Effect of Initial Concentration on Stability of Panipenem in Aqueous Solution

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概要

• 論文の詳細を見る

• The effect of initial panipenem (CAS No.87726-17-8) concentration on its degradation in an aqueous solution was investigated. The degradation of panipenem followed pseudo-first-order kinetics at all the pH values tested. However, in an acidic solution, the degradation rate increased with the initial panipenem concentration. On the other hand, in an alkaline solution, the degradation rate was not affected by its initial concentration. In an acidic solution, the plots of the first-order rate constants versus initial panipenem concentrations showed a linear relationship. Theoretically, the first-order rate constant is independent of the initial concentration, and therefore, the results suggested unusualness. We investigated the results obtained under acidic conditions in detail to find a very complex reaction mechanism : panipenem and its degradation products are factors causing the unusual increase in the degradation rate. Moreover, it was shown that the dissociation of the carboxyl group played an important role in the degradation of panipenem.

• 公益社団法人日本薬学会の論文
• 2005-03-01

著者

• Takayama Kozo

  Department of Pharmaceutics, Hoshi University

• Takayama Kozo

  Department Of Pharmaceutics Hoshi University

• Takayama Kozo

  Department Of Pharmaceutics Faculty Of Pharmaceutical Sciences Hoshi University

• Takayama Kozo

  Dep. Of Pharmaceutics Hoshi Univ.

• Suzuki Masahiko

  Department Of Pharmacology Faculty Of Pharmaceutical Sciences Hokuriku University

• ITO Nobuya

  Pharmaceutical Development Laboratories, SANKYO CO., LTD.

• SUZUKI Masahiko

  Pharmaceutical Development Laboratories, SANKYO CO., LTD.

• KUSAI Akira

  Pharmaceutical Development Laboratories, SANKYO CO., LTD.

• Kusai A

  Jeol Ltd. Tokyo Jpn

• Kusai Akira

  Formulation Technology Research Laboratories Daiichi Sankyo Co. Ltd.

• Ito Nobuya

  Pharmaceutical Development Laboratories Sankyo Co. Ltd.

• Takayama Kozo

  Department of Drug Delivery Research, Hoshi University

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