Hideki Fujioka scite author profile

We describe a microfabricated airway system integrated with computerized air-liquid two-phase microfluidics that enables onchip engineering of human airway epithelia and precise reproduction of physiologic or pathologic liquid plug flows found in the respiratory system. Using this device, we demonstrate cellularlevel lung injury under flow conditions that cause symptoms characteristic of a wide range of pulmonary diseases. Specifically, propagation and rupture of liquid plugs that simulate surfactantdeficient reopening of closed airways lead to significant injury of small airway epithelial cells by generating deleterious fluid mechanical stresses. We also show that the explosive pressure waves produced by plug rupture enable detection of the mechanical cellular injury as crackling sounds.airway reopening ͉ small airway epithelial cells ͉ mechanical forces ͉ microfluidic cell culture

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Conventional multiple or microdissection testicular sperm extraction: a comparative study

Tsujimura¹,

Matsumiya²,

Miyagawa³

et al. 2002

Human Reproduction

181

136

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Prediction of Successful Outcome of Microdissection Testicular Sperm Extraction in Men With Idiopathic Nonobstructive Azoospermia

et al. 2004

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Liquid plug formation in an airway closure model

et al. 2019

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Hideki Fujioka

Acoustically detectable cellular-level lung injury induced by fluid mechanical stresses in microfluidic airway systems

Conventional multiple or microdissection testicular sperm extraction: a comparative study

Prediction of Successful Outcome of Microdissection Testicular Sperm Extraction in Men With Idiopathic Nonobstructive Azoospermia

Liquid plug formation in an airway closure model

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