The purpose of this research was to develop a hydrogel containing the extract of Gac fruit (Momordica cochinchinensis Spreng) with appropriate physicochemical properties and good dermatological efficacy. The Gac aril fruit was extracted by maceration in dichloromethane, and its antioxidant activity was determined through a DPPH assay. The very low water-solubility of the Gac extract is responsible for its incompatibility with the hydrogel. To overcome this drawback, Labrafac TM PG and Tween 60 were used to develop the hydrogel due to their potent potential for solubilizing the Gac extract. The prepared hydrogels displayed good physical properties, a homogenous orange gel, appropriate pH, and viscosity. After storage in an accelerated condition for six months, the hydrogels of the Gac extract had physical stability and high remaining amounts of beta-carotene and lycopene within the range of 90.25 -94.61%. The skin efficacy of hydrogel containing the Gac fruit extract was found using 14 healthy female volunteers over a 30-day period of daily application. Topical application of the hydrogel containing the Gac fruit extract, which contains antioxidants, significantly moisturizes the skin and enhanced its elasticity (p ≤ 0.05; ANOVA). This makes it suitable for use as a skin care product.
Mefenamic acid (MA), a member of nonselective nonsteroidal anti-inflammatory drugs (NSAIDs), has been widely use to relief pain and inflammation. Its medical uses are limited by poor aqueous solubility resulting in low bioavailability and gastric irritation. The aim of this study was to develop a mefenamic acid delayed-release matrix tablet formulation using solid dispersion (SD). Delayed-release drug delivery systems were designed to retard drug release in upper gastrointestinal tract avoiding gastrointestinal (GI) adverse reactions. SDs of MA were successfully prepared by solvent evaporation method employing methanol as a solvent. SDs incorporated surfactant and super disintegrant gave much higher rates of dissolution than SDs with combined carriers (PEG and surfactant), SD containing PEG and pure drug, respectively. The optimal SD containing MA:PEG4000:poloxamer188:crospovidone in the ratio 1:8:1:3 exhibited higher amount of drug release up to 8-fold compared with pure MA. FTIR and DSC were performed to identify the physicochemical interaction between drug and polymers. The resulting data justified that no change in the chemical structure of MA and the crystalline MA transformed into the amorphous state after preparation. The formulation F4 delayed-release tablet comprising SD of MA dissolved less than 4 % in artificial gastric fluid in the initial 2 h and released more than 95 % at 3 h in the artificial intestinal fluid. Accordingly, formulation F4 containing polyethylene oxide as a time-controlled matrix-forming polymer was a promising delayed-release solid dispersion system of MA. HIGHLIGHTS The present study demonstrated a mefenamic acid delayed-release matrix tablet formulation using solid dispersion (SD) The optimal SD of mefenamic acid exhibited higher amount of drug release (8-fold) compared with that of the pure drug The tablet formulation F4 containing polyethylene oxide is capable of releasing mefenamic acid in a typical delayed-release profile GRAPHICAL ABSTRACT
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