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Proceedings Paper

Development of the MOSFET hybrid biosensor for self-monitoring of blood glucose
Author(s): Kazuyoshi Tsuchiya; Tatsuro Kuroda; Yasutomo Hirai; Naoyuki Iwamoto; Naoyuki Nakanishi; Yasutomo Uetsuji; Eiji Nakamachi
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Paper Abstract

We focus on the research to develop a compact Self Monitoring of Blood Glucose (SMBG). The SMBG consists of (1) a micro electrical pumping system for blood extraction, (2) a painless microneedle as same size as a female mosquito's labium and (3) a biosensor to detect and evaluate an amount of glucose in extracted blood, by using enzyme such as glucose oxidase (GOx). A gold (Au) plate immobilized GOx was used as a biosensor and attached to the gate electrode of MOSFET. GOx was immobilized on a self-assembled spacer combined with an Au electrode by the cross-link method using BSA (bovine serum albumin) as an additional bonding material. The electrode could detect electrons generated by the hydrolysis of hydrogen peroxide produced by the reaction between GOx and glucose using the constant electric current measurement system of the MOSFET type hybrid biosensor system. The system can measure the change of gate voltage. The extracting speed for whole blood using the micro electrical pumping system was about 2 μl/min. The extracted volume was sufficient to determine the glucose level in the blood; it was comparable to the volume extracted in a commercial glucose level monitor. In the functional evaluation of the biosensor system using hydrogen peroxide solution, it is shown that the averaged output voltage increases in alignment to hydrogen peroxide concentration. The linear value was shown with the averaged output voltage in corresponding hydrogen peroxide concentration with the averaged output voltage obtained from the biosensor system by glucose solution concentration. Furthermore, it is confirmed that the averaged output voltage from the biosensor system obtained by whole blood showed the same voltage in corresponding glucose solution concentration. The hybrid biosensor obtained the useful performance for the SMBG.

Paper Details

Date Published: 19 January 2006
PDF: 11 pages
Proc. SPIE 6036, BioMEMS and Nanotechnology II, 60360X (19 January 2006); doi: 10.1117/12.638120
Show Author Affiliations
Kazuyoshi Tsuchiya, Tokai Univ. (Japan)
Tatsuro Kuroda, Osaka Institute of Technology (Japan)
Yasutomo Hirai, Osaka Institute of Technology (Japan)
Naoyuki Iwamoto, Osaka Institute of Technology (Japan)
Naoyuki Nakanishi, Osaka Institute of Technology (Japan)
Yasutomo Uetsuji, Osaka Institute of Technology (Japan)
Eiji Nakamachi, Osaka Institute of Technology (Japan)

Published in SPIE Proceedings Vol. 6036:
BioMEMS and Nanotechnology II
Dan V. Nicolau, Editor(s)

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