Abstract

We present a MEMS sensor for continuous glucose monitoring for diabetes management. The device consists of a microcantilever, which is driven by remote magnetic field and situated in a microchamber separated from the sensing environment by a semi-permeable membrane. As glucose concentration varies, viscosity changes induced by glucose/copolymer binding in a poly(acrylamide-ran-3-acrylamidophenylboronic acid) (PAA-ran-PAAPBA) copolymer solution produce a measurable change in cantilever vibration. The device has been used to measure physiologically relevant glucose concentrations from 0 to 324 mg/dL. The response time of the sensor to glucose concentration changes was 3 minutes and can be further improved with optimized device designs.

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