Your browser doesn't support javascript.
loading
Formulation of stomach-specific floating microparticles of nizatidine and their radiographic evaluation
Rathore, Sajjan Singh Seema; Geetha, Muniyappa; Manjula, Basappa Palur; Joshi, Vijaya Gopalachar; Setty, Siddamsetty Ramachandra.
Affiliation
  • Rathore, Sajjan Singh Seema; Dayananda Sagar University. College of Pharmaceutical Sciences. Department of Pharmaceutics. Bangalore. IN
  • Geetha, Muniyappa; Government College of Pharmacy. Department of Pharmaceutics. Bangalore. IN
  • Manjula, Basappa Palur; Government College of Pharmacy. Department of Pharmaceutics. Bangalore. IN
  • Joshi, Vijaya Gopalachar; Government College of Pharmacy. Department of Pharmaceutics. Bangalore. IN
  • Setty, Siddamsetty Ramachandra; Government College of Pharmacy. Department of Pharmacology. Bangalore. IN
Braz. J. Pharm. Sci. (Online) ; 58: e191009, 2022. tab, graf
Article в En | LILACS | ID: biblio-1394059
Ответственная библиотека: BR40.1
Локализация: BR40.1
ABSTRACT
Nizatidine is an anti-secretogogue and a gastroprotective drug with a half-life of 1-2 h and is well absorbed in the stomach. This study aimed to optimize the process and develop floating microparticles of nizatidine that are based on low methoxyl pectin. Oil-in-oil dispersion method and Taguchi orthogonal array design were employed, and the prolonged residence time of the microparticles in the stomach was demonstrated. The constraints for independent variables, viz. A-polymer, B-internal solvent volume, C-surfactant, D-stirring rate and E-stirring time were set to generate the experimental runs. Particle size, percentage yield, micromeritic properties, entrapment efficiency, in vitro buoyancy and in vitro release were characterized. Surface morphology, zeta potential, in vitro release kinetics and in vivo floating performance of the optimized formulation was examined. The microparticles were free-flowing, irregular in shape and had a mean particle size distribution of 73-187 µ. Low methoxyl pectin played a predominant role in achieving buoyancy and optimum gastric retention for the modified release of the drug, suggesting Korsmeyer-Peppas model as the possible release mechanism. In vivo radiographic study in rabbits revealed that the drug was retained in the stomach for a period of 6 h. These results indicate that nizatidine floating microparticulate system provides modified drug release for the effective treatment of gastric ulcer
Тема - темы
Key words

Полный текст: 1 База данных: LILACS Основная тема: Stomach / Nizatidine / Efficiency Тип исследования: Prognostic_studies Пределы темы: Animals Язык: En Журнал: Braz. J. Pharm. Sci. (Online) Тематика журнала: Farmacologia / Terapˆutica / Toxicologia Год: 2022 Тип: Article

Полный текст: 1 База данных: LILACS Основная тема: Stomach / Nizatidine / Efficiency Тип исследования: Prognostic_studies Пределы темы: Animals Язык: En Журнал: Braz. J. Pharm. Sci. (Online) Тематика журнала: Farmacologia / Terapˆutica / Toxicologia Год: 2022 Тип: Article