Thursday, 18 December 2014

Community Heartbeat Trust in conjunction with East of England Ambulance Service install 132 Lifeline VIEW AEDs across Norfolk in new campaign

Watch the video here:

http://www.mustardtv.co.uk/browse/family-funds-lifesaving-equipment-in-norwich-after-fathers-heart-attack-tragedy/#.VIn02nlfZLM.twitter

Community Heartbeat Trust have been working in conjunction with Ambulance Services all across the UK to install automaticexternal defibrillators (AED) in as many public places as possible. The latest project, involving the East of England Ambulance Service, has seen 132 defibrillators installed all across Norfolk.

Sudden cardiac arrest (SCA) has survival rates as low as 5% if no electrical shock is provided to stimulate the heart. The minutes after an attack are critical to improve the chances of the patient surviving and for every minute that passes, survival rates decrease by 10%.  

This latest initiative comes on the back of the death of former policeman Peter Harris on the 8th December 2012, who collapsed and died of a heart attack whilst out Christmas shopping with his family in Norwich. Peter was only 56 years old at the time of his death and his family are now campaigning to have a defibrillator installed in as many public places as possible.

East of England ambulance service Community Partnership Manager Andrew Barlow commented that, “if we have a defibrillator readily available that can be here within the first 2 to 3 minutes, then survival rates are going to increase by 10% for every minute that that defibrillator is there prior to the arrival of the ambulance.”

Despite the efforts of an off-duty nurse, paramedic and ambulance crew, Mr Harris was pronounced dead at hospital and at the time of his death, the nearest defibrillator was in Bethel Street police station. 

His daughter, Laura Albon, is now hoping to become a trainer to support this aim and it was the money raised from Mr Harris’ funeral that helped to fund the installation in Norwich.

Community Heartbeat Trust chose the Defibtech Lifeline VIEW AED due to the fact that it is that simple to use, with a full colour motion video screen to guide non-medically trained personnel through a rescue.  The Lifeline VIEW AED is a semi-automatic external defibrillator. Once the user has placed the pads on the patient the unit will check to see if defibrillation is needed and if required the shock button will flash and the unit will prompt the user to press the button.

The Lifeline VIEW AED is the ideal choice for non-medical people and organisations looking for a simple to use defibrillator that can be effectively deployed by anyone irrespective of whether or not they have been trained to use a defibrillator, due to the advanced CPR coaching features the VIEW offers through the video screen technology.

The maintenance is minimal with daily self-tests and a bright status indicator light and the kit is future proof with free software upgrades when resuscitation guidelines change. Most other manufacturers charge for this service. This no hassle approach is backed up with an 8 year warranty on the AED.   

In addition to the Lifeline VIEW AED semi-automatic defibrillator the Defibtech range of non-professional defibrillators includes the Lifeline AED and the Lifeline AUTO fully-automatic in addition to the medical professional’s market defibrillators Lifeline ECG and the Lifeline PRO.

Thursday, 27 February 2014

#didyouknow - 25 Facts About the Heart

As it's National Heart Month, we thought we would give you some facts about the Heart, the most important organ in the human body, which you may not have known!


  •  An average adult heart beats 72 times a minute, 100,000 times a day, 3,600,000 times a year and 2.5 billion times during a lifetime!
  •  Even though the heart only weighs 11 ounces on average, it pumps 2,000 gallons of blood through 60,000 miles of blood vessels each day! Yes, that’s 60,000 miles!
  •  Between 5 and 30 litres of blood is pumped through the body by the heart per minute!
  • During an average lifetime, the heart will pump nearly 1.5million barrels of blood around the body, that’s enough to fill 100 swimming pools.
  •  Being the Universal symbol for ‘Love’, Ancient Greeks believed the heart was the seat of spirit, the Chinese associated it with the centre for happiness whilst the Egyptians thought that emotions and intellect arose from the heart.
  •  The term ‘a broken heart’ is an actual thing, research has indicated that when you break up with someone you have loved, news of a family death can lead a heightened risk for heart attack. The trauma brought on by such events can cause the release of stress hormones, stunning the heart into mimicking symptoms of a heart attack. So take care of it!
  • Laughing is good for your heart! So make every effort to 'LOL'. Research has indicated that a good old laugh can cause the lining of blood vessel walks called endothelium to relax increasing blood flow for up to 45mins. But please don't just randomly start laughing in the street.. that's just wierd.
  • Early Egyptians believed that the heart and other major organs had wills of their own and would move around inside the body. True story.
  • The ‘thump-thump’ of a heartbeat is the sound made by all four of the valves within the heart closing.
  • The human heart has four chambers, two superior atria and two inferior ventricles.
  • ‘Atrium’ is Latin for ‘entrance hall’ and ‘Ventricle’ is Latin for ‘little belly’.
  • Because the heart has its own electrical impulse, it can continue to beat even when separated from the body, as long as it has an adequate supply of oxygen available.
  • The heart pumps blood to almost all of the body’s 75 trillion cells. The only area of the body that gets no blood supply is the corneas.
  • A newborn baby has about one cup of blood in circulation whereas an adult human has about four to five quarts which the heart pumps to all the tissues and to and from the lungs in about one minute whilst beating 75 times.
  • If you grab a tennis ball and squeeze it tightly, that’s how hard the beating heart works to pump blood around the human body.
  • If you endure a prolonged lack of sleep, it can cause irregular jumping heartbeats called premature ventricle contractions. (PVCs)
  • It takes about 20 seconds for blood to circulate through the entire human body! 20 seconds!
  • Electrical impulses in the heart muscle are what cause the heart to beat.
  • 5% of the body’s blood supplies the heart, 15-20% goes to the brain and central nervous system whilst 22% goes to the kidneys!
  • Every day the heart creates enough energy to drive a truck 20 miles. In a lifetime, that is the equivalent of driving to the moon and back.
  • When the body is resting, it only takes 6 seconds for blood to travel from heart to the lungs and back. Only 8 seconds for it to go to the brain and back and only 16 seconds for it to reach the toes and travel all the way back to the heart.
  • A kitchen faucet would need to be turned on all the way for at least 45 years to equal the amount of blood pumped by the heart in an average lifetime.
  • The heart begins beating 4 weeks after conception.
  • The human heart is not ‘heart-shaped’, a cow’s heart is closer to the ‘heart-shape’ we use to indicate the heart.
  • The largest artery in the body, the aorta, is almost the diameter of a garden hose. Capillaries, on the other hand, are so small that it takes ten of them to equal the thickness of a strand of human hair

