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WANG Li-li, SHI Sen-lin. Application of chemometrics in the optimization of extraction conditions and prescription formulations in pharmaceutical preparations[J]. Journal of Pharmaceutical Practice and Service, 2011, 29(4): 241-246,255.
Citation: WANG Li-li, SHI Sen-lin. Application of chemometrics in the optimization of extraction conditions and prescription formulations in pharmaceutical preparations[J]. Journal of Pharmaceutical Practice and Service, 2011, 29(4): 241-246,255.

Application of chemometrics in the optimization of extraction conditions and prescription formulations in pharmaceutical preparations

  • Received Date: 2010-12-27
  • Rev Recd Date: 2011-03-12
  • Objective To illustrate the importance of chemometrics tools (experimental design combined with modeling and optimization) in the study on pharmaceutical preparations. Methods A wide range of publications associated with extraction condition and prescription optimizations were reviewed. It was found that the combined optimization methodology mentioned above played a very important role in the study of pharmaceutical preparations. Results The methodology based on the combination of experimental design, modeling and optimization, was a very effective tool for solving the complex optimization problems in pharmaceutical studies. With the help of experimental design, all experimental points could be arranged scientifically and reasonably, and thus in turn, only a minimal of experimental points were required; with the assist of mathematical modeling, the immanence disciplines between the experimental results and its corresponding experimental factors could be abstractively expressed and interpreted via mathematical model; with the aid of optimization, the optimal results as well as its corresponding conditions could be finally predicted. Conclusion With the rapid development of pharmaceutical preparations and its integration with other cross-disciplines, there would be more and more complex nonlinear problems which could make a wider use of the proposed combined optimization methodology.
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Application of chemometrics in the optimization of extraction conditions and prescription formulations in pharmaceutical preparations

Abstract: Objective To illustrate the importance of chemometrics tools (experimental design combined with modeling and optimization) in the study on pharmaceutical preparations. Methods A wide range of publications associated with extraction condition and prescription optimizations were reviewed. It was found that the combined optimization methodology mentioned above played a very important role in the study of pharmaceutical preparations. Results The methodology based on the combination of experimental design, modeling and optimization, was a very effective tool for solving the complex optimization problems in pharmaceutical studies. With the help of experimental design, all experimental points could be arranged scientifically and reasonably, and thus in turn, only a minimal of experimental points were required; with the assist of mathematical modeling, the immanence disciplines between the experimental results and its corresponding experimental factors could be abstractively expressed and interpreted via mathematical model; with the aid of optimization, the optimal results as well as its corresponding conditions could be finally predicted. Conclusion With the rapid development of pharmaceutical preparations and its integration with other cross-disciplines, there would be more and more complex nonlinear problems which could make a wider use of the proposed combined optimization methodology.

WANG Li-li, SHI Sen-lin. Application of chemometrics in the optimization of extraction conditions and prescription formulations in pharmaceutical preparations[J]. Journal of Pharmaceutical Practice and Service, 2011, 29(4): 241-246,255.
Citation: WANG Li-li, SHI Sen-lin. Application of chemometrics in the optimization of extraction conditions and prescription formulations in pharmaceutical preparations[J]. Journal of Pharmaceutical Practice and Service, 2011, 29(4): 241-246,255.
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