Simultaneous assay of glucose, lactate, L-glutamate and hypoxanthine levels in a rat striatum using enzyme electrodes based on neutral red-doped silica nanoparticles

An electrochemical method suitable for the simultaneous measurement of cerebral glucose, lactate, L-glutamate and hypoxanthine concentrations from in vivo microdialysis sampling has been successfully performed for the first time using a neutral red-doped silica (NRDS) nanoparticle-derived enzyme sen...

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Veröffentlicht in:	Analytical and bioanalytical chemistry 2004-10, Vol.380 (4), p.637-642
Hauptverfasser:	Zhang, Fen-Fen, Wan, Qiao, Li, Chen-Xin, Wang, Xiao-Li, Zhu, Zi-Qiang, Xian, Yue-Zhong, Jin, Li-Tong, Yamamoto, Katsunobu
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Sprache:	eng
Schlagworte:	Animals Biosensing Techniques - instrumentation Biosensing Techniques - methods Electrochemistry Electrodes Glucose - analysis Glucose - metabolism Glutamic Acid - analysis Glutamic Acid - metabolism Hydrogen-Ion Concentration Hypoxanthine - analysis Hypoxanthine - metabolism Lactic Acid - analysis Lactic Acid - metabolism Microscopy, Electron, Transmission Nanotechnology Neostriatum - metabolism Neutral Red Oxidoreductases - metabolism Particle Size Rats Silicon Dioxide Temperature Time Factors
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container_title	Analytical and bioanalytical chemistry
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creator	Zhang, Fen-Fen Wan, Qiao Li, Chen-Xin Wang, Xiao-Li Zhu, Zi-Qiang Xian, Yue-Zhong Jin, Li-Tong Yamamoto, Katsunobu
description	An electrochemical method suitable for the simultaneous measurement of cerebral glucose, lactate, L-glutamate and hypoxanthine concentrations from in vivo microdialysis sampling has been successfully performed for the first time using a neutral red-doped silica (NRDS) nanoparticle-derived enzyme sensor system. These uniform NRDS nanoparticles (about 50 +/- 3 nm) were prepared by a water-in-oil (W/O) microemulsion method, and characterized by a TEM technique. The neutral red-doped interior maintained its high electron-activity, while the exterior nano-silica surface prevented the mediator from leaching out into the aqueous solution, and showed high biocompability. These nanoparticles were then mixing with the glucose oxidase (GOD), lactate oxidase (LOD), L-glutamate oxidase (L-GLOD) or xanthine oxidase (XOD), and immobilized on four glassy carbon electrodes, respectively. A thin Nafion film was coated on the enzyme layer to prevent interference from molecules such as ascorbic acid and uric acid in the dialysate. The high sensitivity of the NRDS modified enzyme electrode system enables the simultaneous monitoring of trace levels of glucose, L-glutamate, lactate and hypoxanthine in diluted dialysate samples from a rat striatum.
doi_str_mv	10.1007/s00216-004-2804-x
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subjects	Animals Biosensing Techniques - instrumentation Biosensing Techniques - methods Electrochemistry Electrodes Glucose - analysis Glucose - metabolism Glutamic Acid - analysis Glutamic Acid - metabolism Hydrogen-Ion Concentration Hypoxanthine - analysis Hypoxanthine - metabolism Lactic Acid - analysis Lactic Acid - metabolism Microscopy, Electron, Transmission Nanotechnology Neostriatum - metabolism Neutral Red Oxidoreductases - metabolism Particle Size Rats Silicon Dioxide Temperature Time Factors
title	Simultaneous assay of glucose, lactate, L-glutamate and hypoxanthine levels in a rat striatum using enzyme electrodes based on neutral red-doped silica nanoparticles
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