Monday, 24 February 2014

Defibrillator shortage is costing people their lives

A shortage of defibrillators - which shock the heart - and a lack of public awareness could be costing thousands of lives every year, research suggests.
Experts found that fewer than 2% of heart attack victims in Hampshire were treated with the device before an ambulance arrived - a figure described as "disappointingly low".

Hampshire was chosen because it has a mix of rural and urban settings, covers an area of 1,400 square miles, and has a population of around 1.76 million, 12% of whom are aged over 70.

A defibrillator is an electrical device that delivers a shock to the heart in the event of the victim suffering a cardiac arrest. The device will not be activated if not needed; therefore there is no chance of making the situation worse.

For all emergency calls made from locations other than a person's home, the call handler specifically asked whether the caller can access a defibrillator. If so, instructions were given in how to use it.
During the course of the study, the service received 1,035 calls about confirmed cardiac arrests away from a hospital - the equivalent of one for every 600 members of the public each year.
For 44 of these incidents (4.25%), in 34 different locations, the caller was able to access an external defibrillator. However, it was successfully retrieved and used in less than half the cases (18 cases) before the arrival of an ambulance.
This gave an overall use rate of just 1.74% of all cardiac arrests recorded, which the authors said was "disappointingly low" and similar to previous figures from the London Ambulance Service.
Across Hampshire, 673 defibrillators that could be accessed by the public were located in 278 places, including 146 devices placed in large shopping centres.
However, the research showed that only just over one in 10 nursing homes, around one in 20 train stations and a similar number of community centres and village halls had defibrillators.
The experts said their findings "would probably be similar" to elsewhere in the UK.
They said only between 2% and 12% of those who have a heart attack outside hospital survive but defibrillators could at least double the chance of survival.
The experts stressed the devices are "safe and effective when used by members of the public even with minimal or no first aid training".

More people need to be aware of AED locations, as anyone can save a life with the use of a defibrillator. For your nearest AED to home, work and leisure facilities visit http://www.aedlocator.org/AEDLocations.php

If a defibrillator is not available after dialling 999, push hard and fast – two times per second – in the centre of the chest, until the emergency services arrive. 

Wednesday, 15 January 2014

Leisure bosses failed to use defibrillator in tragic death of young footballer

It emerged last week that an on-site defibrillator was available when talented young footballer Jamie Skinner collapsed, but was not used by two trained members of staff at the Edinburgh venue.

Talented Jamie, 13, collapsed on the pitch five minutes into the second half in his debut for Tynecastle FC under-14s on December 22nd. Bystanders battled to save him, whilst the two trained members of staff concentrated on calling 999 and opening entrance gates.

Scottish Ambulance Service arrived 11 minutes after receiving the call, and proceeded to use their own AED to give Jamie two shocks. He was later pronounced dead at Edinburgh Royal Infirmary. The staff members have since been suspended pending an investigation into the events in December.

It is not known if Jamie would have survived if he received early defibrillation, but he would have had a better chance.

This tragic story highlights two very important points:

Firstly, with the chances of surviving a sudden cardiac arrest (SCA) reducing by 10% for every minute that passes without treatment, by the time emergency services arrive on the scene it can often be too late.

Secondly, it also shows why it is important to not only train all staff who have access to defibrillators, but also make everyone including the general public more aware of its presence, and when to use it.

Take a look at Martek Medical’s training packages to make sure all members of your staff are trained in CPR and AED use.

