DOI: 10.2174/0113816128436395260406120706 ISSN: 1381-6128

Breathing Life into Research: The Transformative Potential of Lung-on-a-Chip Technology

Jhanavi Shenoy, Alosh Greeny, Raagul Seenivasan, Praveen Halagali, Mahalaxmi Rathnanand, Jyothsna Manikkath, Vamshi Krishna Tippavajhala

Lung-on-a-chip devices are an advanced microengineering tool for simulating human lung physiology in vitro. This device is designed to precisely replicate the in-vivo conditions of the lung parenchyma while ensuring durability and ease of use. It features an innovative reversible bonding mechanism that allows precise regulation of cell concentrations on the membrane by providing convenient access to both sides of the membrane. Currently, preclinical drug development research relies on expensive, time-consuming murine testing because cell culture models cannot replicate the intricate, organ-level disease progression observed in humans. Some of the shortcomings of these two-dimensional in vitro and animal models have been addressed by the development of Lung-on-a-Chip models. It offers significant advantages over conventional approaches and has demonstrated great promise for cytotoxicity testing, disease modelling, and drug discovery. However, there are several unique, inherent, and translational challenges to rephrasing these devices from the lab to mainstream operations. This review explores the characteristics and innovative features of the Lung-on-a-chip paradigm for biomedicine, its current and future applications, and key challenges, including concerns about nonsupervisory pathways, device design, material selection, scalability, and natural realism. It also highlights other translational features of the Lung-on-a-chip to illustrate the significance of this state-of-the-art for medical research.

More from our Archive