18.03.2025

Abschlussarbeiten, Bachelor- und Masterarbeiten

Our Research Group on Pancreatic Neuropathy and Pain is actively seeking passionate Master’s and Bachelor’s students, as well as interns, specializing in biological and chemical sciences. Our work blends molecular biology with comprehensive analysis of human pancreatic tissue, advanced 3D culture models, live cell imaging, genetically engineered mouse models (GEMMs) of pancreatic cancer, and murine models of acute and chronic pancreatitis. We operate with the Collaborative Research Center 1321 (Modelling and Targeting of Pancreatic Cancer), the DKTK (German Cancer Consortium) Munich site, the CCC München (Cancer Comprehensive Center-TZM München), and the Pancreatic Cancer Alliance Munich (PCAM). Crucially, our research is driven by insides gleaned directly from human tissue and diseases, aiming to develop in vitro and in vivo models that faithfully replicate human conditions. Comprising an international team of biologists and clinicians, our mission is to unravel key disease mechanisms in pancreatic disorders, with the ultimate aim of devising innovative therapeutic strategies. Here are our current projects: 1. Exploring the role of the exosomes in cancer cell progression and metastasis. 2. Investigating the involvement of mast cells in pain perception during acute and chronic pancreatitis 3. Examining the immunological effects of chemotherapy in pancreatic cancer. 4. Establishing of multi-cellular 3D ex-vivo systems, including organoids ad ECM scaffolds. 5. Cloning of Gene-Therapy Tools for treatment of PDAC. Our methodologies encompass a wide range of molecular biology techniques such as nucleic acid isolation, PCR, protein isolation, real-time PCR, Western blotting, cloning, bacterial transformation and plasmid isolation. We also employ cell sorting using FACS, gene editing with CRISPR Cas9, multiplex immunohistochemistry, cell culture techniques, and ECM scaffold preparation. In addition to gaining practical experience with state-of-the-art research techniques, successful candidates will have the chance to contribute to groundbreaking projects at the forefront of cancer biology and translational medicine. Join our dynamic team and help pioneer discoveries aimed at enhancing patient outcomes in pancreatic diseases. For any inquiries, please don’t hesitate to contact Dr. Rouzanna Istvánffy via e-mail at rouzanna.istvanffy@tum.de.

Wenn Sie selbst eine Diplomarbeit ausschreiben wollen, lesen Sie bitte vorher unbedingt das 'Best Practice Manual Stellenanzeigen'.

Kontakt: rouzanna.istvanffy@tum.de

17.03.2025

Measurement of Liquid-Liquid-Equilibria (LLE) of different solvents in electrolytes and biological systems

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Kontakt: hamzah.elfaitory@tum.de

17.03.2025

Column experiments for Managed Aquifer Recharge

Master's theses or study project as part of the Smart-SWS project: Linking flood protection and drought prevention
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Kontakt: lea.augustin@tum.de

16.03.2025

Shader Based Volumetric Path Tracing of Medical Data

This project aims to enable path tracing of volumetric medical data, such as CT scans, within the Unity game engine. The resulting library will support researchers in developing high-fidelity, real-time medical visualizations to advance medical research.

Kontakt: hex-thesis.ortho@mh.tum.de, constantin.kleinbeck@tum.de

16.03.2025

Synthetic Data Generation for Dynamic Neural Novel View Synthesis

This project focuses on generating synthetic training data for dynamic neural novel view synthesis systems. A particular emphasis is placed on creating edge case test data to evaluate the limits of current methods.

Kontakt: hex-thesis.ortho@mh.tum.de, constantin.kleinbeck@tum.de

16.03.2025

Realtime Updates for Scene Changes in Gaussian Splatting Scenes

This project aims to combine knowledge of classical reconstruction methods, real time capable algorithms and modern neural rendering to provide high-fidelity reconstructions from accidents and traffic scenes.

Kontakt: hex-thesis.ortho@mh.tum.de, hannah.schieber@tum.de

16.03.2025

Realtime Region-Of-Interest Refinement for Gaussian Splatting

The Human-Centered Computing and Extended Reality Lab of the Professorship for Machine Intelligence in Orthopedics seeks applicants for Bachelor/Master Thesis for the Summer Semester 2025.

Kontakt: hex-thesis.ortho@mh.tum.de, hannah.schieber@tum.de

15.03.2025

IDP/Thesis

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Kontakt: ivan.ezhov@tum.de

15.03.2025

Virtual Test Env for 3D Reconstruction and Drone Navigation

The Human-Centered Computing and Extended Reality Lab of the Professorship for Machine Intelligence in Orthopedics seeks applicants for Bachelor/Master Thesis for the Summer Semester 2025.

Kontakt: hex-thesis.ortho@mh.tum.de, hannah.schieber@tum.de

15.03.2025

Sparse Camera Gaussian Splatting for Challenging (Operating Room) Scenes

The Human-Centered Computing and Extended Reality Lab of the Professorship for Machine Intelligence in Orthopedics seeks applicants for Bachelor/Master Thesis for the Summer Semester 2025.

Kontakt: hex-thesis.ortho@mh.tum.de, hannah.schieber@tum.de