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Conductive Polymers as Bioelectronic Materials

2012; Volume: 132; Issue: 9 Linguagem: Inglês

10.1541/ieejeiss.132.1422

1348-8155

Mitsuyoshi Onoda, Yayoi Abe, Kazuya Tada, Yusuke Kawakita, Toshiya Fujisato, Sadahito Uto,

Silk-based biomaterials and applications

Fibroblast L929 and myoblast C2C12 cells of the mouse connective tissue origin were sown on the surface of conductive polymer films (polypyrrole, PPy and poly(3,4-ethylenedioxythiophene), PEDOT) in the cell culture medium, and the proliferative process of these cells was observed. Without changing the form, fibroblast L929 and myoblast C2C12 cells were observed to proliferate almost similarly to the cell which cultured on a dish on the market and to maintain compatibility. In other word, it has been understood that these two kinds of conductive polymers used in this study, the PPy and PEDOT films maintain the secretion function of the cell cultured on the surface of these polymers. Therefore, the PPy- and the PEDOT-coated electrode suggested the possibility usable as a nerve stimulation electrode with biocompatibility, because these polymers were effective to culture the cell.