Article ID Journal Published Year Pages File Type
1241837 Talanta 2016 9 Pages PDF
Abstract

•Microparticles based on methacrylates present an interesting matrix for GOx immobilization.•These microparticles can be used as biological element in glucose biosensors.•The increasing of the stability seem the most interesting characteristics of the biosensors.•The biosensor has been successfully applied to the determination of glucose in serum samples.

In the line of the applicability of biocompatible monomers pH and temperature dependent, we assayed poly-methacrylic acid (p-MAA) microparticles as immobilization system in the design of enzymatic biosensors. Glucose oxidase was used as enzyme model for the study of microparticles as immobilization matrices and as biological material in the performance of glucose biosensors. The enzyme immobilization method was optimized by investigating the influence of monomer concentration and cross-linker content (N′,N′-methylenebisacrylamide), used in the preparation of the microparticles in the response of the biosensors. The kinetics of the polymerization and the effects of the temperature were studied, also the conversion of the polymerization was determinates by a weight method. The structure of the obtained p-MAA microparticles were studied through scanning electron microscopy (SEM) and differential scanning microscopy (DSC). The particle size measurements were performed with a Galai-Cis 1 particle analyzer system. Furthermore, the influence of the swelling behavior of hydrogel matrix as a function of pH and temperature were studied. Analytical properties such as sensitivity, linear range, response time and detection limit were studied for the glucose biosensors. The sensitivity for glucose detection obtained with poly-methacrylic acid (p-MAA) microparticles was 11.98 mA M−1 cm−2 and 10 μM of detection limit. A Nafion® layer was used to eliminate common interferents of the human serum such as uric and ascorbic acids. The biosensors were used to determine glucose in human serum samples with satisfactory results. When stored in a frozen phosphate buffer solution (pH 6.0) at −4 °C, the useful lifetime of all biosensors was at least 550 days.

Related Topics
Physical Sciences and Engineering Chemistry Analytical Chemistry
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