In viewof the above considerations, the development of a simple
and sensitive method for the determination of naproxen in biological
fluids could be very useful for toxicological and pharmaceutical
purposes. Several methods dealing with naproxen determination
in pharmaceutical preparation or biological fluids have been
reported, including chemiluminescence [6,7], spectrofluorometry
[8,9], differential pulse voltammetry [10], gas chromatography
mass spectrometry [11], electrophoresis [12] and high-performance
liquid chromatography (HPLC) with varied detection [13,14].
Although these methods have been successfully applied to analysis
of naproxen in various matrices, some of these methods lack
sensitivity and suffer from tedious procedure, time consuming or
high cost.
In viewof the above considerations, the development of a simpleand sensitive method for the determination of naproxen in biologicalfluids could be very useful for toxicological and pharmaceuticalpurposes. Several methods dealing with naproxen determinationin pharmaceutical preparation or biological fluids have beenreported, including chemiluminescence [6,7], spectrofluorometry[8,9], differential pulse voltammetry [10], gas chromatographymass spectrometry [11], electrophoresis [12] and high-performanceliquid chromatography (HPLC) with varied detection [13,14].Although these methods have been successfully applied to analysisof naproxen in various matrices, some of these methods lacksensitivity and suffer from tedious procedure, time consuming orhigh cost.
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