Correlation Between Uracil and Dihydrouracil Plasma Ratio, Fluorouracil (5-FU) Pharmacokinetic Parameters, and Tolerance in Patients With Advanced Colorectal Cancer: A Potential Interest for Predicting 5-FU Toxicity and Determining Optimal 5-FU Dosage

Abstract

PURPOSE: Patients with genetic fluorouracil (5-FU) catabolic deficiencies are at high risk for severe toxicity. To predict 5-FU catabolic deficiencies and toxic side effects, we conducted a prospective study of patients treated for advanced colorectal cancer by high-dose 5-FU. PATIENTS AND METHODS: Eighty-one patients were treated with weekly infusions of 5-FU and folinic acid. The initial 5-FU dose of 1,300 mg/m² was individually adjusted according to a dose-adjustment chart. Plasma concentrations of uracil (U) and its dihydrogenated metabolite, dihydrouracil (UH₂), were measured before treatment, and the ratio of UH₂ to U was calculated. Pharmacokinetic and pharmacodynamic studies were conducted to look for a relationship between the ratio of UH₂ to U and 5-FU metabolic outcome and tolerance. RESULTS: The UH₂-U ratios were normally distributed (mean value, 2.82; range, 0.35 to 7.13) and were highly correlated to (1) 5-FU plasma levels after the first course of treatment (r = .58), (2) 5-FU plasma clearance (r = .639), and (3) individual optimal therapeutic 5-FU dose (r = .65). Toxic side effects were observed only in patients with initial UH₂-U ratios of less than 1.8. No adverse effects were noted in patients with UH₂-U ratios of greater than 2.25. CONCLUSION: The UH₂-U ratio, easily determined before treatment, could help to identify patients with metabolic deficiency and, therefore, a risk of toxicity.