Abstract
Abstract 1 Simple, accurate and specific gas-chromatographic methods for the estimation of derivatized phosphoramide and non-nitrogen mustards utilizing alkali-flame ionization detection are described. 2 The pharmacokinetics in plasma of cyclophosphamide, phosphoramide mustard, nor-nitrogen mustard and nitrobenzyl pyridine alkylating activity were investigated following administration of cyclophosphamide by intravenous and oral routes to patients with malignant disease 3 The mean T½ for cyclophosphamide was 8.88 h (s.d. 1.25 h) and the apparent volume of distribution (Vdβ) was 0.74 l kg-1 (s.d. 0.16 l kg-1). 4 The decline in plasma concentration of phosphoramide mustard was biphasic, the longer T½ being 8.68 h (s.d. 2.50 h). This was not significantly different from that of cyclophosphamide. This could indicate that the true biological T½ for phosphoramide mustard is identical with or shorter than that of cyclophosphamide. 5 The plasma concentrations of phosphoramide mustard following cyclophosphamide doses of known therapeutic efficacy are probably insufficient to produce important cytotoxic effects. This suggests that if phosphoramide mustard is the major alkylating metabolite derived from cyclophosphamide, it is transported in the blood in precursor form. 6 The mean plasma T½ of nor-nitrogen mustard was 3.31 h (s.d. 1.60 h) which was significantly different from that of cyclophosphamide. 7 The mean plasma T½ of the nitrobenzylpyridine alkylating activity was 9.81 h (s.d. 4.18 h) and did not significantly differ from that of cyclophosphamide. Although the area under the plasma alkylating activity concentration, time curve is related to the T½ of cyclophosphamide, the alkylating activity does not reflect the concentrations of the two plasma metabolites measured.
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