Pluronic lecithin organogel as a topical drug delivery system

The objective of this study was to formulate and evaluate the pluronic lecithin organogel containing flurbiprofen for topical application. Different formulations of pluronic lecithin organogels were prepared by using pluronic F127, lecithin, flurbiprofen, isopropyl palmitate, water, sorbic acid, and potassium sorbate. To study the in vitro potential of these formulations, permeation studies were performed with Keshary-Chien diffusion cells. The results of the in vitro permeation studies found that release of flurbiprofen from dialysis membrane-70 was more than excised dorsal rat skin. Gelation temperature study was carried out to determine the temperature where sol-gel transformation takes place. The viscosities of different formulations were determined by using Brookfield Viscometer at 25°C, the viscosity of formulations increases as the lecithin concentration increases. Also the formulations were tested for appearance and feel psychorheologically, pH, and drug content. Interactions between the components of the gel have been investigated by differential scanning calorimetry and X-ray powder diffractometry. The optimized formulation subjected to differential scanning calorimetry shows no drug–polymer interaction. To investigate the in vivo performance of the formulations, a carrageenan-induced rat paw edema model and skin irritation study was used. The stability studies and freeze–thaw thermal cyclic test were carried out, showing no phase separation of gel, and representing gel stability. Statistical analysis of the data of animal study (anti-inflammatory activity) was done by using one way analysis of variance (ANOVA) followed by Dunnett’s test. The formulation shows a statistically significant anti-inflammatory activity and is non-irritant to skin.

[1]  R. Goldman,et al.  Vehicle effects on in vitro transdermal absorption of sevoflurane in the bullfrog, Rana catesbeiana. , 2008, Environmental toxicology and pharmacology.

[2]  Işık Özgüney,et al.  Transdermal delivery of diclofenac sodium through rat skin from various formulations , 2006, AAPS PharmSciTech.

[3]  R. Kumar,et al.  Lecithin organogels as a potential phospholipid-structured system for topical drug delivery: A review , 2005, AAPS PharmSciTech.

[4]  N. Habib,et al.  Anti-inflammatory, anti-nociceptive and antipyretic effects of extracts of Phrygilanthus acutifolius flowers. , 2006, Journal of ethnopharmacology.

[5]  I. M. Shaikh,et al.  Topical delivery of aceclofenac from lecithin organogels: preformulation study. , 2006, Current drug delivery.

[6]  S. Murdan A review of pluronic lecithin organogel as a topical and transdermal drug delivery system , 2005 .

[7]  Naseem A. Charoo,et al.  Transdermal Delivery of Flurbiprofen: Permeation Enhancement, Design, Pharmacokinetic, and Pharmacodynamic Studies in Albino Rats , 2005, Pharmaceutical development and technology.

[8]  N. Das,et al.  Pluronic lecithin organogel for local delivery of anti-inflammatory drugs. , 2004, International journal of pharmaceutical compounding.

[9]  S. Kadam,et al.  Pluronic gels for nasal delivery of Vitamin B12. Part I: preformulation study. , 2004, International journal of pharmaceutics.

[10]  B. W. Barry,et al.  Drug delivery routes in skin: a novel approach. , 2002, Advanced drug delivery reviews.

[11]  L. Trepanier,et al.  Bioavailability of transdermal methimazole in a pluronic lecithin organogel (PLO) in healthy cats. , 2002, Journal of veterinary pharmacology and therapeutics.

[12]  J. Jaiswal,et al.  Comparison of Analgesic and Anti-Inflammatory Activity of Meloxicam Gel with Diclofenac and Piroxicam Gels in Animal Models: Pharmacokinetic Parameters after Topical Application , 2002, Skin Pharmacology and Physiology.

[13]  A. Kassem,et al.  In Vitro Release Studies of Flurbiprofen from Different Topical Formulations , 2002, Drug development and industrial pharmacy.

[14]  Y. Shchipunov,et al.  Lecithin organogel: A micellar system with unique properties , 2001 .

[15]  J. M. Marchetti,et al.  Influence of lecithin on some physical chemical properties of poloxamer gels: rheological, microscopic and in vitro permeation studies. , 1999, International journal of pharmaceutics.

[16]  Y. Shchipunov,et al.  Lecithin bridging by hydrogen bonds in the organogel , 1995 .

[17]  P. Luisi,et al.  Lecithin organogel as matrix for transdermal transport of drugs. , 1992, Journal of pharmaceutical sciences.

[18]  P. Luisi,et al.  Lecithin organogels as matrix for the transdermal transport of drugs. , 1991, Biochemical and biophysical research communications.