The present study was aimed to formulate, develop and evaluate the fast dissolving tablets of diclofenac sodium, used for the treatment of arthritis, inflammation, pain. Fast dissolving tablets of diclofenac sodium were prepared by direct compression method using crospovidone and sodium starch glycolate as superdisintegrants in concentrations of 5.3%, 6.6% and 8% w/w and in combination. In this work microcrystalline cellulose and mannitol are investigated as diluents. Prepared powder mixtures were evaluated for drug excipient compatibility with FTIR spectroscopy and DSC analysis. Prepared formulations are evaluated for In vitro dissolution, disintegration dispersion and wetting time. Formulation FCS6 prepared with combination of crospovidone and sodium starch glycolate at weight ratio of 6.6 and 2.3% showed better results compare with control. Post compression parameters like hardness (3.4 kg/cm 2 ) and friability (0.31%) are at good acceptable levels in accordance with official compendia. FCS6 showed improved dissolution (99.8 %) and dispersion (75 seconds) profiles compared to control. The FTIR and DSC showed no interaction between the drug and excipients. The optimized formula FCS6 showed good drug release characteristics with acceptable mouth feel and fast dissolving properties.
The liquisolid technique is a novel approach for delivery of drugs through the oral route. This technique is suitable for poorly soluble or water insoluble drugs, highly permeable drugs (BCS Class II drugs) and also for immediate or sustained release formulations. It is a novel "Powder Solution Technology" that involves absorption and adsorption efficiencies, making use of liquid medications, drug suspensions admixed with suitable carriers, coating materials and formulated into free flowing, dry looking, non-adherent and compressible powder forms. The design of liquisolid systems are mainly intended for enhancement of solubility, dissolution rate and bioavailability of poorly water-soluble and highly lipophilic drugs. Improvement in bioavailability may be due to increased surface area, increased aqueous solubility and increased the wettability of the drug. Liquisolid technique also has the potential to be optimized for the reduction of drug dissolution rate and thereby production of sustained release systems. Overall, liquisolid technique is a most promising and novel technique for enhancing the dissolution and bioavailability of poorly water soluble drugs and sustaining drug release from tablet matrices. The current review mainly focuses on theory and applicability of liquisolid compact technique towards solubility or bioavailability enhancement. Different carriers, solvents and coating materials employed are elucidated. Literature reports on the applicability of liquisolid compact techniques over a wide range of pharmaceutical formulations are also explicated.
A simple, precise, accurate, economical and reproducible HPLC method for estimation of montelukast in tablet dosage form has been developed. Quantitative HPLC was performed with Shimadzu LC2010c HT with Winchrom Software with UV-Visible detector (SPD-IOA), PUMP (LC-IOAT) and (LC-IOATvp). Phenomenex C8, 5 μm, 25 cm × 4.6 mm i.d. column was used in the study. The mobile phase of ACN: Acetate buffer= 6.5:3.5 of pH 3 were used in this study. The conditions optimized were: flow rate (1 mL/minute), wavelength (222 nm) and run time was 20 min. Retention time was found to be 3.08 min. The linearity was found to be in the concentration range of 10-100 μg/mL. The developed method was evaluated in the assay of commercially available tablet moni containing 10 mg of montelukast. The amount of drug in tablet was found to be 10.34 mg/tab for the brand. Results of analysis were validated statistically and by recovery studies. The recovery studies 99.67% was indicative of the accuracy of proposed method. The precision was calculated as repeatability, inter and intraday variation (%RSD) for the drug. By using the method, stability of the drug has been studied.
Biogas has been highlighted as a renewable energy and local source for syngas production via reforming techniques to combat global warming effects and energy sustainability. Bi-reforming of methane is one...
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