Haranath Chinthaginjala, Hindustan Abdul Ahad, Sainath Kethandapatti Srinivasa, Srihith Roy Yaparla, Snehitha Buddadasari, Junaid Abul Hassan, Sai Sree Pullaganti
{"title":"中心复合设计辅助盐酸右美沙芬胃保留浮片的处方开发与优化","authors":"Haranath Chinthaginjala, Hindustan Abdul Ahad, Sainath Kethandapatti Srinivasa, Srihith Roy Yaparla, Snehitha Buddadasari, Junaid Abul Hassan, Sai Sree Pullaganti","doi":"10.5530/ijper.57.4.120","DOIUrl":null,"url":null,"abstract":"Abstract: Objectives: The existing study is concerned with the formulation and optimization of dextromethorphan hydrobromide floating tablets via central composite design. Materials and Methods: Direct compression method was employed to prepare the tablets. Drug -excipient studies were executed through FT-IR and DSC analysis. The independent variables selected were the concentrations of Carbopol 934 (X1 ) and HPMC K15M (X2 ). The dependent variables designated were Floating Lag Time (FLT) and Drug Release (DR) at 12 hr. The model was found to be nonlinear and the curvature effect was significant. Hence, the system suggested to central composite design. Results: FT-IR studies demonstrated that there is no considerable interaction amid the drug and the excipients. DSC studies revealed that drug and excipient were compatible as there is no significant alteration in melting point of drug when blended with excipients. The precompression parameters of the formulations showed good flow properties. The evaluation of post compression parameters indicated that all the prepared formulations were within the specified limits. Floating lag time of formulations were marked to be less than 1 min and total floating time exceeding 12 hr. Percentage drug release of all formulations were in the range of 89.7% to 99.4%. The obtained design space/contour plots were used for selecting batches in desirable ranges. Conclusion: The results revealed that experimental design was successfully used to optimize polymer concentrations. It was determined that the central composite design would be used to formulate dextromethorphan gastroretentive floating tablets with fewer trials and higher quality features. Keywords: Dextromethorphan Hydrobromide, Carbopol, HPMC, Central Composite design, Floating lag time.","PeriodicalId":13407,"journal":{"name":"Indian Journal of Pharmaceutical Education and Research","volume":"29 1","pages":"0"},"PeriodicalIF":0.8000,"publicationDate":"2023-10-04","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Central Composite Design Assisted Formulation Development and Optimization of Gastroretentive Floating Tablets of Dextromethorphan Hydrobromide\",\"authors\":\"Haranath Chinthaginjala, Hindustan Abdul Ahad, Sainath Kethandapatti Srinivasa, Srihith Roy Yaparla, Snehitha Buddadasari, Junaid Abul Hassan, Sai Sree Pullaganti\",\"doi\":\"10.5530/ijper.57.4.120\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Abstract: Objectives: The existing study is concerned with the formulation and optimization of dextromethorphan hydrobromide floating tablets via central composite design. Materials and Methods: Direct compression method was employed to prepare the tablets. Drug -excipient studies were executed through FT-IR and DSC analysis. The independent variables selected were the concentrations of Carbopol 934 (X1 ) and HPMC K15M (X2 ). The dependent variables designated were Floating Lag Time (FLT) and Drug Release (DR) at 12 hr. The model was found to be nonlinear and the curvature effect was significant. Hence, the system suggested to central composite design. Results: FT-IR studies demonstrated that there is no considerable interaction amid the drug and the excipients. DSC studies revealed that drug and excipient were compatible as there is no significant alteration in melting point of drug when blended with excipients. The precompression parameters of the formulations showed good flow properties. The evaluation of post compression parameters indicated that all the prepared formulations were within the specified limits. Floating lag time of formulations were marked to be less than 1 min and total floating time exceeding 12 hr. Percentage drug release of all formulations were in the range of 89.7% to 99.4%. The obtained design space/contour plots were used for selecting batches in desirable ranges. Conclusion: The results revealed that experimental design was successfully used to optimize polymer concentrations. It was determined that the central composite design would be used to formulate dextromethorphan gastroretentive floating tablets with fewer trials and higher quality features. 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Central Composite Design Assisted Formulation Development and Optimization of Gastroretentive Floating Tablets of Dextromethorphan Hydrobromide
Abstract: Objectives: The existing study is concerned with the formulation and optimization of dextromethorphan hydrobromide floating tablets via central composite design. Materials and Methods: Direct compression method was employed to prepare the tablets. Drug -excipient studies were executed through FT-IR and DSC analysis. The independent variables selected were the concentrations of Carbopol 934 (X1 ) and HPMC K15M (X2 ). The dependent variables designated were Floating Lag Time (FLT) and Drug Release (DR) at 12 hr. The model was found to be nonlinear and the curvature effect was significant. Hence, the system suggested to central composite design. Results: FT-IR studies demonstrated that there is no considerable interaction amid the drug and the excipients. DSC studies revealed that drug and excipient were compatible as there is no significant alteration in melting point of drug when blended with excipients. The precompression parameters of the formulations showed good flow properties. The evaluation of post compression parameters indicated that all the prepared formulations were within the specified limits. Floating lag time of formulations were marked to be less than 1 min and total floating time exceeding 12 hr. Percentage drug release of all formulations were in the range of 89.7% to 99.4%. The obtained design space/contour plots were used for selecting batches in desirable ranges. Conclusion: The results revealed that experimental design was successfully used to optimize polymer concentrations. It was determined that the central composite design would be used to formulate dextromethorphan gastroretentive floating tablets with fewer trials and higher quality features. Keywords: Dextromethorphan Hydrobromide, Carbopol, HPMC, Central Composite design, Floating lag time.
期刊介绍:
The official journal of Association of Pharmaceutical Teachers of India (APTI) and is being published since 1967. IJPER, a quarterly publication devoted to publish reviews and research articles in pharmacy and the related disciplines of Pharmaceutical education. It mainly covers the articles of special interest, covering the areas of Pharmaceutical research, teaching and learning, laboratory innovations, education technology, curriculum design, examination reforms, training and other related issues. It encourages debates and discussions on the issues of vital importance to Pharmaceutical education and research. The goal of the journal is to provide the quality publications and publish most important research and review articles in the field of drug development and pharmaceutical education. It is circulated and referred by more than 6000 teachers, 40,000 students and over 1000 professionals working in Pharmaceutical industries, Regulatory departments, hospitals etc.