A vortex pump-based optically-transparent microfluidic platform for biotech and medical applications

Kin Fong Lei; Wing Cheung Law; Yick-Keung Suen; Wen J. Li; Yeung Yam; Ho Pui Ho; Siu-Kai Kong

doi:10.1243/09544119JEIM189

A vortex pump-based optically-transparent microfluidic platform for biotech and medical applications

Kin Fong Lei, Wing Cheung Law, Yick-Keung Suen, Wen J. Li, Yeung Yam, Ho Pui Ho, Siu-Kai Kong

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

19 Citations (Scopus)

Abstract

This paper reports an automated polymer based microfluidic analysis system integrated with a surface plasmon resonance (SPR) biosensor that demonstrates the detection of specific binding of biomolecules and that qualitatively monitors cell adhesion on the sensor surface. Micropumps, microchannels, and an SPR biosensor were integrated into a single polymer (PMMA) based microfluidic system. The integrated system has been studied for its potential applications in bio-molecules detection and drugs discovery. Two experiments, (1) monitoring the reaction between the BSA-BSA antibody, and (2) monitoring the activities of living cells in the presence or absence of trypsin in a RPMI-1640 medium, were conducted to show the biomedical application capability. Because SPR based bio-detection requires optically transparent substrates, PMMA is a potential replacement for glass and silicon-glass in microfluidic systems, if bio-compatibility and low-cost are desired. Hence, our work has shown the feasibility of commercializing an SPR based bio-medical/ chemical analysis system in the near future. © IMechE 2007.

Original language	English
Pages (from-to)	129-141
Journal	Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine
Volume	221
Issue number	2
DOIs	https://doi.org/10.1243/09544119JEIM189
Publication status	Published - Jan 2007
Externally published	Yes

Research Keywords

Bio-medical microfluids
Microfluidic systems
SPR biosensor

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title = "A vortex pump-based optically-transparent microfluidic platform for biotech and medical applications",

abstract = "This paper reports an automated polymer based microfluidic analysis system integrated with a surface plasmon resonance (SPR) biosensor that demonstrates the detection of specific binding of biomolecules and that qualitatively monitors cell adhesion on the sensor surface. Micropumps, microchannels, and an SPR biosensor were integrated into a single polymer (PMMA) based microfluidic system. The integrated system has been studied for its potential applications in bio-molecules detection and drugs discovery. Two experiments, (1) monitoring the reaction between the BSA-BSA antibody, and (2) monitoring the activities of living cells in the presence or absence of trypsin in a RPMI-1640 medium, were conducted to show the biomedical application capability. Because SPR based bio-detection requires optically transparent substrates, PMMA is a potential replacement for glass and silicon-glass in microfluidic systems, if bio-compatibility and low-cost are desired. Hence, our work has shown the feasibility of commercializing an SPR based bio-medical/ chemical analysis system in the near future. {\textcopyright} IMechE 2007.",

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author = "Lei, {Kin Fong} and Law, {Wing Cheung} and Yick-Keung Suen and Li, {Wen J.} and Yeung Yam and Ho, {Ho Pui} and Siu-Kai Kong",

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A vortex pump-based optically-transparent microfluidic platform for biotech and medical applications. / Lei, Kin Fong; Law, Wing Cheung; Suen, Yick-Keung et al.
In: Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine, Vol. 221, No. 2, 01.2007, p. 129-141.

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

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AU - Lei, Kin Fong

AU - Law, Wing Cheung

AU - Suen, Yick-Keung

AU - Li, Wen J.

AU - Yam, Yeung

AU - Ho, Ho Pui

AU - Kong, Siu-Kai

PY - 2007/1

Y1 - 2007/1

N2 - This paper reports an automated polymer based microfluidic analysis system integrated with a surface plasmon resonance (SPR) biosensor that demonstrates the detection of specific binding of biomolecules and that qualitatively monitors cell adhesion on the sensor surface. Micropumps, microchannels, and an SPR biosensor were integrated into a single polymer (PMMA) based microfluidic system. The integrated system has been studied for its potential applications in bio-molecules detection and drugs discovery. Two experiments, (1) monitoring the reaction between the BSA-BSA antibody, and (2) monitoring the activities of living cells in the presence or absence of trypsin in a RPMI-1640 medium, were conducted to show the biomedical application capability. Because SPR based bio-detection requires optically transparent substrates, PMMA is a potential replacement for glass and silicon-glass in microfluidic systems, if bio-compatibility and low-cost are desired. Hence, our work has shown the feasibility of commercializing an SPR based bio-medical/ chemical analysis system in the near future. © IMechE 2007.

AB - This paper reports an automated polymer based microfluidic analysis system integrated with a surface plasmon resonance (SPR) biosensor that demonstrates the detection of specific binding of biomolecules and that qualitatively monitors cell adhesion on the sensor surface. Micropumps, microchannels, and an SPR biosensor were integrated into a single polymer (PMMA) based microfluidic system. The integrated system has been studied for its potential applications in bio-molecules detection and drugs discovery. Two experiments, (1) monitoring the reaction between the BSA-BSA antibody, and (2) monitoring the activities of living cells in the presence or absence of trypsin in a RPMI-1640 medium, were conducted to show the biomedical application capability. Because SPR based bio-detection requires optically transparent substrates, PMMA is a potential replacement for glass and silicon-glass in microfluidic systems, if bio-compatibility and low-cost are desired. Hence, our work has shown the feasibility of commercializing an SPR based bio-medical/ chemical analysis system in the near future. © IMechE 2007.

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A vortex pump-based optically-transparent microfluidic platform for biotech and medical applications

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