Title :
Cell-based biosensor system using micropatterned polymer nanofiber
Author :
Lee, Hyun Jong ; Jang, Eunji ; Park, Saemi ; Murthy, P. S Keshava ; Koh, Won-Gun
Author_Institution :
Dept. of Chem. & Biomol. Eng., Yonsei Univ., Seoul, South Korea
Abstract :
In this study, to improve efficiency and functionality of cell-based biosensor microarrays, we introduced nano-topographical features on cell adhesive region. Micropatterned surface was created by poly (ethylene glycol) (PEG) hydrogel microstructures via photolithography. Nano-topographical features were introduced using polymeric nanofibers which were produced by electrospinning technique. Combining PEG hydrogel microstructure and polymeric nanofibers created a clear contrast between adhesion resist hydrogel walls and adhesion promoting nanofiber surfaces. When mammalian cells were seeded onto micropatterned nanostructure, cells only selectively adhered to nanofiber maintaining their viability, while adherent cells were not present on the hydrogel wall.
Keywords :
biomedical materials; biosensors; cellular biophysics; electrospinning; holey fibres; hydrogels; nanofibres; photolithography; polymer fibres; adhesion promoting nanofiber surfaces; cell-based biosensor microarrays; electrospinning technique; mammalian cells; micropatterned nanostructure; micropatterned polymer nano fiber; nano-topographical features; photolithography; poly (ethylene glycol) hydrogel microstructur; polymeric nanofibers; Adhesives; Biosensors; Fibroblasts; Fluorescence; Lithography; Microstructure; Polymers; Proteins; Scanning electron microscopy; Shape;
Conference_Titel :
Nanoelectronics Conference (INEC), 2010 3rd International
Conference_Location :
Hong Kong
Print_ISBN :
978-1-4244-3543-2
Electronic_ISBN :
978-1-4244-3544-9
DOI :
10.1109/INEC.2010.5424508
