Spectrophotometric determination of glucose and fructose in injections using tetracynoethylene reagent

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

Zirconyl chloride upon hydrolysis in water to form Zr(OH) ϩ has been found to react to form a fluorescent derivative with not only a ketose such as fructose but also a hexose such as glucose and the disaccharide sucrose. When reaction conditions such as a temperature of 99°C and a time of 60 min are

Mixtures of aztreonam, 2S-[2 alpha,3 beta(Z)]-2-[[[1-(2-amino-4-thiazolyl-2- [(2-methyl-4-oxo-1-sulfo-3-azetidinyl) amino]-2-oxo- ethylidine]amino]oxy]-2-methyl-propanoic acid, and L-arginine are assayed by peak-to-baseline, peak-to-peak, and zero-crossing second-derivative spectrophotometry. Aztreo

## An AutoAnalyzer procedure is described in which glucose, produced by the amyloglucosidase-catalyzed hydrolysis of maltose. is determined by using glucose dehydrogenase and NAD'. The method is selective. precise ( 1.1% r.s. d. from day-to-day) and rapid (60 samples he').