Lung-Chip
Study lung physiology, disease, and the effect of drug candidates
The Lung-Chip is a Guided Model that Emulate has firsthand experience developing and supporting. It can be created using a Basic Research Kit and a user’s own cell sources. As a Guided Model, Emulate offers guidelines and field scientist support for building a Lung-Chip using the Human Emulation System.
Brand: Emulate Bio
SKU: Lung-Chip
Categories:
Organ-on-a-Chip Technology, Organ-Chip Overview
Human-based co-culture models with relevant physical forces
Unlike commonly used cell line models, the Lung-Chip incorporates a co-culture of primary human lung epithelial and endothelial cells in a dynamic microenvironment. Cell-cell interactions, flow, and stretch when relevant improve functionality, resulting in in vivo-like cell differentiation, cilia behavior, mucociliary clearance, and a tight epithelial barrier.
Human-relevant models of the alveolus and small airway
Both models include epithelial and lung-specific endothelial cells on either side of a porous, ECM-coated membrane. Researchers can incorporate mechanical cues and soluble factors critical to cell function and differentiation in vivo.
Primary human cell model
A co-culture of primary human epithelial and endothelial lung cells allows for cell-cell interactions and reduces translational challenges caused by species differences in animal models.
Tissue-relevant mechanical forces
A dynamic microenvironment—
including media flow and stretch to emulate peristalsis—is modeled on-chip to improve functionality and morphology as well as promote ciliation and formation of confluent epithelial and endothelial layers.
Air-liquid interface (ALI)
The Lung-Chip supports human-relevant exposure of the epithelium to air as seen in vivo, promoting epithelial cell differentiation.
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