In-Vitro Assessment and Pharmacodynamics of Nimesulide Incorporated Aloe vera Transemulgel
KR Vandana, Prasanna R. Yalavarthi, CR Sundaresan, Raghava N. Sriramaneni and Harini C. Vadlamudi
Affiliation: Department of Pharmaceutics, Sree Vidyanikethan College of Pharmacy, Tirupati- 517102, India.
The aim of the investigation was to prepare nimesulide emulsion for incorporation in Aloe vera gel base to
formulate ‘nimesulide – Aloe vera transemulgel’ (NAE) and to carryout in-vitro assessment and in-vivo anti-inflammatory
studies of the product. Although the use of nimesulide is banned for oral administration, due to its potential for inducing
hepatotoxicity and thrombocytopenia, the use of nimesulide for topical delivery is prominent in the treatment of many inflammatory
conditions including rheumatoid arthritis. The drug loading capacity of transdermal gels is low for hydrophobic
drugs such as nimesulide. Nimesulide can be effectively incorporated into emulgels (a combination of emulsion and
gel). Aloe vera has a mild anti-inflammatory effect and in the present study Aloe vera gel was formulated and used as a
gel base to prepare NAE. The emulgels thus prepared were evaluated for viscosity, pH, in-vitro permeation, stability and
skin irritation test. In-vivo anti-inflammatory studies were performed using carrageenan induced hind paw edema method
in Wistar rats. The results were compared with that of commercial nimesulide gel (CNG). From the in-vitro studies, effective
permeation of nimesulide from NAE (53.04 %) was observed compared to CNG (44.72 %) at 30 min indicating better
drug release from NAE. Topical application of the emulgel found no skin irritation. Stability studies proved the integrity
of the formulation. The percentage of inhibition of edema was highest for the prepared NAE (67.4 % inhibition after 240
min) compared to CNG (59.6 %). From our results, it was concluded that the Aloe vera gel acts as an effective gel base to
prepare nimesulide emulgel with high drug loading capacity (86.4 % drug content) compared to CNG (70.5 % drug content)
with significant anti-inflammatory effect.
Keywords: Drug loading capacity, flux, in-vitro permeation, paws edema, percentage inhibition, stability.
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