Volume 5 Issue 5
Oct.  2015
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Dheeraj Kaushik, Gulshan Bansal. Four new degradation products of doxorubicin:An application of forced degradation study and hyphenated chromatographic techniques[J]. Journal of Pharmaceutical Analysis, 2015, 5(5): 285-295. doi: 10.1016/j.jpha.2015.05.003
Citation: Dheeraj Kaushik, Gulshan Bansal. Four new degradation products of doxorubicin:An application of forced degradation study and hyphenated chromatographic techniques[J]. Journal of Pharmaceutical Analysis, 2015, 5(5): 285-295. doi: 10.1016/j.jpha.2015.05.003

Four new degradation products of doxorubicin:An application of forced degradation study and hyphenated chromatographic techniques

doi: 10.1016/j.jpha.2015.05.003
  • Publish Date: Oct. 10, 2015
  • Forced degradation study on doxorubicin (DOX) was carried out under hydrolytic condition in acidic, alkaline and neutral media at varied temperatures, as well as under peroxide, thermal and photolytic conditions in accordance with International Conference on Harmonization (ICH) guidelines Q1(R2). It was found extremely unstable to alkaline hydrolysis even at room temperature, unstable to acid hy-drolysis at 80 °C, and to oxidation at room temperature. It degraded to four products (O-I-O-IV) in oxidative condition, and to single product (A-I) in acid hydrolytic condition. These products were re-solved on a C8 (150 mm × 4.6 mm, 5μm) column with isocratic elution using mobile phase consisting of HCOONH4 (10 mM, pH 2.5), acetonitrile and methanol (65:15:20, / / ). Liquid chromatography-pho-todiode array (LC-PDA) technique was used to ascertain the purity of the products noted in LC-UV chromatogram. For their characterization, a six stage mass fragmentation (MS6) pattern of DOX was outlined through mass spectral studies in positive mode of electrospray ionization (+ESI) as well as through accurate mass spectral data of DOX and the products generated through liquid chromato-graphy-time of flight mass spectrometry (LC-MS-TOF) on degraded drug solutions. Based on it, O-I-O-IV were characterized as 3-hydroxy-9-desacetyldoxorubicin-9-hydroperoxide, 1-hydroxy-9-desacetyldox-orubicin-9-hydroperoxide, 9-desacetyldoxorubicin-9-hydroperoxide and 9-desacetyldoxorubicin, re-spectively, whereas A-I was characterized as deglucosaminyl doxorubicin. While A-I was found to be a pharmacopoeial impurity, all oxidative products were found to be new degradation impurities. The mechanisms and pathways of degradation of doxorubicin were outlined and discussed.
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