Fabrication and Characterization of Polymeric Pharmaceutical Emulgel Co-Loaded with Eugenol and Linalool for the Treatment of Trichophyton rubrum Infections.

Trichophyton rubrum (T. rubrum) is the main cause of chronic dermatophytosis which is highly prevalent worldwide. This study was aimed to fabricate and characterize polymeric emulgel of eugenol and linalool for the treatment of T. rubrum infections. Using the slow emulsification method, the emulgel was prepared and characterized for thermodynamic stability, pH analysis, viscosity, spreadability, swelling behavior, %drug content, surface morphology, globules size, polydispersity index, surface charge (mV), thermal behavior, in vitro drug release and XRD studies. Biological activities of emulgel were conducted against T. rubrum in vitro and in vivo. Results indicated that emulgel formulations were thermodynamically stable. The pH of the formulations was within an acceptable range for skin. The viscosity and spreadability were optimum for the better patient compliance. The swelling behavior was 111.10 ± 1.25% after 90 min. The drug content was within the official pharmacopeia limit i.e., 100 ± 10%. The surface morphology revealed by scanning electron microscopy showed a spherical-shaped structure with characteristic larger cracks and wrinkles. The droplet size, PDI, and surface charge of the optimized emulgel were 888.45 ± 8.78 nm, 0.44 and -20.30 mV, respectively. The emulgel released 84.32% of eugenol and 76.93% of linalool after 12 h. There was complete disappearance of the diffraction peaks corresponding to the drugs after XRD analysis. In rabbits, the infection was safely and completely recovered after 12 days and the emulgel produced significant effects (p < 0.05) similar to the standard product Clotrim®. It is concluded that the eugenol-linalool emulgel best described all its physical properties and can be applied topically for the treatment of T. rubrum infections.

Formulation, evaluation and in vitro characterization of gastroretentive floating tablet of diclofenac sodium.

Currently a variety of tools and techniques are used to deliver complex medicines. Whereas, certain advanced methods assure the safety and usefulness by regulating the pharmacokinetic and pharmacodynamic. Thus, we aimed this study to develop a novel gastro retentive floating tablets. The formulation was designed to provide the desired controlled and complete release of drug for prolonged period of time. The formulations were evaluated for physical characterization. The obtained results of hardness (4.6-5.1), friability (0.20-0.43%), weight variation (350 ±2 - 350±5) and in vitro buoyancy were found within official limits of United Stated Pharmacopoeia (USP). Whereas, the F-7 showed most optimized intra gastric floating characteristics and exhibited 93.87% release of diclofenac sodium in 9 hours. The Floating Lag Time of 8 minutes and Total Floating Time >12 hours were recorded. In-vitro drug release kinetics evaluated using the linear regression method was found to follow the Zero Order and Peppas model for the release of both the drugs. DSC thermograph and FTIR spectra depicted that there was no chemical incompatibility between drugs and polymers. In conclusion the desgined tablet can be use in clinical practice as model drug. Because, the pre-compression and post-compression parameters were satisfactory and within desired limits.

PLANTAGO OVATA: A COMPREHENSIVE REVIEW ON CULTIVATION, BIOCHEMICAL, PHARMACEUTICAL AND PHARMACOLOGICAL ASPECTS.

The basic aspire of current study was to review different aspects of Plantago ovata together with its cultivation, growth, biochemistry, pharmaceutical and pharmacological attributes. Plantago ovata belongs to family Plantaginaceae. It is an annual herb, indigenous to Mediterranean region especially Southern Europe, North Africa and West Asia. Different electronic databases (Medline, Science Direct, Springer link, Pubmed, Google and Google Scholar) were analyzed for the literature on medicinal properties of Plantago ovata. The literature analysis has revealed that Plantago ovata has been endowed with diverse pharmaceutical and pharmacological activities. It is widely used in numerous medicines owing to its both pharmaceutical properties such as mucilage, superdisintegrant, gelling agent, suspending agent as well as pharmacological actions like anti-diarrheal, anti-constipation, wound healer, hypocholestrolemic and hypoglycemic. Thus, Plantago ovata can be employed in the manufacture of a number of pharmaceutical products as well as a safe and efficacious ethnobotanical remedy in several health problems.

PELLETS AND PELLETIZATION: EMERGING TRENDS IN THE PHARMA INDUSTRY.

The present time is considered as an era of advancements in drug delivery systems. Different novel approaches are under investigation that range from uniparticulate to multi particulate system, macro to micro and nano particulate systems. Pelletization is one of the novel drug delivery technique that provides an effective way to deliver the drug in modified pattern. It is advantageous in providing site specific delivery of the drug. Drugs with unpleasant taste, poor bioavailability and short biological half-life can be delivered efficiently through pellets. Their reduced size makes them more valuable as compared to the conventional drug deliv- ery system. Different techniques are used to fabricate the pellets such as extrusion and spheronization, hot melt extrusion, powder layering, suspension or solution layering, freeze pelletization and pelletization by direct compression method. Various natural polymers including xanthan gum, guar gum, tragacanth and gum acacia, semisynthetic polymers like cellulose derivatives, synthetic polymers like derivatives of acrylamides, can be used in pellets formulation. Information provided in this review is collected from various national and intemational research articles, review articles and literature available in the books. The purpose of the current review is to discuss pellets, their characterizations, different techniques of pelletization and the polymers with potential of being suitable for pellets formulation.