This research targets muscle stiffness in children with cerebral palsy by breaking down excess collagen in the muscle’s extracellular matrix. Treating muscle tissue with collagenase reduced stiffness by 50% without weakening muscle strength. The findings offer a promising step toward therapies that improve mobility, reduce pain, and enhance quality of life.

My research improves brain–computer interfaces for children with disabilities by reducing the repetitive calibration needed before use. Using transfer learning and a team-selection algorithm, data from other users help personalise the system, cutting calibration by up to 90%. This makes creative activities like painting more accessible, enjoyable, and sustainable.