Secondary Bacterial Infections in Influenza Virus Infection Pathogenesis

translation of in vitro cell based assays to in vivo cellular response is imprecise at best. The advent of three-dimensional cell cultures in addition to bioreactor type microfluidics has improved the situation. However, these technical advances cannot be easily combined due to practical limitations. Development of a vertical microfluidic cell printer overcomes this obstacle, providing the ability to more closely recapitulate complex cellular environments and responses. As a proof of concept, we investigated the adhesion of fibroblasts under flow on protein-coated surfaces using a novel vertical microfluidic print head to isolate and manipulate both mechanical and biological factors as a model of fibroblast behavior during the foreign body response following implant insertion. A low flow rate with larger microfluidic channels onto a serum-coated surface has been determined to allow the highest density of viable fibroblasts to attach to the surface. While these insights into fibroblast surface attachment may lead to better material designs, the methods developed herein will certainly be useful as a biomaterials testing platform.

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332 Hyaluronan Secretion as a Cell Defense Mechanism During Early Calcium Oxalate Associated Injury

Gohel¹,

Yuen²,

Poon³

et al. 2009

European Urology Supplements

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D. Au

Maximizing fibroblast adhesion on protein-coated surfaces using microfluidic cell printing

332 Hyaluronan Secretion as a Cell Defense Mechanism During Early Calcium Oxalate Associated Injury

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