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http://dx.doi.org/10.4333/KPS.2006.36.3.169

Preparation of Tenoxicam Salt with Ethanolamine to Enhance the Percutaneous Absorption  

Gwak, Byung-Tae (College of Pharmacy Chosun University)
Chun, Myung-Kwan (College of Pharmacy Chosun University)
Choi, Hoo-Kyun (College of Pharmacy Chosun University)
Publication Information
Journal of Pharmaceutical Investigation / v.36, no.3, 2006 , pp. 169-174 More about this Journal
Abstract
The aim of this work was to prepare tenoxicam-ethanolamine salt with improved physicochemical properties for transdermal application. Tenoxicam-ethanolamine salt was prepared in methylene chloride and its physicochemical properties were investigated by DSC and FT-lR. The broad peak of tenoxicam around 3600-3200 $cm^-1$ was shifted to lower wavenumber and more broadened. The characteristic endothermic melting peak of tenoxicam appeared at $223^{\circ}C$. The melting peak of tenoxicam-ethanolamine salt was shifted to $159^{\circ}C$. In contrast to relatively small difference in the partition coefficients of tenoxicam and the tenoxicam-ethanolamine salt, large difference in aqueous solubility was observed. $Crovol^{\circledR}$ PK4O (PEG-12 palm kernel glycerides) provided the highest skin flux for both compounds. The order of the enhancing effect of the various vehicles tested was similar for tenoxicam and tenoxicam-ethanolamine salt, which indicated that their enhancing mechanism for tenoxicam and tenoxicam-ethanolamine salt is similar. Tenoxicam-ethanolamine salt had a higher skin flux than tenoxicam by 1.2- to 31.7-fold, depending on the vehicles used. It is suggested that the vehicles with medium HLB value, 1 double bond, and lower ethylene oxide chain length have a better ability to modify the permeability of the stratum corneum and to promote the effective penetration of tenoxicam and tenoxicam-ethanolamine salt.
Keywords
Tenoxicam; Ethanolamine; Salt; Percutaneous; Enhancer; Solubility;
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