Development of quantitative enzymatic method and its validation for the assay of glucose in human serum.

OBJECTIVE

To develop a simple, rapid, sensitive and affordable assay method for the determination of glucose in blood samples using a novel approach.

DESIGN AND METHODS

A spectrophotometric method for glucose quantification in human serum samples based on self-coupling of activated 2,5-dimethoxyaniline (DMA) in the presence of peroxidase (POD)/glucose oxidase (GOD) and H(2)O(2) is described. H(2)O(2) generated in situ by catalytic reaction between GOD and glucose, activates DMA in the presence of POD to form a green-colored product, which has a strong absorption at λ(max)=740 nm at room temperature (30°C) in a 100 mmol/L acetate/acetic acid buffer of pH 4.2.

RESULTS

The linearity ranges for the quantification of glucose by rate and one-time detection method are 0.017-0.740 and 0.017-0.478 mmol/L, respectively. Within-day and day-to-day precision were 0.98-1.4% (n=10) and 1.33-2.89% (n=15), respectively. Glucose recoveries ranged from 96.6 to 102%, indicating minimal interference by commonly present interferants in serum samples. Accuracy results were between 90 and 102%. The detection and quantification limits of glucose were 2.376 and 7.923 μmol/L, respectively. The proposed method has good correlation coefficient of 0.999 with the enzymatic kit method.

CONCLUSIONS

This is a rapid and convenient method to determine serum glucose using simple spectrophotometer with excellent recovery and minimal interference by interferants in serum samples with low detection limit. Therefore, this method can be considered for adoption by the clinical diagnostic laboratories.