Therapeutic Micro and Nanotechnology Section: Microwell Array Photoimprint Lithography: Micropost Sensors and Guidance of PC12 Neurite Processes

Microwell array photoimprint lithography (PIL) is demonstrated by fabricating a patterned chemical sensing layer that is suitable for use with cultured biological cells and inverted epifluorescence microscopes. A microwell array is a ~50,000-count, coherent fiber-optic bundle whose distal face was e...

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Bibliographic Details
Published in:Biomedical microdevices 2002-05, Vol.4 (2), p.123
Main Authors: Soo-Kim, Quah, Danowski, Kristine L, Pantano, Paul
Format: Article
Language:English
Subjects:
Nanotechnology
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Summary:Microwell array photoimprint lithography (PIL) is demonstrated by fabricating a patterned chemical sensing layer that is suitable for use with cultured biological cells and inverted epifluorescence microscopes. A microwell array is a ~50,000-count, coherent fiber-optic bundle whose distal face was etched chemically. Individual microwells had ~3 [mu]m depths and ~8 [mu]m widths. The microwell array PIL process patterned an array of ~50,000 individual polymeric micropost sensors on a glass coverslip. Individual microposts were ~3 [mu]m tall and ~8 [mu]m wide. O2-sensitive micropost array sensors (MPASs) were fabricated using a ruthenium complex encapsulated in a gas permeable photopolymerizable siloxane. pH-sensitive MPASs were fabricated using a fluorescein conjugate encapsulated in a photocrosslinkable poly(vinyl alcohol)-based polymer. PO2 and pH were quantitated by acquiring MPAS luminescence images with an epifluorescence microscope/charge coupled device imaging system. The advantage of a patterned MPAS layer relative to a planar sensing layer is the ability to direct the growth of biological cells. Preliminary data are presented whereby nerve growth factor-differentiated rat pheochromocytoma (PC12) cells grew neurite-like processes that extended along paths defined by the micropost architecture.
ISSN:1387-2176
1572-8781