Clear Surgical, a Scottish based medical device business, has secured £280,000 of new investment from existing shareholders, in an oversubscribed funding round.
photographer Julie Howden Julie Howden
Michelle Ward CEO of Clear Surgical with the with OpLight designed for surgical forceps. Clear Surgical have secured nearly 300K in new funding to help grow the business.
Led by the investment syndicate Kelvin Capital, and with Scottish Health Innovations Ltd (SHIL) and Scottish Investment Bank participation, the funding round will support the development of new surgical devices and help build on the success of its first product, the OpLight which is currently used in Japan, China, Saudi Arabia, Brazil and in European countries including Italy, Czech Republic and the Nordic countries.
The Kelvin Capital syndicate, led by directors John McNicol and Angus Hay, represents private investors in the UK, Europe and the USA.
Clear Surgical works with surgeons to develop innovations that arise from issues highlighted by healthcare professionals. The OpLight was developed originally by former NHS Ayrshire and Arran clinician Dr Murali Subramaniam, a vascular surgeon who recognised the benefits of enhanced lighting during surgical procedures to remove shadowing that may come from traditional overhead lighting systems, head lamps or fibre optic systems.
The integral patented light guide designed into each OpLight disposable cartridge maximises and directs light into the cavity eliminating the possibility of shadowing by being attached to existing surgical devices like surgical retractors.
Michelle Ward, chairman of the board at Clear Surgical said: “This is an incredibly exciting time for the business. Securing important new funding from an oversubscribed funding round and agreeing a development relationship with the new Medical Device Manufacturing Centre at Heriot Watt University gives a clear pathway to build the business domestically and internationally.
“By working directly with frontline surgeons and turning their ideas into reality we create solutions that have real and immediate benefits. Our products are not speculative because they come directly from the very people who want them and who will use them.”
Oplight products under development include a disposable surgical UV light to identify and treat bacteria during an operation to minimise or eliminate the risk of post-operative infection and another that uses near-infrared light that can highlight and excite malignant cells to guide surgeons during their removal.
A new orthopaedic device which is the creation of Alan Johnstone, a consultant orthopaedic surgeon at Aberdeen Royal Infirmary, is being refined by Clear Surgical for optimum implant placement and corrective bone alignment surgery.
A significant reduction of time spent in surgery, with consequent cost savings, is facilitated by the OpLight technology because studies have shown that around 20% of theatre time can be spent adjusting standard theatre overhead lighting as the procedure progresses.
Clear Surgical recently became the first client of the new £3.7 million Medical Device Manufacturing Centre (MDMC) based in the School of Engineering and Physical Sciences at Heriot-Watt's Edinburgh campus. Its mission is to provide expert advice on manufacturing engineering, regulatory issues and funding, coupled with technically-supported access to manufacturing facilities, to assist small and medium sized companies in the translation of medical device concepts through to small batch commercial prototypes.
Graham Watson from SHIL added: “SHIL has been working with Clear Surgical for some time. Our strong collaboration is testament to the value of supporting NHS-led innovation. Translating innovative ideas from health professionals into real-world solutions is central to our role at SHIL - in the case of Clear Surgical a successful medical device company has been established with global reach. This new funding, combined with ambitious development plans, will support further advances in surgical innovation and ultimately improve patient care around the world."