Department of Pharmaceutics, Dr. Rajendra Gode Institute of Pharmacy, Amravati – 444602
*Corresponding Author E-mail: yashbhusari00@gmail.com
Online Published on 03 July, 2025.
The target of the current project was to arranged microbeads of Hydroxyzine HCl to accomplish supported activity and furthermore to forestall the various dosing of the medication. The standard calibration curve of Hydroxyzine HCl was found to be in accordance with Beers Lambert’s law, with a linear equation. The micromeretics investigation revealed that the created formulations had a superior flow property compared to the drug, with an angle of repose of 49.28o±0.25 for pure drug. The beads had a drug entrapment effectiveness of 92.68±0.82 percent, and a percentage yield of 82.24±0.08 percent. The microbeads had a particle size ranging from 1.017 to 1.214 millimeters, and the drug concentration on the surface fell between 1.52 to 4.1%. The swelling index in both mediums was between 180 and 200 in 0.1N hydrochloric acid and between 170 to 1760 in buffer liquid with a pH of 7.4. Surface morphology revealed that the Beads had a round shape, but the outer surfaces were rough and covered with minute breaks and gaps. Drug release from the fabricated microbeads lasted 12hours, with the optimal formulation being B20. The energy study integrated the upgraded detailing into various models, showing zero request energy and a super case II vehicle with fickian dispersion. The cumulative drug release and % drug content were within the optimal range, and the superior plan remained stable throughout the review time frame. The results of the strength investigation reveal that the design remained steady when tested for a few assessment borders under more favourable settings.
Hydroxyzine HCl, Microbeads, Controlled Drug Delivery, Tintiri Mucilage