Thesis Work, 45 Credits - Generation And Optimization Of 3d Ipsc-derived Lung Alveolospheres For Assay Development
AstraZeneca
Gothenburg, Sweden
Master's program enrollment in cell biology
Essential experience with cell culture techniques
Hands-on imaging analysis and qpcr skills
This project aims to develop and optimize culture conditions for iPSC-derived lung alveolospheres by leveraging automation and systematic design of experiments
Job Summary
This project aims to develop and optimize culture conditions for iPSC-derived lung alveolospheres by leveraging automation and systematic design of experiments.
The student will refine media formulations, extracellular matrices, and environmental parameters to establish reproducible workflows for downstream research applications.
You will work on meaningful projects at AstraZeneca Gothenburg to create advanced in vitro lung models applicable in disease mechanism studies and high-throughput screening.
Matching Summary
This project aims to develop and optimize culture conditions for iPSC-derived lung alveolospheres by leveraging automation and systematic design of experiments.
Skills & Requirements
Must-have
Master's program enrollment in cell biology
Essential experience with cell culture techniques
Hands-on imaging analysis and qPCR skills
Nice-to-have
Experience with complex 3D biological models
Detail-oriented and independent problem solver
Curious mindset for pushing scientific boundaries
Key Requirements
Enrolled in a master's program within cell biology or biomedical science
Must have essential experience with cell culture
On-site position required at AstraZeneca Gothenburg