Development and analysis of experimental models (in vitro angiogenesis, cell cultures on substrates with controlled elasticity) using micromanipulation techniques (micropipette aspiration device, uniaxial loading experiments on biogels and arteries)
Elaboration and validation of nonlinear passive and active constitutive laws for the living materials under study, mostly derived from strain energy functions
Theoretical stability analysis and finite element simulation of the associated multiphysics biomechanical problems (free-boundary problems, remodelling and growth)
Biomedical image analysis techniques (optical flow, elastography, . …).