Modeling Barrier Tissues In Vitro: Methods, Achievements, and Challenges

• Provide an introduction to chip technologies and their applications in drug discovery and disease modeling.
• Review of current organ-on-a-chip technologies in the in vitro modeling of barrier tissues.
• Highlight current chip technologies and address outstanding questions that need to be investigated prior to widespread use.

Organ-on-a-chip devices have gained attention in the field of in vitro modeling due to their superior ability in recapitulating tissue environments compared to traditional multiwell methods. These constructed growth environments support tissue differentiation and mimic tissue–tissue, tissue–liquid, and tissue–air interfaces in a variety of conditions. By closely simulating the in vivo biochemical and biomechanical environment, it is possible to study human physiology in an organ-specific context and create more accurate models of healthy and diseased tissues, allowing for observations in disease progression and treatment. These chip devices have the ability to help direct, and perhaps in the distant future even replace animal-based drug efficacy and toxicity studies, which have questionable relevance to human physiology. Here, we review recent developments in the in vitro modeling of barrier tissue interfaces with a focus on the use of novel and complex microfluidic device platforms.