Ratendra Kumar

To evaluate the anti-inflammatory and antioxidant potential of methanol extract of flowers of Salvia officinalis Linn. (MESO). Antioxidant activity and free radical scavenging activity of MESO has been evaluated by employing various in vitro models including reducing power, Total antioxidant activity, DPPH radical, ABTS  radical, superoxide radical (O2• –), nitric oxide, hydrogen peroxide, hydroxyl radical scavenging activity and metal chelating activity. Anti-inflammatory activity has been evaluated by carrageenan induced rat paw edema animal model. The plant extract (MESO) revealed significant antioxidant activity with lower IC50 values. Metal chelating activity was found poor. In inflammation model, MESO demonstrated significant anti-inflammatory activity with maximum oedema inhibition at 3 rd hour post carrageenan injection. The results indicated that the plant could be a potential source of antioxidant and could find a use in the herbal therapy of inflammation also.

The present study aimed at development and evaluation oral fast dissolving film of Salbutamol Sulphate utilizing HPMC as a film forming polymer and PEG 1000 as a plasticizer. Response Surface Methodology was used to optimize the oral fast dissolving film formulation. In the design, concentration of HPMC and concentration of PEG 1000 was selected as independent variable. Tensile strength, elongation at break and elastic modulas was selected as dependent variable. The results of the study demonstrated a successful development of a film with optimum mechanical property and disintegration time. The adopted design was very much successful as an optimization tool in this present study. The optimized formulation was evaluated by SEM & FTIR and the results were found appropriate. The accelerated stability study indicated the stability of the optimized formulation up to 6 month. In the conclusion, it is advocated that the development of optimized oral fast dissolving film formulation was successful. Key words: Plasticizer, Oral Fast Dissolving Film, Factorial Design, Elongation at break