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化学工业与工程 2013, Vol. 30 Issue (1) :8-13    DOI:
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头孢呋辛钠在水溶液中的降解动力学
 刘川1, 赵颖颖1,2, 尹秋响1, 谢闯1, 王静康1
1.天津大学化工学院国家工业结晶工程技术研究中心;2.河北工业大学海水高效利用化工技术教育部工程研究中心
Degradation Kinetics of Cefuroxime Sodium in Aqueous Solution
 LIU  Chuan1, ZHAO  Ying-Ying1,2, YIN  Qiu-Xiang1, XIE  Chuang1, WANG  Jing-Kang1
1.School of Chemical Engineering and Technology, State Key Laboratory of Chemical Engineering, Tianjin University;2.Engineering Research Center of Seawater Utilization Technology of Ministry of Education, Hebei University of Technology

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摘要 应用HPLC分析仪系统研究了多种因素对头孢呋辛钠去离子水溶液稳定性的影响,包括初始浓度、温度、离子强度、pH值及螯合剂EDTA·2Na等。结果显示:头孢呋辛钠去离子水溶液的降解符合一级反应动力学;其稳定性随着温度的升高而降低;在5、15、 25、35、39和45 ℃的保存温度下,其t0.9(有效期)分别为65.1、25.8、15.8、5.6、3.9和2.0 h;得到了头孢呋辛钠水去离子溶液降解反应活化能为62.27 kJ/mol;随着离子强度增大,降解速率加快;在pH值接近7.0的条件下头孢呋辛钠水溶液最为稳定,降解速率在酸性的条件下随pH值变化较慢,在碱性条件下随着pH值增大迅速增大;研究还发现,螯合剂EDTA·2Na虽可减缓溶液颜色变化,但并未减慢其降解速度。以上结果可为优化生产、制剂、存储和应用提供依据。
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刘川
赵颖颖
尹秋响
谢闯
王静康
关键词头孢呋辛钠   HPLC法   降解动力学   稳定性     
Abstract: Via an HPLC,the stability of cefuroxime sodium in deionized aqueous solution was investigated systematically, including factors such as initial concentration, temperature, ionic strength, pH values and EDTA disodium salt solution. The results revealed that the degradation kinetics matched well with the first order reaction. Its stability decreased with the increasing of temperature. The period of validity of cefuroxime sodium was about 65.1, 25.8, 15.8, 5.6, 3.9 and 2.0 h with the storage temperature of 5, 15, 5, 35, 39,45 ℃ respectively. Its activation energy was about 62.27 kJ/mol. The degradation rate increased with the increasing of ionic strength. As for the effects of the pH values, it revealed that cefuroxime sodium was relatively stable in neutral conditions with a lowest degradation rate. And the degradation rate changed slowly in an acidic condition, but increased rapidly in the alkaline environment. Although the chelating agent (EDTA disodium) could slow down the color change of the cefuroxime sodium deionized aqueous solution, the degradation rate was not decreased. All of the results could provide theoretical basis for the optimizing production, preparation, storage and usage process.
Keywordscefuroxime sodium   HPLC   degradation kinetics   stability     
Received 2012-05-04;
Fund:

天津市自然科学基金(10JCYBJC14200;11JCZDJC20700)。

Corresponding Authors: 赵颖颖,电话:(022)60202241,E-mail: zhaoyy0328@gmail.com。     Email: zhaoyy0328@gmail.com
About author: 刘川(1987-),男,硕士研究生,主要从事药物结晶技术的研究。
引用本文:   
刘川, 赵颖颖, 尹秋响, 谢闯, 王静康.头孢呋辛钠在水溶液中的降解动力学[J].  化学工业与工程, 2013,30(1): 8-13
LIU Chuan, ZHAO Ying-Ying, YIN Qiu-Xiang, XIE Chuang, WANG Jing-Kang.Degradation Kinetics of Cefuroxime Sodium in Aqueous Solution[J].  Chemcial Industry and Engineering, 2013,30(1): 8-13
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