Educators & Organizers:
Oliver Kohlbacher (CIBI), Philipp Thiel, Manfred Claassen, Carsten Eickhoff, Kerstin Ritter
Date:
02-03-2026 to 06-03-2026
Location:
Germany
https://www.kloster-heiligkreuztal.de/
https://maps.app.goo.gl/9gKrCXXoj1aNowrw9
Contents:
Increasingly large machine learning models are transforming how research is done in the life sciences. Such models enable addressing research questions with complex data modalities, and further to jointly consider multiple such data modalities to this end. While such approaches show impressive capabilities to establish non-trivial input-output relationships, interpretation of the underlying models remains a challenge.
Our spring school aims at bridging this gap by covering interpretable machine learning approaches to study various data modalities encountered and integrated in translational research projects. Specifically, we plan to consider natural language-, radiological- and molecular imaging data. The spring school will comprise input lectures and integrated project work that will be supervised by invited lecturers and their teams.
Specifically, we will cover lectures on interpretable models of single-cell biology, radiological data and natural language. These lectures will introduce basic and advanced methodological concepts and their application in translational projects. The spring school participants will apply these concepts in hands-on workshops on multimodal datasets covering the data modalities introduced by the lecturers with the goal to identify potentially novel intermodal patterns of translational relevance.
Agenda:
Arrival - March 2
|
from 2.00 pm |
arrival at venue |
|
6.00 - 7.00 pm |
dinner |
Day 1 - March 3
|
09.00 - 10.00 am |
Introduction round/activity participants & trainers |
|
10.00 - 12.00 am |
Input lecture: Interpretable Machine Learning Models for Single-Cell Biology (Claassen) |
|
12.00 - 01.00 pm |
Lunch break |
|
01.00 - 01.30 pm |
Introduction to spring school data set(s) & definition of teamwork goals |
|
01.30 - 02.00 pm |
Definition teams |
|
02.00 - 06.00 pm |
Teamwork interpretable machine learning models for single cell biology |
|
06.00 - 07.00 pm |
Dinner |
|
07.00 - |
Evening activity |
Day 2 - March 4
|
09.00 - 12.00 am |
Input lecture: Interpretable Machine Learning Models for Medical Imaging Data (Ritter) |
|
12.00 - 01.00 pm |
Lunch break |
|
01.00 - 03.00 pm |
Team activity (e.g. hiking) |
|
03.00 - 06.00 pm |
Teamwork interpretable machine learning models for radiology |
|
06.00 - 07.00 pm |
Dinner |
|
07.00 - |
Evening activity |
Day 3 - March 5
|
09.00 - 12.00 am |
Input lecture: Language Modeling and Interpretation (Eickhoff) |
|
12.00 - 01.00 pm |
Lunch break |
|
01.00 - 06.00 pm |
Teamwork large language models for interpretation |
|
06.00 - 07.00 pm |
Dinner |
|
07.00 - |
Evening activity |
Day 4 - March 6
|
09.00 - 12.00 am |
Consolidation results and preparation of final presentation |
|
12.00 - 01.00 pm |
Lunch break |
|
01.00 - 05.00 pm |
Concluding symposium and discussion |
|
05.00 - 05.30 pm |
Wrap-up and departure |
Learning goals:
Participants will gain hands-on experience in interpretable machine learning for multimodal biomedical data, developing the skills to collaboratively design and implement (publication-ready) bioinformatic analysesthat drive insight and impact in translational research.
Prerequisites:
You are a passionate PhD student or postdoctoral researcher eager to work at the intersection of cutting-edge data science and biomedical discovery?
We welcome applicants from two complementary backgrounds:
- Bioinformatics, machine learning, or data science, with a keen interest and some hands-on experience in analyzing biological or medical data.
- Experimental biologyor translational medicine, with a strong track record of performing your own data analyses using bioinformatics or machine learning methods.
If you’re excited about bridging disciplines and unlocking insights from complex biomedical data, and you have solid programming skills in Python, we’d love to have you on board.
You must bring a modern laptop with WLAN and Python development capabilities
Keywords:
Interpretable AI, ML in life sciences, multimodal data, translational research, AI in biomedical research, data integration
Tools:
Python
Application:
https://uni-tuebingen.de/en/279708
Contact:
Application Deadlines:
November 20, 2025
October 20, 2025 (early bird)