97903 - Computational Biomechanics

Academic Year 2023/2024

Course contents

This year the course "Computational Biomechanics", part of the integrated course of "Biomechanics", returns to focus on the biomechanics of solids, leaving to the course "Biomechanics of Motor Function" all aspects of the biomechanics of human movement. The contents of the course of Computational Biomechanics this year will be:

- Introduction to the course, can you predict nature?

- Elements of Anatomy and Physiology of the skeletal system

- Skeletal mechanobiology

- Elements of tensor calculus and Mechanics of Solids

- The Finite Element Method

- The credibility of predictive models

- Stochastic design

- Clinical applications of digital twins

- Industrial Applications of In Silico Trials

Readings/Bibliography

Viceconti, M. Multiscale Modeling of the Skeletal System. Cambridge University Press, ISBN: 978-0521769501.

Teaching methods

The course is organised in two components: live lectures for frontal teaching and a hands-on computer modelling laboratory with state-of-the-art software (Ansys).

Regarding the teaching methods of this course unit, all students must attend Modules 1, and 2 on Health and Safety online.

Assessment methods

Oral examination.

To guarantee a practical understanding of the modelling techniques covered by the course, the exercises must all be delivered before taking the exam and recording the grade. They can contribute in a small part to the final grade.

Given the advanced nature of the course, the contents of which change every year according to the evolution of research in the sector, attendance at lectures and tutorials is strongly recommended.

Teaching tools

- Ansys Mechanical for Finite Element Analysis

Links to further information

https://youtu.be/V-EsZQctQJ0

Office hours

See the website of Marco Viceconti

SDGs

Good health and well-being

This teaching activity contributes to the achievement of the Sustainable Development Goals of the UN 2030 Agenda.