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Rethinking the ambulance

An 18-month-long project has led to a full-scale mock-up of an ambulance fit for the 21st century.

Given the astonishing pace of medical technology innovation, you would be forgiven for thinking that the modern ambulance must surely be a slick box of tricks on wheels.

But from a design point of view, the ambulance has changed very little in the past 30 years or so. In fact, the basic concept of ’swoop and scoop’ to hospital that is still largely in place dates back even further – despite changing healthcare paradigms.

The figures are telling. In 2009-10, ambulance crews dealt with 7.87 million emergency calls – yet around 40 per cent did not require treatment in an A&E hospital.

The skills of ambulance staff and paramedics have evolved markedly, as has the technology potentially available to them, but their ambulances have failed to keep up. The problems are numerous but include hygiene and infection control, patient experience and digital communications.

The NHS has recognised the need for change since the 2000s, yet progress has been slow, with some conceptual projects funded but nothing concrete achieved.

However, the latest project to address the issue is altogether more ambitious – aiming to build a full-scale mock-up of the back of an ambulance fit for the 21st century.

26 27 Ambulance Prototype 18b

High-tech health: an overhead monitor - which includes a defibrillator - folds out above the patient trolley

The 18-month-long project was led by the Helen Hamlyn Centre for Design at the Royal College of Art in London, alongside the London Ambulance Service, Imperial College Healthcare NHS Trust and the University of the West of England.

’There’s a number of problems with existing ambulances, because they’ve sort of evolved from horses and carts – it’s an old cliché, but they were used in the Crimean War just to cart soldiers back from the front line and get them to some kind of hospital treatment,’ project collaborator Dr Ed Matthews, senior research fellow at the Hamlyn Centre, told The Engineer.

’Nobody, until now, has stood back and looked at the design of an ambulance with what it has to do now, where you’ve got paramedics that are trained to diagnose. They don’t just have to take people straight to A&E; they carry quite sophisticated drugs with them, they prescribe and administer and they can actually discharge people on scene.’

The first rather radical step in terms of research was for members of the Hamlyn design team to ride with an ambulance crew on full 12-hour shifts around London.

The most immediate issue seemed to be a lack of space. The internal structure of an ambulance is very modular and vehicles are often overstocked due to the ’just-in-case scenario’, and sometimes end up running over legal weight. Alternatively, equipment might be missing or batteries discharged. Moreover, there has been virtually no standardisation of ambulance specifications across the UK, which has created logistical and managerial problems for ambulance trusts.

26 27 interior panoramic

The ambulance box is currently touring UK medical conferences

’We started inspecting everything; we dismantled an ambulance and just took everything out in terms of equipment and consumables to understand volumes and where everything needs to be laid out,’ said Gianpaolo Fusari, research associate at the Hamlyn Centre. ’At the same time, we were sketching ideas and doing 1:1 mock-ups and asking paramedics to come back and test these things with us.’

Part of the solution was a ’working wall’ that had all the equipment readily available, including five universal treatment packs containing consumables for commonly occurring call-outs – namely wound dressings, airways and oxygen, maternity, burns and cannulation. ’So that it almost jumps to you rather than going to a cupboard and finding your way,’ Fusari said.

By creating a leaner internal environment, the team was able to free up space and move the patient trolley bed into the middle for 360° access. In current ambulances, the trolley is clamped to the right-hand side of the wall, making it difficult for paramedics to work on the left-hand side of the patient.

Another modification was to include a moulded composite interior with just two components, creating a single seam in the middle, complete with curved, flushed surfaces for shelves and cupboards. This was intended to help with infection control.

26 27 ambulance cutaway

The design features a ’working wall’, a patient trolley in the centre of the vehicle and a moulded composite interior

’If you look at a standard ambulance, it is full of panels and screws with lots of nooks and crannies – all put together with bits of melamine and Perspex – which gather dirt and bacteria,’ Matthews said.

From a technological point of view, the aim was to choose the right off-the-shelf solutions and ’bolt them together’ as robustly as possible.

There are also three so-called digital communication portals.

The overhead monitor above the patient trolley folds down and carries all the functionality of a Lifepak 15 device, including a defibrillator and a monitor for oxygen saturation and blood pressure. The monitor also has a video link to the receiving hospital doctor or expert consultants for complex cases. Meanwhile, the driver’s console includes satellite navigation as well as the option to see what’s going on in the back.

Finally, there is a handheld digital tablet for administration and entering patient reports. Data from the central monitor is automatically uploaded to it.

