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Topical piroxicam in vitro release and in vivo anti-inflammatory and analgesic effects from palm oil esters-based nanocream

Authors Abdulkarim M, Abdullah GZ, Chitneni M, Salman IM, Ameer OZ, Yam MF, Mahdi ES, Sattar MA, Basri M, Noor AM

Published 4 November 2010 Volume 2010:5 Pages 915—924


Review by Single anonymous peer review

Peer reviewer comments 4

Muthanna F Abdulkarim1*, Ghassan Z Abdullah1*, Mallikarjun Chitneni2, Ibrahim M Salman1, Omar Z Ameer1, Mun F Yam1,3, Elrashid S Mahdi1, Munavvar A Sattar1, Mahiran Basri4, Azmin M Noor1
1School of Pharmaceutical Sciences, Universiti Sains Malaysia, Penang, Malaysia; 2School of Pharmacy and Health Sciences, International Medical University, Kuala Lumpur, Malaysia; 3Faculty of Medicine and Health Sciences, 4Faculty of Science, Universiti Putra Malaysia, Selangor, Malaysia; *The First and Second Authors have Contributed Equally to this Work

Introduction: During recent years, there has been growing interest in use of topical vehicle systems to assist in drug permeation through the skin. Drugs of interest are usually those that are problematic when given orally, such as piroxicam, a highly effective anti-inflammatory, antipyretic, and analgesic, but with the adverse effect of causing gastrointestinal ulcers. The present study investigated the in vitro and in vivo pharmacodynamic activity of a newly synthesized palm oil esters (POEs)-based nanocream containing piroxicam for topical delivery.
Methods: A ratio of 25:37:38 of POEs: external phase: surfactants (Tween 80:Span 20, in a ratio 80:20), respectively was selected as the basic composition for the production of a nanocream with ideal properties. Various nanocreams were prepared using phosphate-buffered saline as the external phase at three different pH values. The abilities of these formulae to deliver piroxicam were assessed in vitro using a Franz diffusion cell fitted with a cellulose acetate membrane and full thickness rat skin. These formulae were also evaluated in vivo by comparing their anti-inflammatory and analgesic activities with those of the currently marketed gel.
Results: After eight hours, nearly 100% of drug was transferred through the artificial membrane from the prepared formula F3 (phosphate-buffered saline at pH 7.4 as the external phase) and the marketed gel. The steady-state flux through rat skin of all formulae tested was higher than that of the marketed gel. Pharmacodynamically, nanocream formula F3 exhibited the highest anti-inflammatory and analgesic effects as compared with the other formulae.
Conclusion: The nanocream containing the newly synthesized POEs was successful for transdermal delivery of piroxicam.

Keywords: piroxicam, nanocream, analgesic, anti-inflammatory, skin permeation

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