Aed Guide
Review our AED steps – and find out how easy it can be to save a life. We've created a quick step-by-step guide that you can print up and place on your. Also includes a list of resources for more detailed guidance on the use of AEDs as well as how to obtain qualified training. Approximately 890 deaths from.
Price and Initial Cost: As with many items one buys, you get what you pay for. Typically the higher the price of an AED the better the reputation and the better the AED features. We view AEDs as a life-saving device and we seek the best reliability, ease-of-use and technology that money can buy B. AED features are important to our choice and we weigh these in the total value of our investment C. We have some budgetary restraints and manageable equipment cost is an important consideration D.
Budget is of primary concern and since we view all AEDs as similar we simply seek the most affordable AEDs 2. CPR Prompts: CPR is an integral part of a rescue and AEDs provide prompts which may include a CPR metronome or even more prompting. CPR prompts are very important and detailed real time coaching is a must as this is a vital stage in the rescue B. CPR prompts are a nice feature and a metronome would be a plus C. AEDs with voice prompts that says “begin CPR” are ample enough D. CPR prompts are not an important consideration for us in considering AED type 3.
Cost of Ownership: Beyond the initial investment in the AEDs, the purchase of batteries, pads and maintenance of the AED program need to be considered. Ease-of-use and technology of the AEDs are most important and we do not consider maintenance costs a factor B. Only a large cost of ownership difference would weigh into our decision otherwise this is not too important C.
It would be nice know that costs of batteries and pads are lower than the norm and this would add to our interest in the product D. Budget restraints make it essential to choose an AED type with a very low cost of ownership over the life of the AED 4. Ease-of-Use and Usability: Public Defibrillators are designed with simplicity in mind, but usability studies suggest that some brands/models are more straightforward and thus quicker to operate and deliver a shock. We seek a very easy-to-use device and value study findings to determine which is the fastest to deliver therapy B.
Ease-of-use and general simplicity are very important features that we will consider in the selection process C. All AEDs are quite straight forward and this is not a big consideration in our selection D. We are confident our staff can operate any device type and this is not important 5. Visual Prompts: All AEDs feature voice prompts but some provide better visual indicators and prompts than others such as diagrams, flashing lights, LCD screens, or text screens. Prominent visual prompts are a must due to the risk of noisy environments and the possibility of hearing impaired individuals to respond B.
Visual prompts would be a wanted feature to enhance the ease-of-use of the AED and this would factor in greatly C. Some visuals would be helpful but this is not a top consideration in our selection D. Voice prompts are sufficient for our application and visual prompts are not needed 6. Fully-Automatic vs. Semi-Automatic Shock Delivery: Fully-Automatic (delivers a shock without pushing a button) verses Semi-Automatic devices (require the pushing of a shock button). We strongly favor the Fully-Automatic devices to cut down on rescuer hesitancy and the need to make a decision B.
Fully-Automatic shock delivery would be a nice feature which might contribute to ease-of-use C. This is not a strong consideration and an AED with or without a shock button does not weigh in heavily D. We strongly prefer the Semi-Automatic AEDs so the rescuer can ensure nobody is touching the patient before pushing the shock button 7. Size, Shape and Weight: AEDs are sometimes stored in wall cabinets but other times are needed to be light and compact for better portability.
A small, compact, light device is a must since our application demands we carry this equipment frequently B. A lighter type AED would be preferred due to some mobile applications C. Size and weight is not a primary consideration for our selection of AED D. AEDs will be stored in cabinets and device size does not weigh into our choice at all 8. Ruggedness and Durability: Some applications, such as a first responder, might require more ruggedness out of the AED to withstand drops and rougher conditions. A tough-built AED that is shock tested and resilient to vibration is a top consideration due to our application B. It would be a plus for our AED to be able to withstand a drop and last over time C.
An AED with a protective carry case would be sufficient to protect our life-saving device D. AEDs will be housed in wall cabinets and durability does not weigh into our selection at all 9. Water and Dust Resiliency: An IP rating or an Ingress Protection Marking rates the level of protection to a wet or dusty environment.
Due to our specific application a high IP rating is a major consideration for the AED we select B. There may be times that resiliency to water and dust may come into play and therefore this would be a plus C. An average IP rating would be sufficient for what we need in an AED D. AEDs will be stored in cabinets and tolerance to these elements would not be a consideration for our selection 10. Reliability and Warranty: All AEDs do self-tests of components but some do more extensive and frequent testing. Also contributing to reliability is warranty which range from 5 – 10 years. We seek the most extensive daily testing in an AED to ensure the device is functional when we need it most B.
Knowing an AED is reliable therefore a good self-testing protocol is a plus as a consideration for our AED type C. We trust the AED will function when needed and this is not a primary factor in our choice D. Other considerations far outweigh the self-testing protocol of AEDs 11. Defibrillation Technology: An AED’s primary purpose is to deliver life-saving defibrillation therapy to a Sudden Cardiac Arrest victim. Each brand does so in a different manner. The way an AED delivers therapy is a top consideration and we seek a waveform that has been studied and used by Hospitals and Advanced Cardiac Life Support B.
It would be much preferred to know the AED works for hard to defibrillate patients C. Effectiveness of the AED is important but defibrillation technology is not a top consideration D. AEDs are all approved by the FDA and this is not determining factor for our choice in AEDs 12. Advanced ECG Functionality: Some AEDs have the capability to show the patient’s ECG rhythm which is an important feature for a medical professional or professional rescuer. Due to the advanced skill level of our rescuer/responders we require a device which can monitor and display ECG rhythm B. We do have some personnel who are able to understand and interpret ECG and thus this functionality would be a value-add C.
