A public safety essential
AEDs can make all the difference between life and death in an emergency. In fact, a cardiac arrest victim’s chance of survival decreases by 7 to 10% for every minute without defibrillation.* By placing AEDs in visible areas and key locations around your organization, you increase public safety for everyone on site.
Intuitive lifesaving in action
Nearly anyone can use an AED to save a life. Our highly intuitive Stryker devices provide clear, simple guidance to ensure proper use by nearly any bystander. Plus, we provide training for your employees so they are ready to respond with fast, effective lifesaving intervention while EMS teams are on the way.
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Whether you need one AED in your community center, five for your school campus, or 1500 across your global enterprise, we’ll work with you to find the products and programs that best meet your needs.find the right AED
About sudden cardiac arrest (SCA)
About sudden cardiac arrest
Understand the differences between a heart attack and sudden cardiac arrest and the best treatment for each.
Importance of public access defibrillation
Learn why public access defibrillation is more important than ever.
The chain of survival
Having an AED on site and knowing CPR are so important that the American Heart Association includes both in their chain of survival.
Frequently asked questions
What is an AED?
AEDs, or automated external defibrillators, are small electronic devices that were designed to allow minimally-trained people to provide lifesaving defibrillation (electric shock to the heart) to victims of sudden cardiac arrest.
Unlike many of the defibrillators seen on medical TV shows, AEDs are small, lightweight and very easy to operate. Many are about the size of a lunch box and have adhesive electrode pads that rescuers attach to the person's chest.
An AED is very simple to use yet houses the same sophisticated defibrillation technology relied on by emergency medical services personnel and physicians.
How does an AED work?
An AED is programmed to tell rescuers exactly what to do using voice and visual prompts. Rescuers attach adhesive electrode pads to the person's chest. Through these electrodes, the AED is designed to automatically analyze the electrical activity of the heart to determine if a "shockable" rhythm is present. An AED is so easy to use even untrained school children can operate one quickly and correctly.1
With voice prompts and pictures, the AED guides rescuers through the resuscitation process, advising when to give CPR. If the AED determines the person's heart needs a shock, it tells rescuers to stand back so a shock can be safely given through the adhesive electrode pads affixed to the person's chest. (Note: Some AED models will tell the user to push a button to shock and then ‘stand clear’ of the victim, while others are fully automatic and will automatically give the shock after giving rescuers a 'stand clear' warning.)
The delivery of an electrical shock to a heart experiencing SCA briefly stops all electrical activity in the heart. This brief break from the previous electrical chaos can be enough for the heart to restart with a normal rhythm.
Not everyone can be saved from SCA, even with defibrillation. But early defibrillation, especially when delivered within three to five minutes of a person's collapse from SCA, does provide the best chance for survival.
1. Gundry, J., et al. 1999. Comparison of naïve sixth-grade children with trained professionals in the use of an automated external defibrillator. Circulation 100: 1703-7.
Who can use an AED?
Anyone who has minimal CPR and AED training can use an AED to help save a life.
Many people around the world are trained, including police and security officers, firefighters, athletic trainers, flight attendants and lifeguards. Newly-developed AEDs such as the LIFEPAK CR Plus AED offer greater ease of use and can be found in schools, health clubs, community centers, religious communities, homes and many other locations. AEDs are designed to help people with minimal training use them safely in tense, emergency situations. They have numerous built-in safeguards and are designed to deliver a shock only if the AED detects one or more shocks are necessary.
Their ease of use and built-in safety mechanisms make AEDs suitable for use in community or company-wide programs.
Why purchase an AED?
Having an AED close by can mean the difference between life and death for a victim of SCA.
Time to the first defibrillation shock is the most critical factor in determining survival rates for SCA. With every minute that goes by, survival rates drop up to 10 percent.1 That leaves a window of 10 minutes in which to potentially save a life, after which few rescue attempts succeed.2
Currently more than 92 percent of SCA victims die because defibrillation isn't available soon enough.3 Although CPR is essential to maintaining blood flow to the brain and other parts of the body, defibrillation is the single most effective treatment for SCA. Time is of the essence because brain death and permanent death begin in 4 to 6 minutes.4
The American Heart Association recommends defibrillation within five minutes or less of collapse. Unfortunately, it takes emergency medical services teams, on average, six to 12 minutes to arrive.5 Time to defibrillation, the most critical factor in sudden cardiac arrest (SCA) survival, can be reduced if an AED is on-site and can be brought to the victim quickly. This is one of the reasons survival rates improve in communities with active AED programs. Remember, every minute that passes before defibrillation reduces survival rates by 7 to 10 percent.
Our goal is to improve SCA survival rates. On-site AEDs can make the difference.
1. Cummins, R.O. 1989. From concept to standard-of-care? Review of the clinical experience with automated external defibrillators. Annals of Emergency Medicine 18: 1269-75.
2. “About Sudden Death and Cardiac Arrest,” American Heart Association Web site, May 2007.
3. “About Sudden Death and Cardiac Arrest,” American Heart Association Web site, May 2007.
4. “About Sudden Death and Cardiac Arrest,” American Heart Association Web site, May 2007.
5. Physio-Control review of clinical literature, May 2007
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