Differences in lung anatomy between mice and humans, as well as frequently disappointing results when using animal models for drug discovery, emphasise the unmet need for in vitro models that can complement animal studies and improve our understanding of human lung physiology, regeneration and disease. Recent papers have highlighted the use of three-dimensional organoids and organs-on-a-chip to mimic tissue morphogenesis and function in vitro Here, we focus on the respiratory system and provide an overview of these in vitro models, which can be derived from primary lung cells and pluripotent stem cells, as well as healthy or diseased lungs. We emphasise their potential application in studies of respiratory development, regeneration and disease modelling.
- Gkatzis, K.
- Taghizadeh, S.
- Huh, D.
- Stainier, D. Y. R.
- Bellusci, S.
Keywords
- Animals
- Cell Line
- Humans
- *Lab-On-A-Chip Devices
- Lung/*growth & development/*physiology
- Lung Diseases/physiopathology
- *Organogenesis
- Organoids/*physiology
- Pluripotent Stem Cells/cytology
- Taghizadeh has nothing to declare. Conflict of interest: D. Huh has US Patent
- 86478616 B2 licensed, US patent 7704728 licensed, and patents US 62/544,429, US
- 62/348,055 and US 62/348,036 pending. D. Huh owns shares in Emulate, Inc. and
- consults for the company. Conflict of interest: D.Y.R. Stainier has nothing to
- declare. Conflict of interest: S. Bellusci has nothing to declare.