Wednesday, 13 November 2013

About Sudden Cardiac Arrest [infographic]

Sudden Cardiac Arrest (SCA) is the biggest killer in the World today. Here are some interesting facts about SCA in the UK: 


Wednesday, 11 September 2013

Drones to drop AED’s in remote areas

German manufacturers Height-Tech have developed an app allowing Automatic External Defibrillators to be delivered to victims of Sudden Cardiac Arrest in a matter of minutes.

Non-profit organisation Definetz have partnered with Height-Tech to create the technology to fly an unmanned drone to remote or hard to get too areas, delivering life-saving defibrillators. The drone can fly unmanned for up to 6 miles (10 km) at speeds of up to 40 mph (70 kph), avoiding road traffic below.

The first aider at hand can request the drone to be sent using a pre-downloaded app on their smart phone. The app then navigates the drone using GPS coordinates to the precise location ready for administration to the victim.

According to the Red Cross, "Each minute defibrillation is delayed, the chance of survival is reduced approximately 10%," so a drone that can deliver a quick response could make an astounding difference. The average response time is 8-12 minutes, so a drone that can cut that time can drastically increase survival rates.

Currently laws in Germany, where the product is being developed currently states that all unmanned vehicles must be supervised by someone on the ground, incurring additional costs.

The technology has a long way to go before it is available to the public, but the investment in this project just reinforces just how important AEDs are in saving lives.

Monday, 5 August 2013

5 Things you need to know about AEDs

Automated External Defibrillators (AEDs), also known as defibrillators, could be the key to saving a loved one’s life who’s fallen victim to a Sudden Cardiac Arrest (SCA).

Although defibrillators can be used by non-medically trained personnel, simple training of when and how to use an AED can increase the time needed to assess the situation and act.

As a malfunction of the heart’s electrical system, cardiac arrest is sometimes a complication of ventricular fibrillation, and causes more than half of the deaths that result from cardiovascular disease. Survival rates jump up sharply from 5 percent to more than 80 percent when someone steps in and quickly uses an automated external defibrillator (AED) to restart the heart. There is no law in the UK to protect a first aider legally, but there have been no reported cases of anyone being prosecuted as a result of trying to help.

What is an AED?
An automated external defibrillator (AED) is a small computerised medical device that analyses a person’s heart rhythm. The AED is programmed to detect the type of heart rhythm which requires intervention. It includes simple instructions and automated voice directions. Used by a trained operator outside of the hospital setting, the AED gives an electrical shock called defibrillation to restore a normal rhythm, if needed. Using an AED within the first few minutes can reverse cardiac arrest and saves lives.
How does an AED work? 
An AED measures the unresponsive person’s heart rhythm. The computerised device then gives  voice instructions to the rescuer, based on the heart rhythm.  The AED safely delivers an electric shock to the victim’s chest that can reset normal heart rhythm at once. “It is essential that quick defibrillation occur in order to save the patient’s life.  With each minute the patient is in ventricular fibrillation the likelihood of survival goes down,” Kevin R. Campbell, MD, FACC, a cardiologist at UNC Health Care/Rex said. The benefits to the patient are tremendous, he added, “AEDs change the survival rate from less than 5 percent to more than 80 percent with quick defibrillation.” With simple training, you can greatly change the person’s odds of survival during cardiac arrest. 
When do I use an AED?
Cardiac arrest can occur anytime and anyplace without warning. During cardiac arrest, the person’s heart beat becomes irregular and erratic — known as ventricular fibrillation — and unless a shock is delivered, the patient will die. “Every minute that a patient remains in the erratic heart rhythm, the likelihood of survival goes down exponentially,” says Dr. Campbell. In his experience, heart attacks often occur in the early morning hours when adrenaline and cortisol levels are at their highest.
The operator of an AED must be able to detect symptoms of sudden cardiac arrest. It is time to get an AED if a person:
·         Becomes unresponsive suddenly
·         Stops breathing
·         Does not take a breath when you tilt the head up
This is the emergency situation where every minute counts, so call 999 and get an AED.
Where can I find an AED?
There are currently no laws in the UK that requires defibrillators in public places, although organisations such as AEDs in Scotland are campaigning for all communities in Scotland to have access to one.
Websites such as www.aedlocator.org advises communities where the nearest public access defibrillator is located. Martek Medical recommend that you know where the nearest AED to you is, and how to access it (some require a code obtained by calling 999).
How can I get trained on using an AED to save hearts and lives?
Martek’s Lifeline AED was designed specifically to be simple and unintimidating enough to allow non-medical users to save lives. Even though it is simple to use, we do recommend that the purchase of one of these lifesaving devices is complimented by a professional training course to not only familiarise yourself fully with the product but to also get some hands on experience of  using the AED under expert guidance. This also gives you the ideal opportunity to ask any questions or ease any concerns you may have so that you have the confidence to use the Lifeline AED to save someone’s life without a moment’s hesitation.

The AED training unit supports the training course to keep your AED training fresh in your mind and your skills up-to-date with regular skills and practice – you never know when you may need it!