed on the heart's surface. This procedure is performed in the operating room. Once the procedure has been completed, the child goes through a recovery period of several hours and often is ready to go home 1-2 days after the procedure.

Patients who have a pacemaker or ICD placed will be seen for a follow-up visit and wound check 1-2 weeks after discharge from the hospital. Another visit is usually scheduled for 1 month after the procedure and the pacemaker/ICD will be checked again. After the post-operative period, patients are routinely seen by an Electrophysiologist and Pacemaker Nurse every 6 months if they have a pacemaker and every 4 months if they an ICD. You will not be allowed to have the wound soak in water (i.e., go swimming or take a tub bath) for 1 month or until the wound completely heals. For patients that have a transvenous pacemaker or ICD implanted in the upper chest, we recommend not raising the arm above the shoulder level also for 1 month after the surgery.

After receiving a pacemaker or ICD, you will receive an identification card from the manufacturer that includes information about your child's specific model of pacemaker and the serial number. You should carry this card with you at all times so that the information is always available to any healthcare professional who may have reason to examine and/or treat your child. A medical identification bracelet or necklace can also be worn by your child to alert others about the pacemaker or ICD in case of emergency.

Frequently Asked Questions.

Pacemaker and Defibrillator Implantation - Departments & Programs - Children's National Medical Center