Room-temperature luminescence optosensings based on immobilized active principles actives Application to nafronyl and naproxen determination in pharmaceutical preparations and biological fluids

This paper presents two easy and selective methods for determining the active principles nafronyl (NFL) and naproxen (NAP), using a flow-through fluorescence optosensor based on the on-line immobilization on a nonionic-exchanger (Silica Gel, DavisilTM and Amberlite XAD 7, respectively) solid support. The determination was performed in 5×10−3 M HAc/NaAc buffer solution at pH 5 for NFL and 15 × 10−3 M glycine/HCl buffer solution at pH 2.5 for NAP at a working temperature of 20 ◦C. The fluorescence intensities were measured at λex/em = 294/336 nm and λex/em = 332/354 nm for NFL and NAP, respectively. The response time for these optosensors were practically instant, obtaining a linear concentration range between 0 and 700.0 ng ml−1 with a detection limit of 20.8 ng ml−1, an analytical sensitivity of 10.1 ng ml−1 and a standard deviation of 1.27% at a 500 ng ml−1 concentration level for NFL and a linear concentration range between 0 and 200.0 ng ml−1 with the detection limit of 13.3 ng ml−1, an analytical sensitivity of 6.0 ng ml−1 and a standard deviation of 3.52% at a 100 ng ml−1 concentration level for NAP. The proposed methods were satisfactorily applied to real samples (three commercial formulations and urine samples). The effects of the possible interferences were evaluated in all cases. © 2002 Elsevier Science B.V. All rights reserved.