Jan 06, 2026
First breathing ‘lung-on-chip’ developed using genetically identical cells
We are proud to announce that the manuscript “Autologous human iPSC-derived alveolus-on-chip reveals early pathological events of Mycobacterium tuberculosis infection” has just been published in Science Advances. The Francis Crick Institute has demonstrated that our Lung-On-Chip model can faithfully replicate early stages of human lung infection.
Key highlights:
- Human relevance: A fully human, iPSC-derived alveolus-on-chip integrating epithelium, endothelium, and macrophages from a single donor
- Disease modelling: Enables physiologically relevant modelling of Mycobacterium tuberculosis infection, capturing early infection patterns and immune responses
- Mechanistic insight: Supports genetic engineering to uncover disease mechanisms—such as the role of autophagy in macrophage survival— helping the identification of new therapeutic strategies
Maximiliano Gutierrez stated: “AlveoliX technology redefines disease modelling and accelerates translational discovery towards human-based and personalized research.”
Find the full article here : https://www.science.org/doi/10.1126/sciadv.aea9874
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The Use of MPS in 3Rs and Regulatory Applications: Perspectives from Developers on Stakeholder Responsibilities
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A stretchable human lung-on-chip model of alveolar inflammation for evaluating anti-inflammatory drug response
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The physiological interactome of TCR-like antibody therapeutics in human tissues
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A multiplex inhalation platform to model in situ like aerosol delivery in a breathing lung-on-chip
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A New Immortalized Human Alveolar Epithelial Cell Model to Study Lung Injury and Toxicity on a Breathing Lung-On-Chip System
