Food significantly reduces plasma concentrations of first-line anti-tuberculosis drugs.

BACKGROUND & OBJECTIVES Concomitant feeding and anti-tuberculosis (TB) drug administration are likely to reduce nausea and enhance compliance to treatment. However, food could lower plasma drug concentrations. This study was undertaken to examine the effect of food on two-hour plasma concentrations of rifampicin (RMP), isoniazid (INH) and pyrazinamide (PZA), and pharmacokinetics of these drugs in adult TB patients. METHODS Newly diagnosed adult TB patients were recruited from the Revised National Tuberculosis Control Programme (RNTCP) treatment centres in Chennai Corporation, Chennai, India. Two-hour post-dosing plasma concentrations were determined in 25 patients, and a semi-intensive pharmacokinetic study was undertaken in six patients. RMP, INH and PZA concentrations were determined by high-performance liquid chromatography. RESULTS The geometric mean two-hour concentrations with food and under fasting conditions were 2.2 and 5.5 μg/ml for RMP (P<0.001), 3.9 and 11.3 μg/ml for INH (P<0.001), and 18.0 and 28.2 μg/ml for PZA (P<0.001), respectively. Drug administration with food caused the plasma concentration to decrease by 50, 45 and 34 per cent for RMP, INH and PZA, respectively. Significant decreases in peak concentrations and exposures of drugs and delay in time to attain peak concentrations of drugs when taken with food were also observed. INTERPRETATION & CONCLUSIONS Our findings showed that food lowered anti-TB drug concentrations significantly and delayed absorption. Patients may be explained the beneficial effects of taking anti-TB drugs in a fasting state and advised to do so. There is a need for more research on optimization of dosing to maximize efficacy and safety of currently used drugs

Estimation of content of anti-TB drugs supplied at centres of the revised National TB Control Programme in Tamil Nadu, India

Objective:To determine the content of certain antituberculosis (TB) drugs supplied at TB treatment centres of the Revised National TB Control Programme (RNTCP) in the state of Tamil Nadu, India. Methods:Eight districts across the state were selected, and the following drugs were collected from five settings (District TB centre, TB unit, designated microscopy centres, DOT providers) in each district: rifampicin (150 and 450 mg), isoniazid (300 mg), pyrazinamide (500 and 750 mg), ethambutol (400 and 600 mg), ethionamide (250 mg), levofloxacin (500 mg) and cycloserine (250 mg). A maximum of 10 tablets/capsules were collected from each setting. The drugs were coded prior to analysis. All drugs were assayed by validated spectrophotometric methods. The acceptable limits for drug content were taken as 90-110% of the stated content.Results:More than 90% of tablets of rifampicin 450 mg, isoniazid 300 mg, pyrazinamide 500 and 750 mg, ethambutol 400 and 600 mg and ethionamide 250 mg were within acceptable limits. Eighty per cent of rifampicin 150 mg, 21% of cycloserine 250 mg and 87% of levofloxacin 500 mg were within acceptable limits. The mean cycloserine content was below the acceptable limit in all districts, the mean drug content being 200 mg (range: 108-245 mg). Conclusion:This systematic study showed that the stated drug content of cycloserine was not reached in all districts. Deterioration of cycloserine could be minimised by storing the drug in refrigerators. The geographical location of the districts had no influence on the drug content

Factors influencing plasma nevirapine levels: a study in HIV-infected children on generic antiretroviral treatment in India

Background: Nevirapine is an important component of paediatric combination HIV therapy. Adequate drug exposure is necessary in order to achieve long-lasting viral suppression. Objectives: To study the influence of age, drug dose and formulation type, nutritional status and CYP2B6 516G&#62;T polymorphism on blood concentrations of nevirapine in children treated with generic antiretroviral drugs. Methods: A multicentre study was conducted at four sites in India. HIV-infected children receiving generic nevirapine-based fixed-dose combinations were recruited. Trough and 2 h nevirapine plasma concentrations were determined by HPLC. Characterization of the CYP2B6 gene polymorphism was performed using direct sequencing. Clinical and nutritional status was recorded. Groups were compared using the Mann–Whitney U-test and multivariable logistic regression analysis was performed to identify factors contributing to low drug levels. Results: Ninety-four children of median age 78 months were studied; 60% were undernourished or stunted. Stunted children had a significantly lower 2 h nevirapine concentration compared with non-stunted children (P &#60; 0.05); there were no significant differences in trough concentrations between different nutritional groups. Nevirapine levels were significantly higher in children with TT compared with GG and GT CYP2B6 genotypes (P &#60; 0.01). Children &#8804;3 years had a 3.2 (95% confidence interval 1.07–9.45) times higher risk of having sub-therapeutic nevirapine concentrations. Conclusions: Nevirapine blood concentrations are affected by many factors, most notably age =3 years; a combination of young age, stunting and CYP2B6 GG or GT genotype could potentially result in sub-therapeutic nevirapine concentrations. Dosing recommendations for children should be reviewed in the light of these findings