Glucose recovery in a microfluidic microdialysis biochip

Microdialysis is a technique for separating biomolecules by controlling the mass transfer rate of biomolecules diffusing across a semipermeable membrane. It has been used in the medical community to continuously monitor various metabolites (glucose, lactate, sodium, etc.) in patients. Glucose microd...

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Bibliographic Details
Published in:Sensors and actuators. B, Chemical Chemical, 2005-06, Vol.107 (2), p.649-656
Main Authors: Hsieh, Yi-Cheng, Zahn, Jeffrey D.
Format: Article
Language:English
Subjects:
Diabetes
Glucose sensing
Microdialysis
Microfluidics
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Summary:Microdialysis is a technique for separating biomolecules by controlling the mass transfer rate of biomolecules diffusing across a semipermeable membrane. It has been used in the medical community to continuously monitor various metabolites (glucose, lactate, sodium, etc.) in patients. Glucose microdialysis is of particular interest in diabetes treatment. Commercially available microdialysis probes have been used to create microdialysis sampling systems with a glucose biosensor. However, most probes are operated in a diffusion limited regime and struggle to obtain high recoveries of analytes. In this paper, an on-chip microdialysis system is presented. Dialysis of sulforhodamine fluorescent dye (MW 607) and glucose (MW 180) are demonstrated. The average permeability of the membrane to the fluorescent dye is 0.3471 μm/s (standard deviation (S.D.) 0.0235 μm/s) and is 2.5280 μm/s (S.D. 0.3723 μm/s) for glucose. The results of fluorescence and glucose dialysis show consistency and follow analytically predicted results. The system is sensitive to rapid changes in glucose reservoir concentration. Within 10 min of a reservoir concentration change, the outlet concentration of the dialysate has reached steady state with an 80% glucose recovery at a flowrate of 1.5 μl/min.
ISSN:0925-4005
1873-3077
DOI:10.1016/j.snb.2004.11.039