Self-Organizing Map Analysis Using Multivariate Data from Theophylline Tablets Predicted by a Thin-Plate Spline Interpolation
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概要
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The "quality by design" concept in pharmaceutical formulation development requires the establishment of a science-based rationale and a design space. We integrated thin-plate spline (TPS) interpolation and Kohonen's self-organizing map (SOM) to visualize the latent structure underlying causal factors and pharmaceutical responses. As a model pharmaceutical product, theophylline tablets were prepared based on a standard formulation. The tensile strength, disintegration time, and stability of these variables were measured as response variables. These responses were predicted quantitatively based on nonlinear TPS. A large amount of data on these tablets was generated and classified into several clusters using an SOM. The experimental values of the responses were predicted with high accuracy, and the data generated for the tablets were classified into several distinct clusters. The SOM feature map allowed us to analyze the global and local correlations between causal factors and tablet characteristics. The results of this study suggest that increasing the proportion of microcrystalline cellulose (MCC) improved the tensile strength and the stability of tensile strength of these theophylline tablets. In addition, the proportion of MCC has an optimum value for disintegration time and stability of disintegration. Increasing the proportion of magnesium stearate extended disintegration time. Increasing the compression force improved tensile strength, but degraded the stability of disintegration. This technique provides a better understanding of the relationships between causal factors and pharmaceutical responses in theophylline tablet formulations.
著者
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Yamamoto Rie
Department Of Cardiovascular Science And Medicine
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Obata Yasuko
Department Of Pharmaceutics Hoshi University
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Onuki Yoshinori
Department Of Pharmaceutics Hoshi University
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Takayama Kozo
Department of Drug Delivery Research, Hoshi University
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Yasuda Akihito
Department of Pharmaceutics, Hoshi University
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