Contact person: Dr. André Stiel
Figure: Markus Seeger
About the course
Photo: CBI
Are you interested in state-of-the-art technologies at the interface of biology, medicine, and engineering? Do you want to learn how different disciplines work together to enhance health care, research possibilities, and our daily lives? Then this lecture series is for you! In this course, you will learn about the basic concepts of bio(medical) engineering. You will get to know the intellectual and practical junctions between classic engineering principles and bio(medical) engineering.
Among other topics, in this course you will learn about:
- The basic structure and function of cells and tissues.
- How to measure from biological systems (Instrumentation / Sensors / Imaging)
- What information can be collected from biological systems (-omics, dynamics).
- How to analyze information measured from biological systems.
- How to model biological systems (In silico approaches: Computational design)
- How to create and alter cell function (Cell Engineering / Synthetic Biology)
- How to create tissues and solitary organs (Tissue Engineering / 3D printing)
- Microfluidics and Organoids / Biochips as the biology workbench of the future
Basics
Photo: Andreas Heddergott
Lecture period: 14/04/2021 - 14/07/2021
- Moodle-ID: 950497053 (S21)
- 6 ECTS
- Target groups:
- Master Physik, Kern-/Teilchen-/Astrophysik, Applied and Engineering Physics, Biophysik, Physik der kondensierten Materie
- Master Mathematics in Science and Engineering
- Master Biomedical Computing
- Master Electrical Engineering
- Master Bioengineering
Schedule - Summer Semester 2021
Lectures: Wednesdays, 16:30 - 18:00 | Excercises: Wednesdays, 16:30 - 18:00
01. 14-Apr Bioengineering at large : Lecture Introduction (Ntziachristos)
02. 21-Apr Introduction: Basic concepts DNA, Protein, Cells etc. (Stiel)
03. 28-Apr Introduction: Basic concepts Physiology/Signalling (Westmeyer)
04. 05-May Lab&Medical Devices: Spectrometers, FACS, microscopes (Ntziachristos)
05. 12-May Technology for -omics measurements, DNA, RNA, protein, single cell (Gilly)
06. 19-May Microfluidics: organ / organism on a chip (Meier)
07. 26-May In-vivo Sensors (Ntziachristos)
08. 02-Jun Computational modelling of gene regulation (Gagneur)
09. 09-Jun Modelling and Artificial Intelligence in Cellular Measurements (Marr)
10. 16-Jun Biological Data/AI/OMICS (Gilly)
11. 23-Jun Cell Engineering (Stiel)
12. 30-Jun Nano-medicine and delivery (Westmeyer)
13. 07-Jun Bioengineering & Society (Müller)
14. 14-Jul Questions & Answers (Stiel)
Course materials
01. 14-Apr Bioengineering at large : Lecture Introduction
02. 21-Apr Introduction: Basic concepts DNA, Protein, Cells etc.
03. 28-Apr Introduction: Basic concepts Physiology/Signalling
04. 05-May Lab&Medical Devices: Spectrometers, FACS, microscopes
05. 12-May Technology for -omics measurements, DNA, RNA, protein, single cell
06. 19-May Microfluidics: organ / organism on a chip
07. 26-May In-vivo Sensors
08. 02-Jun Computational modelling of gene regulation (download: Regulatory genomics)
09. 09-Jun Modelling and Artificial Intelligence in Cellular Measurements
10. 16-Jun Biological Data/AI/OMICS
11. 23-Jun Cell Engineering
12. 30-Jun Nano-medicine and delivery
13. 07-Jul Bioengineering & Society