CHARACTERIZATION IN-VITRO OF A NAPHTHOQUINONE-MEDIATED GLUCOSE OXIDASE-MODIFIED CARBON-PASTE ELECTRODE DESIGNED FOR NEUROCHEMICAL ANALYSIS IN-VIVO

被引：11

作者：

ELATRASH, SS ^{[1
]}

ONEILL, RD ^{[1
]}

机构：

[1] NATL UNIV IRELAND UNIV COLL DUBLIN,DEPT CHEM,DUBLIN 4,IRELAND

来源：

ELECTROCHIMICA ACTA | 1995年 / 40卷 / 17期

关键词：

ENZYME-MODIFIED ELECTRODE; BIOSENSOR; QUINONE; ASCORBIC ACID; OXYGEN INTERFERENCE;

D O I：

10.1016/0013-4686(95)00260-L

中图分类号：

O646 [电化学、电解、磁化学];

学科分类号：

081704 ;

摘要：

We have constructed and characterised in vitro a glucose sensor using glucose oxidase (GOx) incorporated onto the surface of a 200-mu m diameter carbon paste electrode containing 1,4-naphthoquinone that acted as a mediator for electron transfer. The rationale behind this design was to produce a biosensor with minimal ascorbate and oxygen interference for use in neurochemical analysis in vivo. The key to successful realisation of this aim was detailed investigation of the optimum potential for operating the electrode. An applied potential of between - 100 and - 160 mV vs. see was found to produce the best selectivity for glucose; lower values gave faradaic currents for oxygen, and higher potentials faradaic responses for ascorbate. Operating at - 160mV, the sensor had the following advantages: good sensitivity (ca. 20 mu A cm(-2) for 5 mM glucose); insensitivity to competition for reduced enzyme by oxygen; and freedom from lipid surfactant interactions. The stability of the electrode was limited, however, to a few days.

引用

页码：2791 / 2797

页数：7

共 67 条

[1] INVIVO ELECTROCHEMICAL MEASUREMENTS IN THE CNS [J].

ADAMS, RN .

PROGRESS IN NEUROBIOLOGY, 1990, 35 (04) :297-311

[2] IMPROVED RESPONSE OF CARBON-PASTE ELECTRODES FOR ELECTROCHEMICAL DETECTION IN FLOW SYSTEMS BY PRETREATMENT WITH SURFACTANTS [J].

ALBAHADILY, FN ;

MOTTOLA, HA .

ANALYTICAL CHEMISTRY, 1987, 59 (07) :958-962

[3] DEVELOPMENT OF AN ELECTROCHEMICAL WORKSTATION FOR MONITORING THE FERMENTATION OF BEER [J].

ALBERY, WJ ;

APPLETON, MS ;

PRAGNELL, TRD ;

PRITCHARD, MJ ;

UTTAMLAL, M ;

FIELDGATE, LE ;

LAWRENCE, DR ;

SHARPE, FR .

JOURNAL OF APPLIED ELECTROCHEMISTRY, 1994, 24 (06) :521-524

[4] SENSITIVE ENZYME ELECTRODES [J].

ALBERY, WJ ;

BOUTELLE, MG ;

DURRANT, SLT ;

FILLENZ, M ;

HOPKINS, AR ;

MANGOLD, BP .

PHILOSOPHICAL TRANSACTIONS OF THE ROYAL SOCIETY OF LONDON SERIES A-MATHEMATICAL PHYSICAL AND ENGINEERING SCIENCES, 1990, 333 (1628) :49-61

[5] IMMOBILIZATION OF GLUCOSE-OXIDASE BY ELECTROPOLYMERIZATION OF MONOMERS - INFLUENCE OF POLYMERIZATION CONDITIONS [J].

ALMEIDA, NF ;

WINGARD, LB ;

MALMROS, MK .

ANNALS OF THE NEW YORK ACADEMY OF SCIENCES, 1990, 613 :448-451

[6] EFFECTS OF RESTRICTED DIFFUSION AT ULTRAMICROELECTRODES IN BRAIN-TISSUE - THE POOL MODEL - THEORY AND EXPERIMENT FOR CHRONOAMPEROMETRY [J].

AMATORE, C ;

KELLY, RS ;

KRISTENSEN, EW ;

KUHR, WG ;

WIGHTMAN, RM .

JOURNAL OF ELECTROANALYTICAL CHEMISTRY, 1986, 213 (01) :31-42

[7]

BAO JX, 1993, ACTA PHYSIOL SCAND, V148, P1

[8] COMPARISON OF DIFFERENT BIOSENSOR SYSTEMS SUITABLE FOR BIOPROCESS MONITORING [J].

BILITEWSKI, U ;

DREWES, W ;

NEERMANN, J ;

SCHRADER, J ;

SURKOW, R ;

SCHMID, RD ;

BRADLEY, J .

JOURNAL OF BIOTECHNOLOGY, 1993, 31 (03) :257-266

[9] LIFE-SPAN OF SUBCUTANEOUS GLUCOSE SENSORS AND THEIR PERFORMANCES DURING DYNAMIC GLYCEMIA CHANGES IN RATS [J].

BOBBIONIHARSCH, E ;

ROHNERJEANRENAUD, F ;

KOUDELKA, M ;

DEROOIJ, N ;

JEANRENAUD, B .

JOURNAL OF BIOMEDICAL ENGINEERING, 1993, 15 (06) :457-463

[10] MECHANISTIC ASPECTS OF THE ELECTRON AND ION-TRANSPORT PROCESSES ACROSS THE ELECTRODE SOLID SOLVENT (ELECTROLYTE) INTERFACE OF MICROCRYSTALLINE DECAMETHYLFERROCENE ATTACHED MECHANICALLY TO A GRAPHITE ELECTRODE [J].

BOND, AM ;

MARKEN, F .

JOURNAL OF ELECTROANALYTICAL CHEMISTRY, 1994, 372 (1-2) :125-135

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