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

Severe neurotoxicity due to 5-fluorouracil (FUra) has previously been described in a patient with familial pyrimidinemia. We now report the biochemical basis for both the pyrimidinemia and neurotoxicity in a patient we have recently studied. After administration of a "test" dose of FUra (25 mg/m2, 600 microCi[6-3H]FUra by intravenous bolus) to a patient who had previously developed neurotoxicity after FUra, a markedly prolonged elimination half-life (159 min) was observed with no evidence of FUra catabolites in plasma or cerebrospinal fluid and with 89.7% of the administered dose being excreted into the urine as unchanged FUra. Using a sensitive assay for dihydropyrimidine dehydrogenase in peripheral blood mononuclear cells, we demonstrated complete deficiency of enzyme activity in the patient and partial deficiency of enzyme activity in her father and children consistent with an autosomal recessive pattern of inheritance. Patients who are deficient in this enzyme are likely to develop severe toxicity after FUra administration.

A phase II prospective trial was carried out to study the concept of 5-fluorouracil (5-FU) dose-intensity in patients with advanced colorectal cancer. Forty patients were treated with 5-FU plus leucovorin (LV), with individually increasing doses of 5-FU. A 5-FU pharmacokinetic follow up was performed and a relationship was sought between its metabolism and its response to treatment, and between 5-FU's toxicity and patient survival. 5-FU was administered weekly by 8 hour continuous infusion. The initial dose of 1000 mg/m2 was individually increased every 3 weeks by 250 mg/m2 steps, potentiated by 400 mg/m2 LV. 5-FU plasma concentrations were determined weekly by liquid chromatography. Eighteen overall objective responses and 22 minor responses, stabilizations, or progressions (NR) were observed. 5-FU plasma levels were significantly higher in cases of complete or partial response, whatever the dose. They reached about 2000 micrograms/l as early as the second dose level (1250 mg/m2). Only seven patients who experienced NR reached equivalent levels after the fourth step (1750 mg/m2). High 5-FU plasma levels were predictive of an objective response and better survival (difference not significant). The acute toxicity, whatever the type, was correlated with 5-FU levels > 3000 micrograms/l and not with the dose. This study shows the wide variability of 5-FU metabolism, whatever the dose, the clear relationship between 5-FU plasma levels, toxicity, and efficacy. This relationship points out the problem of the polymorphism of 5-FU metabolism, the usefulness of the therapeutic range determination and the usefulness of the individual 5-FU dose adaptation.

We conducted a prospective study on a large set of cancer patients in an attempt to evaluate the incidence of complete or partial dihydropyrimidine dehydrogenase (DPD) deficiency as found in peripheral mononuclear cells (PMNC). One hundred eighty-five unselected consecutive cancer patients were included. The population consisted of 152 men (mean age, 62.1 years; range, 35 to 90) and 33 women (mean age, 59.2 years; range, 36 to 77). Sixty-eight were head and neck patients treated by a 5-day continuous infusion of fluorouracil (FU; starting dose, 1 g/m2/d, with dose adaptation based on pharmacokinetics) for which DPD activity was measured 2 to 3 days before FU administration (94 cycles analyzed). PMNC-DPD activity was measured by a radio-enzymatic assay using carbon-14-FU. DPD activity in the entire population showed a unimodal distribution, which globally fits a gaussian distribution. Mean and median DPD activity values were 0.222 and 0.211 nmol/min/mg protein, respectively (range, 0.065 to 0.559). No total DPD deficiency was found. Multifactor analysis of variance showed that liver function (biologic evaluation) and age did not influence DPD activity, but that DPD activity was, on average, 15% lower in women (0.194 nmol/min/mg protein) than in men (0.228 nmol/min/mg protein) (P = .03). No difference was demonstrated between premenopausal and postmenopausal women. In patients treated with FU, the risk of developing side effects was not linked to pretreatment DPD activity. FU-related toxicity was linked to FU systemic exposure. The correlation between pretreatment DPD activity and FU systemic clearance (CI) was weak (n = 90, linear regression r = .31, P = .002). Pretreatment DPD activity in patients who required a dose reduction was not significantly different from DPD activity in patients who did not require dose modification. From the present study, it appears that total DPD deficiency is a rare event. Although pretreatment DPD activity cannot be a useful indicator for improving FU dose adaptation strategy, the identification of severe DPD deficiency (< 0.100 nmol/min/mg protein) could lead to starting the treatment with a markedly reduced FU dose or even to using an alternative chemotherapy regimen.