PhD Student Infection Biology and Field Assisted Biofabrication (ID 2105)
Davos Platz, CH
Short Description
Fracture-related infection (FRI) remains one of the most challenging complications in orthopaedic trauma, frequently resulting in bone destruction, implant failure, and prolonged treatment. Recent evidence suggests that early infection-induced bone loss is primarily driven by neutrophil-mediated inflammation and proteolytic degradation, alongside classical osteoclast-driven pathways.
This project (DONUT – Development of advanced Osteolysis Model drive by NeUTrophils) aims to further our knowledge on this topic by developing a novel human-relevant 3D in vitro model that integrates:
- Spatially organized bone constructs generated using Sound-Induced Morphogenesis
- Integration of immune cell populations including neutrophils
- Controlled introduction of Staphylococcus aureus
- Advanced molecular and imaging-based readouts
The project will enable mechanistic insights into infection-induced osteolysis and provide a platform for testing new therapeutic strategies.
Start of work: Position will remain open until role is filled, preferred start by October 2026.
Duration: 4 years
Main Responsibilities
- Develop and optimise 3D biofabricated bone model with immune cells
- Establish infection models with Staphylococcus aureus
- Introduce and study neutrophil-driven inflammatory processes
- Apply advanced analytical techniques (e.g. imaging, transcriptomics, cytokine profiling)
- Analyse and interpret experimental data
- Contribute to scientific publications and presentations
Main Requirements
- Master’s degree in biomedical engineering, biology, microbiology, or a related field
- Experience in cell culture and laboratory techniques (e.g. molecular biology, microscopy, microbiology)
- Experience in neutrophil handling and culture
- Experience in planning and executing research experiments
- Strong interest in infection biology, immunology, and/or biomaterials
- Excellent communication skills in English
- Ability to work independently as well as collaboratively in an interdisciplinary environment
- High motivation and enthusiasm for research
Additional desirable skills:
- Experience with 3D cell culture or tissue models
- Knowledge of host–pathogen interactions or infection models
- Familiarity with biofabrication, hydrogels, or biomaterials
- Exposure to advanced imaging or omics approaches
We offer
- An interesting and varied job in an exciting and innovative organization
- The opportunity to be part of a highly committed international team
- Modern infrastructure
- High degree of flexibility regarding working hours and location (depending on operational requirements)
- Generous package of social benefits, including supplementary vacation days and pension scheme contributions
- Internal skills training opportunities and support for continued education