Abstract. The present study aimed to prepare, optimize, and evaluate Tapentadol hydrochloride controlled porosity osmotic pump (CPOP) and to achieve the drug release at nearly zero-order. The CPOP was prepared by the coating of polymers (Eudragit RSPO and RLPO) on a directly compressed core tablet. A Box-behnken experimental design was applied to optimize the parameters for CPOP. The optimized batch was characterized for in vitro drug release study, effect of pH, osmolarity and agitation intensity, and surface morphology and stability study. In vivo pharmacokinetic studies were performed on New Zealand white rabbits for CPOP and marketed tablet. All the batches showed a drug release ranging from 29.87 to 56.92% after 12 h; and from 59.64 to 99.96% after 24 h. There was no change in the drug release pattern at different pH and agitation intensities. The drug release was found to decrease with increasing osmolarity of dissolution media.An in vivo study showed a higher mean residence time, area under the curve, and biological half-life (T 1/2 ) than the marketed tablet with low rate of elimination (Ke) and a 2.35-fold increase in relative bioavailability. The result showed that the amounts of sodium chloride and PEG 400 were contributing positively while the number of coats was negatively affecting the drug release. The drug release was found to be independent of physiological conditions. The stability testing showed that the prepared CPOP was stable for 3 months at accelerated conditions. The prepared CPOP was found to deliver Tapentadol hydrochloride at zero-order for up to 24 h.
Aim: The present study focused on the development of a dry emulsion tablet of raloxifene hydrochloride (RXF) using a solid carrier adsorption technique to enhance oral bioavailability. Methods: An oil-in-water emulsion was formulated and converted into dry powder using HPMC K4M plus Aerosil 200, then compressed into tablets. Results: The prepared emulsion was evaluated for globule size, drug content and zeta potential. In vitro release study revealed significantly higher release from emulsion. The prepared tablets possessed acceptable hardness, friability, weight variation, disintegration time, thickness, etc. In vivo pharmacokinetic studies indicated a more than sevenfold increase in oral bioavailability. Stability studies indicated good physical and chemical stability of the developed formulation. Conclusion: The authors successfully formulated dry emulsion tablets with enhanced oral bioavailability.
Aim: Present research work aimed to explore intravaginal route for the drug delivery for treatment of endometrial cancer (EC). Material & methods: Carboplatin (CBP)-loaded ultradeformable vesicle (CBP-UDV) was prepared and characterized for in vitro quality attributes and evaluated for its efficacy in rabbits using ultrasound imaging after intravaginal administration. Results & conclusion: The results showed that the formulation capable of carrying and localizing drug in uterus for prolonged period assisted by first uterine pass effect. Ultrasound imaging of the EC-induced rabbit model before and after treatment with CBP-UDV showed considerable regression in the EC tumor mass. The findings serve as the basis of successful utilization of the intravaginal route for management of EC by designing the formulation which can improve patient compliance.
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