Spectrophotometric determination of glucose in foods by flow injection analysis with an immobilized glucose oxidase reactor

A flow-mqectlon system for the chemdummometnc determmatlon of o-glucose m serum with an lmmobdlzed pyranose oxldase reactor IS described Pyranose oxldase IS lmmobdlzed on controlled-pore glass beads and packed mto a stamless-steel column Serum (100 nl) IS dduted lOWfold with water Sample solution (1

A sequential method for determination of glucose and fructose involving the u8e of enzymes (hexokinase and glucose-6-phosphate dehydrogenase) immobilized on controlled-pore glass is proposed. The flow is selected so as to determine glucose or both sugars by fluorimetric determination of the NADH for

A flow-mjectlon spectrophotometrx procedure 1s described for the sequential deternunatlon of glucose, fructose and sucrose m a sample solution by usmg s&e and dual lmmobdtzed enzyme reactors m a smgle mamfold Concentrations III the range 10-5-10-3 M are determmed urlth analysis rates of 30-40 determ

A flow-injection system with anodic aniperometric detection for glucose determination in human blood serum samples was optimized by a comparison of various arrangements of enzyme immobilization and the elimination o f interferences. The best results were obtained using a compact membrane biosensor i

Flow injection amperometric and chemiluminescence methods for the individual and simultaneous determination of lysine and glucose by using lysine oxidase and glucose oxidase are described in this paper. The calibration graphs for lysine are linear over the range 1 x lOA -1.6x lO-4 and 2.05 x 10W7-2.