Fabrication of Flexible Neural Probes With Built-In Microfluidic Channels by Thermal Bonding of Parylene

Author

Ziegler, Dominik ; Suzuki, Takafumi ; Takeuchi, Shoji

Author_Institution

Center for Int. Res. on MicroMechatronics, Univ. of Tokyo

Volume

15

Issue

6

fYear

2006

Firstpage

1477

Lastpage

1482

Abstract

This paper describes the fabrication technology and characterization of Parylene neural probes containing fluidic channels for delivery of small amounts of drugs into biological tissue as well as neural recording. We present a first attempt to realize such neural probes by micromolding and thermal bonding of Parylene. Compared to the common fabrication method, where a sacrificial photoresist layer is sandwiched between two Parylene layers, the major advantages of this process are, that the time consuming photoresist dissolution is omitted, and that the adhesion between the Parylene layers could be improved. The electrodes were characterized by impedance measurements, in which an impedance sufficiently low for neural recording was observed. Fluidic injection experiments with the microchannel have shown that nanoliter volumes can be injected

Keywords

adhesion; biological tissues; drugs; electric impedance measurement; microelectrodes; microfluidics; moulding; photoresists; polymers; probes; adhesion; biological tissue; built-in microfluidic channels; impedance measurement; microchannel; micromolding; parylene neural probes; photoresist dissolution; photoresist layer; thermal bonding; Adhesives; Biological tissues; Bonding; Drugs; Electrodes; Fabrication; Microfluidics; Pharmaceutical technology; Probes; Resists; Microfluidic; neural probes; parylene; thermal bonding;

fLanguage

English

Journal_Title

Microelectromechanical Systems, Journal of

Publisher

ieee

ISSN

1057-7157

Type

jour

DOI

10.1109/JMEMS.2006.879681

Filename

4020301