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636-0706-00L 4 Credits BSC , DR , MSC D-BSSE , D-INFK , D-BIOL , D-MATH
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Spatio-Temporal Modelling in Biology

Lecturers & Examiners: Prof. Dr. Dagmar Iber
VVZ CR n/a

Last Updated: 2026-02-05 16:01:33

Abstract

This course focuses on modeling spatio-temporal problems in biology, in particular on the cell and tissue level. The main focus is on mechanisms and concepts, but mathematical and numerical techniques are introduced as required. Biological examples discussed in the course provide an introduction to key concepts in developmental biology.

Objective

Students will learn state-of-the-art approaches to modelling spatial effects in dynamical biological systems. The course provides an introduction to dynamical system, and covers the mathematical analysis of pattern formation in growing, developing systems, as well as the description of mechanical effects at the cell and tissue level. The course also provides an introduction to image-based modelling, i.e. the use of microscopy data for model development and testing. The course covers classic as well as current approaches and exposes students to open problems in the field. In this way, the course seeks to prepare students to conduct research in the field. The course prepares students for research in developmental biology, as well as for applications in tissue engineering, and for biomedical research.

Content

1. Introduction to Modelling in Biology 2. Bioimage Analysis 3. Morphogen Gradients 4. Precision & Robustness of Patterning 5. Mathematical Description of Growing Biological Systems 6. Travelling Waves & Wave Pinning 7. Turing Patterns 8. Chemotaxis 9. Epithelial Organisation 10. Tissue Simulation Frameworks 11. Tissue Mechanics & Fluid Dynamics 12. Growth Control 13. Image-Based Modelling 14. Summary

Resources

Lecture Notes

All lecture material will be made available online via Moodle.

Literature

The lecture course is not based on any textbook. The following textbooks are related to some of its content. The textbooks may be of interest for further reading, but are not necessary to follow the course: Murray, Mathematical Biology, Springer Forgacs and Newman, Biological Physics of the Developing Embryo, CUP Keener and Sneyd, Mathematical Physiology, Springer Fall et al, Computational Cell Biology, Springer Szallasi et al, System Modeling in Cellular Biology, MIT Press Wolkenhauer, Systems Biology Kreyszig, Engineering Mathematics, Wiley

Learning Materials (Links)

General Information

Language
English
Levels
BSC , DR , MSC
Frequency
Yearly recurring

Examination

Type
session examination
Mode
oral 20 minutes
If requested the exam might be taken as well in German.

Course Components

Type Title Time & Place Hours
lecture with exercise Spatio-Temporal Modelling in Biology
Friday 10:15-11:00 Tutorial (Zoom) Friday 11:15-12:00 Q&A Lecture (Zoom) The first lecture will take place on Friday, September 23, 2022. The first tutorial will take place on Friday, September 30, 2022. This course take place online. Reserved rooms will remain blocked on campus for students to follow the course from there.
  • Fri 10:15-11:00 (HG D 3.3)
  • Fri 11:15-12:00 (HG D 3.3)
3 h weekly

Offered In