Solid-state sensor incorporated in microfluidic chip and magnetic-bead enzyme immobilization approach for creatinine and glucose detection in serum

Yen Heng Lin; Chien Hung Chiang; Min Hsien Wu; Tung Ming Pan; Ji Dung Luo; Chiuan Chian Chiou

doi:10.1063/1.3671078

Solid-state sensor incorporated in microfluidic chip and magnetic-bead enzyme immobilization approach for creatinine and glucose detection in serum

Yen Heng Lin^*, Chien Hung Chiang, Min Hsien Wu, Tung Ming Pan, Ji Dung Luo, Chiuan Chian Chiou

^*Corresponding author for this work

Chang Gung University

Research output: Contribution to journal › Journal Article › peer-review

21 Scopus citations

Abstract

Solid-state sensors are stable and inexpensive electric transducers for biomedical measurement. This study proposes a microfluidic chip incorporated with a solid-state sensor for measuring glucose and creatinine in blood serum. Magnetic beads are employed to immobilize enzymes and deliver them in a micro-channel. Glucose and creatinine can be measured at 2-8 mM and 10 ^-2 to 10 mM, respectively, which is a meaningful range in human blood. The immobilization approach also addresses the issue of the long-term preservation of enzymes in microfluidic devices. The proposed device is suitable for multi-target measurement in a point-of-care system.

Original language	English
Article number	253704
Journal	Applied Physics Letters
Volume	99
Issue number	25
DOIs	https://doi.org/10.1063/1.3671078
State	Published - 19 12 2011

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abstract = "Solid-state sensors are stable and inexpensive electric transducers for biomedical measurement. This study proposes a microfluidic chip incorporated with a solid-state sensor for measuring glucose and creatinine in blood serum. Magnetic beads are employed to immobilize enzymes and deliver them in a micro-channel. Glucose and creatinine can be measured at 2-8 mM and 10 -2 to 10 mM, respectively, which is a meaningful range in human blood. The immobilization approach also addresses the issue of the long-term preservation of enzymes in microfluidic devices. The proposed device is suitable for multi-target measurement in a point-of-care system.",

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AU - Lin, Yen Heng

AU - Chiang, Chien Hung

AU - Wu, Min Hsien

AU - Pan, Tung Ming

AU - Luo, Ji Dung

AU - Chiou, Chiuan Chian

PY - 2011/12/19

Y1 - 2011/12/19

N2 - Solid-state sensors are stable and inexpensive electric transducers for biomedical measurement. This study proposes a microfluidic chip incorporated with a solid-state sensor for measuring glucose and creatinine in blood serum. Magnetic beads are employed to immobilize enzymes and deliver them in a micro-channel. Glucose and creatinine can be measured at 2-8 mM and 10 -2 to 10 mM, respectively, which is a meaningful range in human blood. The immobilization approach also addresses the issue of the long-term preservation of enzymes in microfluidic devices. The proposed device is suitable for multi-target measurement in a point-of-care system.

AB - Solid-state sensors are stable and inexpensive electric transducers for biomedical measurement. This study proposes a microfluidic chip incorporated with a solid-state sensor for measuring glucose and creatinine in blood serum. Magnetic beads are employed to immobilize enzymes and deliver them in a micro-channel. Glucose and creatinine can be measured at 2-8 mM and 10 -2 to 10 mM, respectively, which is a meaningful range in human blood. The immobilization approach also addresses the issue of the long-term preservation of enzymes in microfluidic devices. The proposed device is suitable for multi-target measurement in a point-of-care system.

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JO - Applied Physics Letters

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ER -

Solid-state sensor incorporated in microfluidic chip and magnetic-bead enzyme immobilization approach for creatinine and glucose detection in serum

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