Organogels in Drug Delivery: A Special Emphasis on Pluronic Lecithin Organogels.

Organogels have emerged as an alternative carrier for small and macromolecules via transdermal, oral, rectal and ophthalmic routes. Pluronic lecithin organogels (PLO gels) are lecithin-based organogels widely used in compounding pharmacies as a vehicle for enhancing the transdermal permeability of many therapeutic drugs. However, the scientific and systematic evidence in support of how well PLO gels help in transdermal delivery is scanty. Recently, some clinical studies have reported nearly complete lack of bioavailability of certain topically administered drugs from PLO gels. The present review aims at summarizing gels and organogels, with a focus on the use of PLO gels in transdermal drug delivery. A special emphasis is placed on controversies looming over the use of PLO gels as a delivery platform for drugs via transdermal route. This article is open to POST-PUBLICATION REVIEW. Registered readers (see "For Readers") may comment by clicking on ABSTRACT on the issue's contents page.

Development and characterization of a ricinoleic acid poloxamer gel system for transdermal eyelid delivery.

OBJECTIVE: This study deals with the preparation and evaluation of a pluronic lecithin organogel (PLO gel) containing ricinoleic acid for the transdermal eyelid delivery of dexamethasone and tobramycin. METHODS: Five different PLO gel formulations (F1, F2, F3, F4 and F5) containing tobramycin (0.3%) and dexamethasone (0.1%) were prepared and compared to a conventional PLO gel (light mineral oil PLO gel, F6) with respect to physical appearance and viscosity. The optimized ricinoleic acid PLO gel formulation (F2) was further characterized for pH, gelation temperature, morphology and drug content. Ex vivo permeability of dexamethasone and bactericidal activity of tobramycin from formulation F2 was tested, and values were compared to the marketed Tobradex® eye ointment. RESULTS: No apparent changes in the physical appearance and consistency were observed when ricinoleic acid was used as the oil phase. The pH of the optimized ricinoleic acid PLO gel (formulation F2) was found to be 6.54 with a gelation temperature of 31 °C. The drug content of tobramycin and dexamethasone were found to be 102.8% and 100.14%, respectively. The penetration profile of dexamethasone from formulation F2 was found to be much higher than the marketed Tobradex® eye ointment. F2 showed a better antimicrobial activity and higher zones of inhibition when compared to the marketed Tobradex® eye ointment. CONCLUSION: The findings of this investigation indicate that the ricinoleic acid PLO gel has the potential for use as a transdermal eyelid delivery system.

Anti-inflammatory effects of a novel ricinoleic acid poloxamer gel system for transdermal delivery.

Our previous study showed that the use of ricinoleic acid as an oil phase resulted in the formation of a stable pluronic lecithin organogel (PLO gel) with better thixotropic properties and higher permeation of ketoprofen than the isopropyl palmitate PLO gel. This study aims to evaluate and compare the in vitro and in vivo anti-inflammatory effects of the ricinoleic acid PLO gel system with isopropyl palmitate PLO gel. Ketoprofen was used as a model drug. In vitro anti-inflammatory activity and cell viability tests were performed in human rheumatoid arthritis synovial fibroblast cell line using a blank ricinoleic acid PLO gel and compared to that of the isopropyl palmitate PLO gel. In vivo anti-inflammatory activity of ricinoleic acid PLO gel containing 10% ketoprofen was evaluated and compared with the isopropyl palmitate PLO gel in a carrageenan-induced rat paw edema model. The results from the in vitro study showed that the blank ricinoleic acid PLO gel possessed significantly higher anti-inflammatory activity than isopropyl palmitate PLO gel at 1 mM concentration (p<0.05), while both the gel formulations had no significant cytotoxic activity. Further in vivo testing of the formulation showed that the ricinoleic acid PLO gel formulation was significantly more effective in reducing pain and edema when compared to the isopropyl palmitate PLO gel. In addition, the ricinoleic acid PLO gel formulation markedly inhibited the synthesis of prostaglandin E2. In conclusion, the efficacy of PLO gels used in pain management may be enhanced by using ricinoleic acid instead of isopropyl palmitate as an oil phase.

Preparation and in vitro evaluation of a pluronic lecithin organogel containing ricinoleic acid for transdermal delivery.

The present study deals with the preparation and in vitro evaluation of a Pluronic lecithin organogel gel containing ricinoleic acid for transdermal delivery. Blank Pluronic lecithin organogel gels were prepared using ricinoleic acid as the oil phase and characterized for pH, viscosity, gelation temperature, and microscopic structure. The optimized Pluronic lecithin organogel gel formulation was further evaluated using ketoprofen (10%) and dexamethasone (0.5%) as model drugs. The stability and in vitro permeability of ketoprofen and dexamethasone was evaluated and compared with the corresponding control formulation (Pluronic lecithin organogel gel made with isopropyl palmitate as the oil phase). The pH and viscosity of blank Pluronic lecithin organogel gel prepared with ricinoleic acid was comparable with the isopropyl palmitate Pluronic lecithin organogel gel. The thixotropic property of ricinoleic acid Pluronic lecithin organogel gel was found to be better than the control. Drug-loaded Pluronic lecithin organogel gels behaved in a similar manner and all formulations were found to be stable at 25 degrees C, 35 degrees C, and 40 degrees C for up to 35 days. The penetration profile of dexamethasone was similar from both the Pluronic lecithin organogel gels, while the permeability for ketoprofen from Pluronic lecithin organogel gel containing ricinoleic acid was found to be three times higher as compared to the control formulation.

Preclinical evaluation of a ricinoleic acid poloxamer gel system for transdermal eyelid delivery.

Our previous study has shown that pluronic lecithin organogel (PLO gel) made of ricinoleic acid has the potential for use as a transdermal eyelid delivery system. The present study deals with the evaluation of ocular tissue concentrations of dexamethasone in a rabbit model following topical application of the gel formulation onto the eyelids. The PLO gel formulation containing dexamethasone was applied to the outside of the eyelid skin. Rabbits were sacrificed at regular time intervals of 2, 4, 8, 12, 20 and 24h. Maxidex(®) eye drops were used as a control. Rabbits were sacrificed and dexamethasone concentrations were analyzed in anterior segment tissues such as the cornea, conjunctiva, aqueous humor, lens, and iris-ciliary body by liquid chromatography tandem mass spectrometry (LC-MS/MS). Rabbit eyes were also examined for ocular irritation and scored using the modified Draize scoring system. No significant irritation or redness was observed in the eyes as compared to the control rabbit eyes. PLO gel formulation resulted in constant dexamethasone concentrations in the anterior segment tissues for up to 24h, which was equivalent or higher than Maxidex(®) eye drops. The findings of this investigation indicate that the ricinoleic acid PLO gel formulation may be clinically effective as a new treatment modality for anterior segment diseases.