The study was undertaken to show that polymorphic isoniazid elimination in humans is trimodal; that the acetylator genotype and eliminator phenotype of the individual patient are concordant; and that the differences in the pharmacokinetic parameters of fast, intermediate, and slow eliminator subgroups are statistically significant. Sixty adult patients of both sexes and of mixed race with tuberculosis participated in the trial. The apparent elimination rate constant (k, h(-1)) and the area under the isoniazid concentration-time curve (AUC, mg/L/h), over the interval 2 to 6 h after oral isoniazid were determined in all patients; NAT2 allele composition was determined in 47 patients. Serum INH concentrations were determined by HPLC and genotypes by PCR/restriction enzyme analysis. Three eliminator phenotypes could be distinguished, and concordance between the phenotype and the genotype of the individual could be demonstrated. The isoniazid concentration-time profiles of the three eliminator subgroups were significantly different (p < 0.05). The NAT2*12A allele, which codes for fast acetylation, has a high frequency in the population studied, the intermediate acetylator genotype is constituted of codominant fast and slow alleles, and the distribution of phenotypes/genotypes in the population is consistent with Hardy-Weinberg predictions. The therapeutic implications of polymorphic isoniazid metabolism are discussed.
Collections of sputum from 105 patients with newly diagnosed pulmonary tuberculosis were made before and at 1 and 2 d after the start of chemotherapy with isoniazid (INH) alone given to groups of patients in doses of 600 mg, 300 mg, 150 mg, 75 mg, 37.5 mg, 18.75 mg, and 9 mg daily, as well as from an untreated group. Counts of colony forming units (cfu) of Mycobacterium tuberculosis in the collections were set up on plates of selective 7H10 medium. The early bactericidal activity (EBA) of INH was defined as the decrease in log10 cfu/ml sputum/day during the first 2 d of treatment. A smooth curve relating EBA to log dose was obtained, with 600 mg INH yielding the highest mean EBA of 0.539, and 18.75 mg INH yielding the lowest EBA (0.111) that could be distinguished from the bactericidal activity of the untreated group. The ratio of the usual dose of 300 mg INH to the lowest dose, of 18.75 mg, that produced a detectable EBA, termed the therapeutic margin, was therefore 16, in contrast to the lower therapeutic margin of 4 for rifampin. The EBA was related to the INH acetylator genotype of patients treated with 600 mg or 9 mg INH.
The activity of rifabutin and rifampicin against rapidly growing, extra-cellular Mycobacterium tuberculosis in cavity walls was measured by counting colony-forming units (cfu) in the sputum of 74 patients with newly diagnosed, severe pulmonary tuberculosis during the first 2 days of daily chemotherapy. The fall in counts, (log10 cfu/mL sputum/day), was termed the early bactericidal activity (EBA). The EBA, a highly reproducible measure within groups of 10-13 patients, was -0.015 for a low EBA reference group (who received no chemotherapy) and 0.495 for a high EBA reference group (who received 300 mg isoniazid daily). The EBAs in patients receiving 300 and 600 mg rifabutin were 0.014 and 0.075, and for those taking 150, 300 and 600 mg rifampicin 0.021, 0.150 and 0.204, respectively. Weight-for-weight, the ratio rifabutin to rifampicin producing the same EBA was estimated to be 2.73 (95% confidence limits 1.96-3.78). Determination of the EBA is a rapid and economical method of comparing the potency in human lesions of drugs of the same type before embarking on a conventional clinical trial.
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