Periodic Flows in Microfluidics.

Microfluidics, the science and technology of manipulating fluids in microscale channels, offers numerous advantages, such as low energy consumption, compact device size, precise control, fast reaction, and enhanced portability. These benefits have led to applications in biomedical assays, disease diagnostics, drug discovery, neuroscience, and so on. Fluid flow within microfluidic channels is typically in the laminar flow region, which is characterized by low Reynolds numbers but brings the challenge of efficient mixing of fluids.

Live human nasal epithelial cells (hNECs) on chip for in vitro testing of gaseous formaldehyde toxicity via airway delivery.

Cell models based on human nasal epithelial stem/progenitor cells (hNESPCs) are developed to obtain functional ciliated cells on modified Transwell inserts. The live hNECs are integrated into microfluidic platforms to mimic the 3D features of the human upper airway for in vitro testing of gaseous formaldehyde toxicity via airway delivery.