Though the advanced functionality may be helpful at times the cost of ECG capable devices might be cost prohibitive D. Our organization is primarily lay responders and thus this functionality is not needed, we seek a public defibrillator type versus a professional type 13. AED Program Management: An organization must ensure their life-saving AEDs are ready to save lives. Web-based readiness software helps to automate this.
We seek world class program management with wireless remote monitoring, software, and medical direction for complete compliance and mitigation of legal risk B. We aim to be completely compliant with state Good Samaritan laws C. We have interest in readiness software but not medical direction D. We intend to manage our readiness and compliance internally 14.
CPR/AED Training: To have a complete well-designed AED program requires both AED training and CPR Certification. We seek onsite CPR/AED training and certification for our employees and volunteers B. We have CPR/AED training in place and don't require a proposal Your Name (required) Your Email (required) Your Telephone Number (required) Your Message.
Why Do We Use AEDs? During SCA the heart stops suddenly and in 90 percent of the cases the heart goes into a fatal rhythm knows as ventricular fibrillation. The only treatment to correct ventricular fibrillation is to defibrillate by applying an electric shock to the heart. AEDs provide the public with access to defibrillators. They can be used on a victim of any age by people with no medical training. AED training is becoming more common in CPR & First Aid certification classes, CPR renewal classes as well as CPR instructor courses.
AED training may even be a requirement when new CPR guidelines are released in 2015. Brief History of AEDs Claude Beck, professor at Case Western Reserve University, is considered by many to be the godfather of defibrillation. In 1947 he successfully used an electrical shock to restore a normal rhythm to the heart of a 14 year old boy.
Professor John Anderson, founder of HeartSine Technologies, is credited with creating the first portable defibrillator in 1966 in Belfast. While this unit was portable it was nothing like the AEDs we see today, as it weighed 110 pounds and was charged by a car battery. It is unclear when exactly the first AED was invented, but it is suggested that Arch Diack, a surgeon out of Portland, Oregon, invented the first unit. Reports put 1980 as the probable year. AED Facts and Statistics.
AEDs are easy to use. AEDs can be used on adults, children and infants. AED usage within the first three minutes of SCA can increase survival rates over 80%. 383,000 out-of-hospital cardiac arrests annually in the U.S. 4 out of 5 cardiac arrests (88%) occur at home, so it’s likely that if you know CPR and have access to an AED you may save the life of a loved one. Less than 8% of people who suffer cardiac arrest outside of a hospital will survive.
Ventricular fibrillation (VF) is present in almost 90% of adult cardiac arrest; the only way to stop VF is with a defibrillator. The sooner an AED is used the more likely it will work. A SCA victim losses 7-10% chance at survival for every minute after SCA that an AED is not used. How do I get AED, CPR & First Aid Certification? AED and CPR is really easy to learn but many people aren’t sure where to get CPR classes that offer AED certification.
To get certified in AED contact a national training agency to locate and schedule a class with an instructor in your area. You may need to go to the instructor’s location or if you have a group, an Instructor can come to your location.
Nationally recognized training agencies that offer CPR Instructor courses include:. EMS Safety Services. American Heart Association. American Red Cross.
National Safety Council. Emergency Care and Safety Institute (ESCI). Health and Safety Institute (HSI) The typical AED and CPR course is about four hours long and requires skills practice and skills testing in order to receive certification. More thorough and reputable programs also require a written exam.
Where Do AED Guidelines Come From? Today, AED protocol is established from new CPR guidelines that come from a wealth of international resources.
A bi-annual conference of CPR-related authorities is held to gather and review research in order to identify what works to improve cardiac arrest outcomes. Every five years new CPR guidelines are released that are updated with the most favorable research and science is developed into new teaching materials and techniques for rescuers.
In 1992 the International Liaison Committee on Resuscitation (ILCOR) was formed to provide a forum for communication between principal resuscitation organizations worldwide. Current members of ILCOR include: v. American Heart Association (AHA).
Aed Guidelines Singapore
European Resuscitation Council (ERC). Heart & Stroke Foundation of Canada (HSFC). Australian and New Zealand Committee on Resuscitation (ANZCOR). Resuscitation Councils of South Africa (RSCA). Inter American Heart Foundation (IAHF).
Resuscitation Council of Asia (RCA). How To Use an AED: First, power on the AED. An AED can be used on an adult, child, or infant. Follow the AED prompts. Place the AED near the victim’s head and power on the unit. Some models require you to push a button to turn it on, while others turn on automatically when you lift the lid. Second, apply the AED pads.
Expose the chest and wipe it dry of any moisture. Apply the pads to the chest according to the pads.
Place one pad on the right side of the chest, just below the collarbone. Place the other pad on the lower left side of the chest. Connect the pads to the AED if they’re not already connected If there are two trained rescuers, one performs CPR while the other prepares the AED for use. The rescuer in charge of the AED will apply the pads around the hands of the person giving chest compressions.
Aed Guidelines 2017
Do not stop CPR while the AED is being readied for use. The AED will prompt you to stop CPR when it is ready to analyze the heart rhythm. Third, clear the victim and shock. It is critical that no one touches the victim or his clothing while the AED analyzes or delivers a shock.
When prompted by the AED to deliver a shock:. The AED user quickly looks up and down the entire victim to ensure no one is touching him and loudly states, “Everybody clear.”. The rescuer can now push the shock button. AED Use on Children For the purpose of AED use, a child is age 1-8, or weighs less than 55 lbs. An infant is less than 1 year old.
Children and infants require a lower level of energy to defibrillate the heart. Child victim: Use an AED with pediatric pads or equipment. If these are not available, use an AED with adult pads and settings. Infant victim: It’s best to use a manual defibrillator. If one is not available, use an AED with pediatric pads or equipment. If these are not available, use an AED with adult pads and settings. The Tools for AED.