This research develops smart, biodegradable bone scaffolds that guide regeneration in severe fractures. By delivering healing molecules directly to damaged tissue, the scaffolds promote stronger bone growth, reduce inflammation, and eliminate the need for repeated surgeries, enabling faster and more natural recovery in children.

This research develops an objective, data-driven approach to return-to-sport decisions after pediatric knee surgery. Using motion capture and advanced data analysis, it identifies hidden movement patterns linked to re-injury risk. The goal is to improve clinical decision-making, reduce repeat injuries, and make injury prevention more accessible beyond specialist clinics.