Sim4Life combines computable human phantoms with the most powerful physics solvers and the most advanced tissue models to directly analyze biological real-world phenomena and complex technical devices in a validated biological and anatomical environment. Architected with high performance computing enabled solvers and the most intuitive GUI, Sim4Life enables accurate coupled multiphysics simulations and endless customization for accelerating R&D activities, designing and optimizing medical devices and treatments, assessing safety and efficacy, enriching personalized medicine strategies, conducting mechanistic research, reducing costs, and achieving regulatory compliance.
Please click on the movie below to watch a detailed introduction to Sim4Life:
The Commission for Technology and Innovation (CTI) - one of the leading Swiss governmental technology funding institutions - has nominated the research project Sim4Life CAPITALIS for the prestigious 2015 CTI Swiss Medtech Award. The project entitled S4L CAPITALIS - In Silico Analysis and Optimization of Neurovascular and Neurological Devices and Treatments in the Head was a strong collaborative research and implementation effort by ZMT and the academic research partners IT'IS Foundation and the Translational Neural Engineering (TNE) Laboratory at EPFL and the application partner Cardiatis S.A.
The following clip provides an in-depth summary of Sim4Life and the project.