Programs
Structured research programs connecting hemocompatibility, surface engineering, flow dynamics, and long-term biointerface stability.
Hemocompatibility
Understanding how blood interacts with engineered surfaces is fundamental. We assess material behaviour under continuous circulation and defined shear profiles.
Our studies focus on activation thresholds, protein adsorption, and early surface responses that influence long-term compatibility.
Surface Engineering
Surface topology and chemistry determine interface behaviour. We explore treatments and coatings that modulate biological response at the material boundary.
Controlled variation of surface parameters allows us to link design decisions to measurable biological outcomes.
Flow Dynamics
Stable flow patterns reduce mechanical stress and turbulence. Our models analyse how artificial systems perform under physiological load variations.
We combine computational and experimental flow studies to ensure robust performance under changing conditions.
Long-Term Biointerface Stability
Short-term performance is not sufficient. We focus on durability, cellular adaptation, and sustained interaction over extended time frames.
Longitudinal evaluation helps us understand how interfaces evolve and how designs can support stable biological integration.
Contact us to discuss programme-level collaboration or shared development initiatives.