Macroscale Computer Modeling
We develop research through three key technologies: numerical modeling to quantify the biomechanics of tissues and organs, artificial intelligence to quantify anatomy, function, and biomechanics of organs from clinical imaging, mixed reality to interactively navigate clinical images and 3D reconstructions. In this process, we aim to supporting clinicians in the understanding of physiopathological mechanisms, in diagnosis and patient stratification, in planning and performing interventions.
Numerical Modeling
We use finite element models and finite volume models to quantify the biomechanical effects of pathologies and of interventions. By merging these approaches with medical imaging, we develop quantitative tools to aid the planning of surgical procedures.
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Image Analysis for Biomechanics
We develop software tools for the automated or semi-automated quantification of morphology, biomechanics, and function of organs.
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Mixed Reality for Surgical and Percutaneous Interventions
We develop Mixed Reality applications to improve the awarness of operators when plenning and performing interventions, with a focus on cardiac and neurological procedures.
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