Section 1. Introductory concepts and motivations.
1.1. General requirements of a simulation environment for procedure optimization, device testing and/or training.
1.2. Traditional in-vivo animal testing and related limitations.
1.2. The current regulatory scenario.
Section 2. Experimental laboratory platforms.
2.1. Design specifications and methods for the development of mock circulatory loops.
2.2. Brief review of lumped-parameter modelling and its use in pulsatile hydrodynamic design.
2.3. The evolution from conventional test apparatuses to realistic phantoms.
2.4. Critical design of active and passive systems using ex-vivo anatomical samples.
2.5. Criteria for the practical setting-up and use of mock loops and phantoms in the laboratory: matching high-fidelity with practical goals.
Section 3. In-silico virtual phantoms. (Subject of the computational module)
Section 4. Integration of experimental and computational methods.
4.1. Criteria for setting up integrated studies exploiting the complementarities of the two approaches.
4.2. Techniques for data integration: critical matching of quantitative information from different approaches.
4.3. The use of experiments for validation of the models: analysis of real-world case studies.
4.4. The use of models for interpreting experimental data: analysis of real-world case studies.
Tutorials and other activities
Class tutorials deal about the application to cases belonging to the real clinical world, including the simulation of recent catheter-based, minimally invasive and reparative cardiovascular procedures.
Laboratory visits are provided for, with practical demonstrations of real experimental and computational procedures.
Seminars will be given by professionals from the industrial and clinical arena.