ATLANTA — Automated external defibrillators can be a lifesaver in sudden cardiac arrest, the No. 1 cause of death in young athletes, but planning, preparation, and education are essential.
“The single most important determinant of survival is the time from cardiac arrest to defibrillation,” Dr. Jonathan A. Drezner said at a press briefing held during a meeting of the National Athletic Trainers' Association.
Without CPR, survival decreases by 10% with every minute that passes without defibrillation, said Dr. Drezner of the University of Washington in Seattle.
Between 40% and 70% of people with sudden cardiac arrest (SCA) survive if treated with CPR and an automated external defibrillator (AED). In contrast, survival rates after SCA in young athletes are much lower, around 10%–15%. Possible explanations for this discrepancy include a delayed recognition of SCA and delayed defibrillation; only 25%–50% of schools have an AED.
To improve these outcomes, an interassociation task force, cochaired by Dr. Drezner and Ron Courson, director of sports medicine at the University of Georgia, Athens, has developed formal guidelines to help schools and other organizations prepare for SCA and to manage it should it occur.
The guidelines suggest that all collapsed and unresponsive athletes should be treated as if they have SCA until they demonstrate otherwise. The collapsed person should receive CPR until the AED arrives, though this wait should be as short as possible. The first shock from an AED should be applied within 3–5 minutes of the collapse.
This rapid response requires that the AED is easily accessible from every venue; that individuals know where it is and can retrieve it quickly; and that someone is trained in using the device.
“Our recommendation, consistent with the American Heart Association, supports an AED program in any school where the time from activating the emergency response system to the delivery of a shock will be greater than 5 minutes,” Dr. Drezner said.
All schools and institutions that sponsor athletic activities should have a written, structured emergency action plan specific to each venue, the guidelines state. Components of the plan should include communication, personnel, equipment, and transportation to an emergency facility. Additionally, all first responders should be trained in AED and CPR.
It is important that EMS personnel, school officials, and first responders are involved in the development of the plan, and that, just as with fire drills, these procedures are practiced by the individuals who would be involved in an actual incident.
The first responder should resume chest compressions immediately after the first shock. The guidelines recommend repeat rhythm analysis after 2 minutes or five cycles of CPR until advanced life support arrives or until the person begins moving.
SCA is relatively uncommon in the United States, with incidence rates between 1:50,000 and 1:200,000. However, when a child dies from SCA the impact can be catastrophic, affecting not only the child's family, but the entire school and community.
Complete prevention is difficult because in many cases, occult heart disease goes undetected with no signs or symptoms until the SCA occurs. Preparticipation screening is not likely to detect hypertrophic cardiomyopathy, the abnormality usually associated with SCA.
Moreover, SCA also can occur after a blow to the chest above the heart (commotio cordis). Although proper equipment can minimize the chance of this developing, a small risk remains.