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作 者:赵强[1] 詹先成[2] 李琳丽[2] 尹小东[2] 何宁[2]
机构地区:[1]电子科技大学生命科学与技术学院,成都610054 [2]四川大学华西药学院物理化学教研室
出 处:《四川大学学报(医学版)》2005年第5期717-719,共3页Journal of Sichuan University(Medical Sciences)
基 金:国家自然科学基金(批准号30171117)资助
摘 要:目的研究不同温度和相对湿度条件下青霉素钾降解的动力学规律。方法在恒温恒湿条件下使青霉素钾降解,定时测定其含量,并对获得的数据进行数学分析。结果青霉素钾的降解反应速率为-dc/dt=k(c0-c+B),降解曲线符合c=c0-Bexp(kt)+B,速率常数k可表达为k=Aexp(-Ea/RT)exp(mHr),其中活化能Ea=77.26kJ/mol,常数m=0.1159。结论反应速率表达式表述了青霉素钾的降解过程,符合其实际降解规律。Objective To perform a kinetic analysis and formulation of the degradation of penicillin potassium in the solid phase at different temperature and relative humidity. Methods Penicillin potassium was incubated in a temperature-and-humidity-controlled oven at different temperature and relative humidity, and was determined by HPLC at suitable time intervals during the incubation. Results The reaction rate was expressed as -dc/dt =k (c0-c+B), where c is the residual concentration, k degradation rate constant, co original concentration and B a constant related to original concentration of degradant. Degradation curves were fitted with c=c0-Bexp (kt)+B. The k was expressed as k=Aexp(-Ea/RT)exp(mHr), where active energy Ea is 77. 26 kJ/mol and constant m 0. 1159. Conclusion The degradation of penicillin potassium could be expressed with c=c0-Bexp [Aexp ( -Ea/ RT )exp (mHr )t]+ B.
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