The latest in a series of surgical innovations from product design and development firm Cambridge Consultants is exploring how augmented reality (AR) could transform surgery.
The company is showcasing an example of how an augmented surgical system might lower the risk involved in operations – and lead to better results for patients.
Using Microsoft’s HoloLens headset, Cambridge Consultants has developed a highly intuitive AR surgical system that equips surgeons with ‘X-ray vision’ – making it possible to see inside a patient in real time, while operating through minimally invasive openings.
Having the correct information in the right place at the right time is essential for successful surgery, yet the operating theatre is typically a very busy environment with limited access to any type of real-time imaging. The advanced system demonstrated by Cambridge Consultants also uses data visualisation to give surgeons easy access to patient records and operating information while they work.
Minimally invasive surgery – so-called keyhole surgery – is often complex yet performed through tiny incisions instead of one large opening. The next-generation AR system provides a real-time 3D interactive perspective of the inside of the patient, accurately guiding the surgeon in ways not previously possible.
It’s the latest example of how Cambridge Consultants combines off-the-shelf technology with its extensive expertise in next-generation device development, software, human factors and user-interface design, to create a truly revolutionary ‘smart’ system.
“AR has the potential to fundamentally change the surgical experience by giving the surgeon a new dimension of information in an easy-to-use way,” said Simon Karger, head of surgical and interventional products at Cambridge Consultants.
“While today’s platforms still need to mature before they are ready for clinical deployment, it is clear to us that the underlying technology holds great promise for critical applications like surgery.
“This innovative development is the result of our extensive experience of surgical equipment innovation and our understanding of the operating theatre environment and workflow. It has the potential to enable more surgeons to carry out complex operations at lower risk and with better results for patients.”
Cambridge Consultants recently unveiled Axsis – one of the smallest known robots for surgical use. With an external body the size of a drinks can and instruments only 1.8mm in diameter, the technology demonstrator used cataract surgery as an example of a procedure that could benefit from miniature robotics in the future.