’At the moment, [paramedics] write notes on their glove and then transpose those onto a patient’s sheet, and then that gets transposed finally onto the NHS system and becomes digitised – with ours it’s all wireless,’ said Matthews.

The team has now built a full-scale ambulance in the back of a trailer box. It has been tested in clinical trails, where it showed significant improvements over conventional ambulances in dealing with scenarios such as cardiac arrests. Notably, a contamination scenario was performed with a simulated bleeding leg ulcer infected with MRSA. UV staining revealed a nearly 70 per cent drop in simulated infection spread.

“Nobody has stood back and looked at the design of an ambulance and what it needs to do”

Dr Ed Matthews, Hamlyn Centre

The ambulance box is now touring the UK at medical conferences in the hope of raising awareness and drumming up further funding. Although there are promising leads, there is no main commercial partner as yet. Part of the problem lies with the conservative nature of the ambulance manufacturers, according to the team.

’They’re very comfortable and happy to sit on their hands. They’re paid £170,000 for an ambulance and we look at it and say: “Well there’s a £15,000 chassis – how much does it cost to build a caravan on the back of that and then fit all the electronics?” They’re spoon-fed by the NHS in a way and they’re not used to thinking “how do we raise our game to get a bit more of the market share”.’

Fusari added: ’We’re in a position where the paramedics want it, and the NHS thinks it’s fantastic, but they say “if you build it we’ll buy it” – and the builders say “yes it’s great” and “if the NHS buys it then we’ll build it”.

Keyfeatures lifesaver

The ambulance is designed to meet the needs of modern paramedics

  • Single ’working wall’ with modular treatment packs for common call-outs
  • Central patient trolley for easy access and improved patient experience
  • Central console with Lifepak 15 functionality, plus video link for consultation
  • Moulded composite interior with curved surface to enable improved infection control

Readers' comments (29)

  • We have introduced an advanced ambulance system developed for some years with the U.S. Military integrating some of these features, and more. Take a look at

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  • The design looks amazing. As a paramedic I can see all the advantages of the new design. It's an absolute shame that you have to jump through hoops and red tape to even achieve the possibility of it being considered. I wish you the best of luck with this advanced design. I would love to work in this ambulance.

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  • Nice idea in theory but if the defib is fitted to the roof what do we take into a patient's house..??

    Could probably think of many other things but it'll never happen in this country as no-one has any money to fund the full-scale development of an operational vehicle let alone equip the countries ambulance services with a huge fleet of new vehicles or, at best, a demountable body to fit existing coachbuilt vehicles let alone the thousands of van-conversion vehicles out on the road..

    Great in theory, highly unlikely to ever see production.. sadly..

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  • Nice concept, central stretcher is a good idea. Would the lifepak be removable? Grab bag idea also good taking in smaller specific kit to addresses rather than large generic kit. How easy would it be to customise? Managers won't buy it if they can't put existing, expensive monitoring kit and defibs on? What about different manufacturers of say splints and vac mats? They take up different space. Great concept though and long overdue!

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  • Is there another monitor screen apart from the one on the ceiling for the attendant to see, or does he/she have to hurt his/her neck to look up constantly? And does the attendant have to reach across the patient every time some items are required from the working wall?

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  • What about a review of the ambulances' delivery-van-like suspension systems?
    On poor road surfaces these can be torture racks for injured patients.

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  • Could anyone out there give me an indication as to the costs of this build, and that should include import costs, etc.. as we are in South Africa.

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  • I've been a paramedic for well over 20 years. They keep changing the back on motors and every time it's worse than the last...a centre trolley doesn't work, as you would know if your trying to do CPR on someone at 60 mph, you get flung all over the place..

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  • What would you use in the house or at the scene? Another set of equipment? How would this interface with the onboard system? In 1978 I worked for an EMS agency in Buffalo that locked the defibrillator in the ambulance. Saves were far and few between. Treatment must start where you find them. I hope we are not moving backward in time.

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  • I'm really intrigued by this report - because over 20 years ago I was working for an ambulance manufacturer, and we were building ambulance bodies which substantially embodied the key features listed at the end of the article, although without the modern electronics. I left that area of manufacturing 18 years ago, and I would like to know how things appear to have gone backwards since then, as they must have done if there has been an 18 month consutation exercise to end up with what we was recommended 20 years ago. Can anybody out there provide a history of ambulance manufacture since 1995?

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