This research project is funded by the Netherlands Organization for Scientific Research NWO and conducted in collaboration with Philips Research, DEAM, Karolinska University Hospital in Sweden, Amsterdam University Medical Center and Reinier de Graaf Hospital in Delft.
Spinal fusion is the surgical procedure of stiffening parts of the spinal column with screws and rods to, among others, reduce back pain for patients affected by multiple diseases. Vertebrae have an outer layer of hard cortical bone surrounding the softer core that consists of cancelous bone. The strength of the connection between vertebra and screw mainly relies on the contact area with the cortical bone, but drilling close to this cortical bone layer is risky, as it can lead to cortical breaches. These breaches can have severe complications, especially since important neural and vascular structures run along the spinal column.
This research will focus on creating a better fixation of the screws and preventing complications that can arise due to cortical breaches by developing a steerable bone drill with an optical sensing system in the tip. This allows the surgeon to drill a curved path along the cortical bone layer while getting real time information about the location of the drill. Regular stiff screws will not fit this curved hole, thus a new anchoring device will be developed that is flexible when introduced to the curved hole and that can become rigid to generate the needed fixation.