We have an unparalleled track record in creating drug delivery devices that disrupt markets and revolutionize healthcare. These range from respiratory products, such as metered-dose inhalers (MDIs), dry powder inhalers (DPIs) and nebulisers, to parenteral delivery devices including pens, autoinjectors, patch pumps and large volume injectors.
We have also pioneered high functionality, user-centred electromechanical devices combining drug delivery with wireless connectivity and eHealth service solutions to enable patient engagement and adherence.
We enable our clients to develop advanced, next-generation diagnostic devices that disrupt the status quo.
We work with our clients to revolutionize the management of chronic and acute diseases, bringing molecular diagnostics closer to the Point of Care (PoC) and developing liquid biopsy systems that transform cancer care and prenatal screening.
We’re revolutionising therapy through ground-breaking surgical devices, implants and acute care platforms, spanning general surgery, vascular and cardiac surgery, orthopaedics, ophthalmology and neurology.
From through-body wireless telemetry to surgical robotics, our technical and commercial expertise combined with deep clinical, procedural and workflow understanding consistently leads to systems that excel in real-world clinical environments.
We help our healthcare clients develop robust, scalable platforms capable of handling large amounts of data from devices, leveraging recent advancements in connectivity, data science, machine learning and digital services.
We also provide strategic advice on long-term strategic roadmaps, business system integration, digital transformation and go-to-market strategies.
How we work
Our world-class multidisciplinary teams bring deep technical, commercial, clinical, regulatory, user and workflow insights, combined with a thorough understanding of integrating usability, viability, desirability and performance requirements.
Our designers and engineers – fluent in design for manufacture (DFM) – work closely with external partners to ensure seamless transfer to manufacture.
With long experience in this highly regulated sector, our proven quality, project and risk management systems deliver fast and fully compliant programmes to FDA QSR and ISO 13485.
Interested in joining us?
Tech, tools & facilities
Surgical innovation suite
Equipped to simulate clinical, home and office environments, this facility allows us to test concepts, evaluate prototypes and analyse workflows in a safe and confidential setting. It’s an invaluable tool for understanding and communicating the contextual implications of design decisions, while the ability to conduct quick-turnaround usability evaluations means we can efficiently progress design and development.
Life science labs
Our suite of restricted Class II laboratories is specifically designed for handling and experimentation of pharmaceuticals, licensed substances, biological hazards and human samples in a controlled and regulated environment. Our instrumentation rooms are equipped with metrology, microscopy and product test equipment for rigorous verification and quality assurance of prototypes and products.
Our electronic and mechanical prototyping workshops allow us to produce technically credible prototypes that bring ideas to life and offer a powerful demonstration of their value. All while maintaining extremely high standards of quality that conform to ISO 9001, ISO 13485 and ISO 14001 regulations. Using the latest CNC and milling machines, lathes, welding gear and wire harness and cable assembly tools, we are able to produce parts very quickly and assemble full-scale working prototypes for testing and consumer trials.
Our flexible, responsive and agile manufacturing facilities are ideally suited to electronic and electromechanical product builds, enabling us to very quickly set up short product runs built to an extremely high quality. We can build our own PCBAs using industrial representative equipment and ensure manufacturability during design. Having our own EPD facility is also extremely helpful in development, driving out DfX activities in eCAD, and feeding test results back into the design process from an early stage.
Our suite optics of labs enables us to build complex and high-precision optical layouts, typically for testing prototype designs and novel techniques prior to deployment. Featuring six high-spec optical benches with configurable interlocked controlled areas for high-power (class 4) laser work and specialist facilities for interferometry, spectroscopy, low-noise fluorescence imaging and photon counting. This space can be split into separate laser-controlled areas, allowing multiple experiments to run simultaneously, giving our optical engineers the capability to develop creative solutions without instrumentation restrictions.
Satimo Stargate 64
This anechoic radio and antenna test chamber is 20 foot cube, where we can carry out automated three-dimensional measurement and visualization of wireless device behaviour and test body-worn technology using body phantoms or real live test subjects. This helps us to understand and optimize real-word RF performance of products such as smart implants (including implanted telemetry), connected drug delivery devices and wearables.
We can help you achieve the seemingly impossible
NEWS & INSIGHTS
This paper highlights macro and micro factors affecting oncology and proposes a partnership-driven framework to catalyze innovation for oncology-focused biopharma – as well as the role that select high-impact technologies will have on the on the entire value-chain of cancer research and care delivery.
- AI & Analytics
- Digital health
We are reaching a thrilling watershed. Breakthrough quantum technology is leaving academia and gaining commercial traction.
- Physical sciences
- Strategic advice
Cambridge Consultants today unveils Veloci-Vent, a sophisticated emergency ventilator designed and built at the request of the UK Government for use in the treatment of COVID-19.
Leading medical device development companies have been asked by the UK Government to develop and manufacture ventilators at massive speed.
AXSIS demonstrates the possibilities of intelligent robotic design – robots that are dramatically smaller yet significantly more capable than existing surgical equipment.
Capturing data and applying machine learning algorithms to better understand stress and deliver more effective drug treatment
Near-field, inductively coupled design for deep tissue neuromodulation system.
Intuitive drug delivery device for multiple sclerosis sufferers