Naguib Ibrahim A, Abdelaleem Eglal A, Emam Aml A, Ali Nouruddin W, Abdallah Fatma F
Pharmaceutical Analytical Chemistry Department, Faculty of Pharmacy, Beni-Suef University, Beni-Suef, Egypt.
Biomed Chromatogr. 2018 Oct;32(10):e4304. doi: 10.1002/bmc.4304. Epub 2018 Jul 16.
Two selective and accurate chromatographic methods are presented for simultaneous quantitation of spironolactone (SP) and furosemide (FR) and canrenone (CN), the main degradation product and the main active metabolite of SP. Method A was HPTLC, where separation was completed on silica gel HPTLC F plates using ethyl acetate-triethylamine-acetic acid (9:0.7:0.5, by volume) as a developing system and UV detection at 254 nm. Method B was a green isocratic RP-HPLC utilizing a C (4.6 × 100 mm) column, the mobile phase consisting of ethanol-deionized water (45: 55, v/v) and UV estimation at 254 nm. Adjustment of flow rate at 1 mL/min and pH at 3.5 with glacial acetic acid was done. Regarding the greenness profile, the proposed RP-HPLC method is greener than the reported one. ICH guidelines were followed to validate the developed methods. Successful applications of the developed methods were revealed by simultaneous determination of FR, SP and CN in pure forms and plasma samples in the ranges of 0.2-2, 0.05-2.6 and 0.05-2 μg/band for method A and 5-60, 2-60 and 2-60 μg/mL for method B for FR, SP and CN, respectively.
本文介绍了两种选择性好且准确的色谱方法,用于同时定量测定螺内酯(SP)、呋塞米(FR)和坎利酮(CN),其中CN是SP的主要降解产物和主要活性代谢物。方法A为高效薄层色谱法(HPTLC),在硅胶HPTLC F板上进行分离,展开系统为乙酸乙酯 - 三乙胺 - 乙酸(体积比9:0.7:0.5),在254 nm波长处进行紫外检测。方法B为绿色等度反相高效液相色谱法(RP - HPLC),使用C(4.6×100 mm)柱,流动相由乙醇 - 去离子水(体积比45:55)组成,在254 nm波长处进行紫外测定。通过冰醋酸将流速调整为1 mL/min,pH值调整为3.5。就绿色度而言,所提出的RP - HPLC方法比已报道的方法更环保。按照国际协调会议(ICH)指南对所开发的方法进行验证。所开发方法的成功应用体现在分别以纯品形式和血浆样品同时测定FR、SP和CN,方法A中FR、SP和CN的测定范围分别为0.2 - 2、0.05 - 2.6和0.05 - 2 μg/条带,方法B中FR、SP和CN的测定范围分别为5 - 60、2 - 60和2 - 60 μg/mL。
