Proud to help
Cambridge Consultants was proud to assist in the rapid development and manufacture of ventilators to meet the unprecedented challenge faced by NHS hospitals. To help deal with the coronavirus pandemic, the government’s Ventilator Challenge involved multiple concurrent streams. Leading technology and engineering firms were engaged to build existing, modified or newly designed ventilators at speed.
The government was faced with an unacceptable worst-case scenario of not having enough capacity of life-saving equipment. Our project delivered a viable option, which fortunately was not needed as infection rates were brought under control. The design remains available, should the need arise in the future.
The story is characterised by collaboration – both internally and externally. The passionate and tireless response of the multidisciplinary inhouse Cambridge Consultants team was matched by productive partnerships with the regulator, clinical advisers, government representatives and manufacturing partners. We also shared insights and advice with fellow companies engaged in similar programmes.
The clock began ticking the moment we came off the phone to the government. It would normally take several years to develop a patient-ready system to the required safety and clinical utility. We were given six weeks. With a traditional development approach we implemented an agile, sprint-based method similar to that used in consumer or industrial products.
The pace was maintained by integrating continuous clinical insight into the development. Daily calls with frontline clinicians generated priceless insight and feedback.
On most days we carried out more traditional human factors and usability formative testing with the target end user group.
Challenge of change
The evolving understanding of clinical requirements to treat COVID-19 meant that the specification was evolving up to the day of submission. It was vital to keep track of changes and document them within an ISO 13485 development. Specification management infrastructure gave us the ability to respond rapidly and maintain control and traceability.
We aligned our team to a clear but flexible architecture, allowing us to adapt and maintain control. This, together with robust specification management, allowed us to delegate a huge amount of decision making into the 20 workstreams, significantly speeding up design decisions.
By developing software models of the system early, the team brought robustness to the design. Making heavy use of virtual modules and hardware-in-the-loop testing we developed interconnected electronics, pneumatics and software in parallel rather than in series.
Development of Class C software is an onerous process. We tightly coupled software design and test, sprinting from prototype to prototype to reflect evolving specifications. Our continuous integration server fed directly into automated test rigs, allowing code to be checked rapidly and frequently at unit, integration and system level.
User interface iterations
The user interface evolved through over 50 iterations to accommodate layout changes and usability learnings. A vital safety aspect was organising the key inputs and outputs to present information as clearly as possible.
We collaborated with the clinical panel of the Medicines and Healthcare products Regulatory Agency (MHRA) daily and carried out almost continuous formative testing with nurses and clinicians via video conferencing to access the evolving prototypes.
Robustness and reliability
Chief among the many manufacturing challenges was the fact that because of supply chain disruption, our design had to be limited to components readily available at scale. At the outset, we made such availability a key criterion of the selection process as we evaluated a range of concepts. The chosen one used widely available pneumatic components with proven robustness and reliability.
Unparalleled ability to scale
From a standing start, the team was scaled up to 60 engineers on the Monday following the initial call and to 180 by the end of the first week.
In all, over 220 staff experienced in medical device development contributed during the project. With teams sited across the globe, tasks that started in Singapore were handed on to the UK and then the US on the same day.
Socially distanced teamwork
Socially distanced teamwork
This was a time of lockdown and social distancing. We organised a global team of over 200 engineers into 20 distinct workstreams with a clear understanding of where their jigsaw piece fitted into the architecture and well-defined interfaces. Workstream leaders attended daily ‘big issue’ coordination meetings, but otherwise decisions were devolved to the teams.
Most worked effectively from home, which freed up offices, labs and workshops for essential on-site work with suitable distancing measures. Many teams were geographically organised so that tasks that started in Singapore were handed on to the UK and then the US. This was a project that rocked… and rolled successfully around the world.
Tales of the team
“Developing a critical care life support device that is intuitive to use is a huge task. The breadth of skills and attention to detail of the team were inspiring.”
Simon Karger, Commercial Director
"The product was needed for people who were ill NOW and we could see the need increase during the development.. This created quite a big emotional aspect to everything and really drove the hours and motivation of the team."
Ellen Simmons, Senior Biomedical Engineer
"I 100% support learning new things and skills on a project, but this was a great reminder to think outside the teams expertise for specific skills when needed. Our global team was an additional dimension of diversity and we got all the benefits of having a diverse and inclusive team."
Pamela Heidt, Mechanical Engineering Lead
“What really made the difference was our collective experience. We knew what had to be done, we knew each other’s strengths. This was 60 years of experience coming to bear. It was awesome to see.”
Marco Rizzardo, Technical Lead
“Developing a critical care life support device that is intuitive to use is a huge task. The breadth of skills and attention to detail of the team was inspiring.”