Kathryn E. S. Medlock scite author profile

Kathryn E. S. Medlock

3Publications

39Citation Statements Received

19Citation Statements Given

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Continuous Blood Glucose Monitoring with a Thin-Film Optical Sensor

Worsley¹,

Tourniaire²,

Medlock³

et al. 2007

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Background:We recently described a holographic optical sensor with improved selectivity for glucose over fructose that was based on a thin-film polymer hydrogel containing phenylboronic acid receptors. The aim of the present work was to measure glucose in human blood plasma as opposed to simple buffers and track changes in concentration at a rate mimicking glucose changes in vivo. Methods: We used holographic sensors containing acrylamide, N,N-methylenebisacrylamide, 3-acrylamidophenylboronic acid, and (3-acrylamidopropyl)trimethylammonium chloride to measure 7 human blood plasma samples at different glucose concentrations (3-33 mmol/L) in static mode. Separately, using a flow cell, the glucose concentration was varied at approximately 0.17-0.28 mmol ؊1 ⅐ L ؊1 ⅐ min

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Measurement of Glucose in Blood with a Phenylboronic Acid Optical Sensor

Worsley¹,

Tourniaire²,

Medlock³

et al. 2008

J Diabetes Sci Technol

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Background: Current methods of glucose monitoring rely predominantly on enzymes such as glucose oxidase for detection. Phenylboronic acid receptors have been proposed as alternative glucose binders. A unique property of these molecules is their ability to bind glucose in a fully reversible covalent manner that facilitates direct continuous measurements. We examined (1) the ability of a phenylboronic-based sensor to measure glucose in blood and blood plasma and (2) the effect on measurement accuracy of a range of potential interferents. We also showed that the sensor is able to track glucose fluctuations occurring at rates mimicking those experienced in vivo.

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pH-sensitive holograms for continuous monitoring in plasma

Medlock¹,

Harmer²,

Worsley³

et al. 2007

Anal Bioanal Chem

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Conventional electrochemical methods of determining the pH of body fluids have drawbacks. Newer optical methods offer the promise of miniaturisation and continuous in vivo measurements without drift. This report examines the ability of a holographic sensor based on a thin-film, biocompatible hydrogel (approximately 10 microm) of poly(2-hydroxyethyl methacrylate) and ionisable 2-(dimethylaminoethyl) methacrylate to accurately measure the pH of blood plasma ex vivo. It is found that the sensors behave in a fully reversible manner. After an initial calibration with buffers, they can measure pH over extended periods (more than 40 h).

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