Morgan Harding scite author profile

Morgan Harding

3Publications

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28Citation Statements Given

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University of Florida

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Mathematical Models for the Impedance Response of Subcutaneous Glucose Sensors

Harding

Orazem

Tribollet³

2016

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Since 1974, the artificial pancreas has been acknowledged by the greater scientific community to be a possible way to manage type 1 diabetes [1]. In 2008, a case study showed that a subcutaneous continuous glucose monitor sensor could be implanted for 28 days in a patient with type 1 diabetes [2]. However, commercially available subcutaneous continuous glucose monitors are generally changed every seven days to avoid unreliable results. The object of this work is to explore the potential of impedance spectroscopy to monitor the state of health of subcutaneous continuous glucose monitor sensors. A mathematical model has been developed for the impedance response of a glucose oxidase enzyme-based electrochemical biosensor. The model accounts for a glucose limiting membrane GLM, which controls the amount of glucose participating in the enzymatic reaction. The glucose oxidase was assumed to be immobilized within a thin film adjacent to the electrode. In the glucose oxidase layer, a process of enzymatic catalysis transforms the glucose into peroxide, which can be detected electrochemically. This system may be considered to be a special case of the coupled homogeneous and heterogeneous reactions addressed by Levich [3]. The model development required two steps. The nonlinear coupled differential equations governing this system were solved under the assumption of a steady state. The steady-state concentrations resulting from the steady-state simulation were used in the solution of the linearized set of differential equations describing the sinusoidal steady state. The enzymatic catalysis was treated in terms of two homogeneous reactions, one consuming the glucose oxidase and forming gluconic acid, and the other regenerating the glucose oxidase and forming the peroxide. References A. M. Albisser, B. S. Leibel, T. G. Ewart, Z. Davidovac, C. K. Botz, and W. Zingg, Diabetes 23 (1974), 389–396. J. J. Chamberlain and D. Small, Clin. Diabetes, 26 (2008), 138–139. V. G. Levich, Physicochemical Hydrodynamics, Prentice Hall, Englewood Cliffs, NJ, (1962), p. 345-357.

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Minority carrier lifetime control in the gate-controlled switch

Windecker

Hahn²,

Harding³

1964

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The Influence of Homogeneous Reactions on the Impedance Response of a Rotating Disk Electrode

Harding

Tribollet²,

Orazem

2016

Meet. Abstr.

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HAL is a multi-disciplinary open access archive for the deposit and dissemination of scientific research documents, whether they are published or not. The documents may come from teaching and research institutions in France or abroad, or from public or private research centers. L'archive ouverte pluridisciplinaire HAL, est destinée au dépôt et à la diffusion de documents scientifiques de niveau recherche, publiés ou non, émanant des établissements d'enseignement et de recherche français ou étrangers, des laboratoires publics ou privés.

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Morgan Harding

Mathematical Models for the Impedance Response of Subcutaneous Glucose Sensors

Minority carrier lifetime control in the gate-controlled switch

The Influence of Homogeneous Reactions on the Impedance Response of a Rotating Disk Electrode

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