Purity Determination of Cyclophosphamide Hydrate by Quantitative 31P-NMR and Method Validation

Recently, quantitative NMR (qNMR), especially 1H-qNMR, has been widely used to determine the absolute quantitative value of organic molecules. We previously reported an optimal and reproducible sample preparation method for 1H-qNMR. In the present study, we focused on a 31P-qNMR absolute determinati...

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Veröffentlicht in:Chemical & pharmaceutical bulletin 2021/07/01, Vol.69(7), pp.630-638
Hauptverfasser: Uchiyama, Nahoko, Hosoe, Junko, Sugimoto, Naoki, Ishizuki, Kyoko, Koide, Tatsuo, Murabayashi, Mika, Miyashita, Naoto, Kobayashi, Kengo, Fujimine, Yoshinori, Yokose, Toshiyuki, Ofuji, Katsuya, Shimizu, Hitoshi, Hasebe, Takashi, Asai, Yumi, Ena, Eri, Kikuchi, Junko, Kiyota, Kohei, Fujita, Kazuhiro, Makino, Yoshinobu, Yasobu, Naoko, Iwamoto, Yoshiaki, Miura, Toru, Mizui, Koji, Asakura, Katsuo, Suematsu, Takako, Muto, Hitomi, Kohama, Ai, Goto, Takashi, Yasuda, Masu, Ueda, Tomohiko, Goda, Yukihiro
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Sprache:eng
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Zusammenfassung:Recently, quantitative NMR (qNMR), especially 1H-qNMR, has been widely used to determine the absolute quantitative value of organic molecules. We previously reported an optimal and reproducible sample preparation method for 1H-qNMR. In the present study, we focused on a 31P-qNMR absolute determination method. An organophosphorus compound, cyclophosphamide hydrate (CP), listed in the Japanese Pharmacopeia 17th edition was selected as the target compound, and the 31P-qNMR and 1H-qNMR results were compared under three conditions with potassium dihydrogen phosphate (KH2PO4) or O-phosphorylethanolamine (PEA) as the reference standard for 31P-qNMR and sodium 4,4-dimethyl-4-silapentanesulfonate-d6 (DSS-d6) as the standard for 1H-qNMR. Condition 1: separate sample containing CP and KH2PO4 for 31P-qNMR or CP and DSS-d6 for 1H-qNMR. Condition 2: mixed sample containing CP, DSS-d6, and KH2PO4. Condition 3: mixed sample containing CP, DSS-d6, and PEA. As conditions 1 and 3 provided good results, validation studies at multiple laboratories were further conducted. The purities of CP determined under condition 1 by 1H-qNMR at 11 laboratories and 31P-qNMR at 10 laboratories were 99.76 ± 0.43 and 99.75 ± 0.53%, respectively, and those determined under condition 3 at five laboratories were 99.66 ± 0.08 and 99.61 ± 0.53%, respectively. These data suggested that the CP purities determined by 31P-qNMR are in good agreement with those determined by the established 1H-qNMR method. Since the 31P-qNMR signals are less complicated than the 1H-qNMR signals, 31P-qNMR would be useful for the absolute quantification of compounds that do not have a simple and separate 1H-qNMR signal, such as a singlet or doublet, although further investigation with other compounds is needed.
ISSN:0009-2363
1347-5223
DOI:10.1248/cpb.c21-00109