AI Article Synopsis
- - This paper presents a microfluidic device that simulates the physical conditions of fetal lung development for cell culture by controlling hydrostatic pressure and substrate deformation on a single chip.
- - The device was tested by examining how drug treatments and physical stimuli affect surfactant protein C (SPC) expression in lung epithelial cells, confirming its effectiveness in replicating real-life microenvironments.
- - The findings highlight the importance of physical stimuli in influencing cellular behavior and suggest that this technology could aid in advancing lung development research and clinical applications.
Article Abstract
This paper reports a biomimetic microfluidic device capable of reconstituting physiological physical microenvironments in lungs during fetal development for cell culture. The device integrates controllability of both hydrostatic pressure and cyclic substrate deformation within a single chip to better mimic the in vivo microenvironments. For demonstration, the effects of drug treatment and physical stimulations on surfactant protein C (SPC) expression of lung epithelial cells (A549) are studied using the device. The experimental results confirm the device's capability of mimicking in vivo microenvironments with multiple physical stimulations for cell culture applications. Furthermore, the results indicate the critical roles of physical stimulations in regulating cellular behaviors. With the demonstrated functionalities and performance, the device is expected to provide a powerful tool for further lung development studies that can be translated to clinical observation in a more straightforward manner. Consequently, the device is promising for construction of more in vitro physiological microenvironments integrating multiple physical stimulations to better study organ development and its functions.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6631526 | PMC |
| http://dx.doi.org/10.3390/mi10060400 | DOI Listing |
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