Spectroscopic studies of micro environment dictated structural forms of piroxicam and meloxicam

Long acting non-steroidal anti-inflammatory drugs (NSAIDs) belonging to the oxicam group have attracted special interest because of their diverse biological functions. In this study we present the influence of micro environment on the spectral properties of two oxicam drugs viz. piroxicam. and meloxicam. For the two drugs, a high energy shift of the U-V absorption maxima was observed with increasing drug concentrations both in protic solvent like ethanol and aprotic solvent like dimethyl sulfoxide (DMSO). Studies involving variation of percentage volume of water as well as pH, using absorption and steady state fluorescence spectroscopy, allow us to identify the principal species present at different concentrations of the drugs. It is found that even trace quantity of water present in the solvent becomes significant at low concentration of the drug making the water/drug ratio sufficiently large to support the formation of anion. As the concentration of the drug increases, the number of water molecules available per drug molecule decreases and most of the drug molecules face a relatively apolar environment in which zwitterionic/neutral species become predominant. This results in a concentration-dependent high-energy shift of the absorption maximum. This study demonstrates how microenvironments of these drugs guide the nature of the predominant form present in solution. (C) 2002 Elsevier Science B.V. All rights reserved.