Thesis Work, 45 Credits - Generation And Optimization Of 3d Ipsc-derived Lung Alveolospheres For Assay Development

AstraZeneca

Gothenburg, Sweden
Ipsc-derived lung alveolospheres
Automation and design of experiments
Cell culture
This project aims to develop and optimize culture conditions for iPSC-derived lung alveolospheres by leveraging automation and systematic design of experiments (DoE)

Job Summary

  • This project aims to develop and optimize culture conditions for iPSC-derived lung alveolospheres by leveraging automation and systematic design of experiments (DoE).
  • The optimized system will be validated by exposing alveolospheres to fibrotic and inflammatory stimuli, assessing model fidelity, robustness, and translational relevance.
  • We welcome your application as soon as possible, but ahead of the scheduled closing date 22nd of April 2026.

Matching Summary

This project aims to develop and optimize culture conditions for iPSC-derived lung alveolospheres by leveraging automation and systematic design of experiments (DoE).

Skills & Requirements

Must-have

  • iPSC-derived lung alveolospheres
  • automation and design of experiments
  • cell culture
  • imaging analysis
  • qPCR

Nice-to-have

  • complex 3D models
  • problem-solver
  • curious
  • collaborative

Key Requirements

  • Enrolled in a master's program
  • Experience with cell culture is essential
  • Detail-oriented
  • Independent

Work Rights

Not specified

Tailored Resume

Cover Letter