We aimed in this study to describe efavirenz concentration-time courses in treatment-naïve children after once-daily administration to study the effects of age and body weight on efavirenz pharmacokinetics and to test relationships between doses, plasma concentrations, and efficacy. For this purpose, efavirenz concentrations in 48 children were measured after 2 weeks of didanosine-lamivudine-efavirenz treatment, and samples were available for 9/48 children between months 2 and 5 of treatment. Efavirenz concentrations in 200 plasma specimens were measured using a validated high-performance liquid chromatography method. A population pharmacokinetic model was developed with NONMEM. The influence of individual characteristics was tested using a likelihood ratio test. The estimated minimal and maximal concentrations of efavirenz in plasma (C min and C max , respectively) and the area under the concentration-time curve (AUC) were correlated to the decrease in human immunodeficiency virus type 1 RNA levels after 3 months of treatment. The threshold C min (and AUC) that improved efficacy was determined. The target minimal concentration of 4 mg/liter was considered for toxicity. An optimized dosing schedule that would place the highest percentage of children in the interval of effective and nontoxic concentrations was simulated. The pharmacokinetics of efavirenz was best described by a one-compartment model with first-order absorption and elimination. The mean apparent clearance and volume of distribution for efavirenz were 0.211 liter/h/kg and 4.48 liters/kg, respectively. Clearance decreased significantly with age. When the recommended doses were given to 46 of the 48 children, 19% (44% of children weighing less than 15 kg) had C min s below 1 mg/liter. A significantly higher percentage of children with C min s of >1.1 mg/liter or AUCs of >51 mg/liter ⅐ h than of children with lower values had viral load decreases greater than 2 log 10 copies/ml after 3 months of treatment. Therefore, to optimize the percentage of children with C min s between 1.1 and 4 mg/liter, children should receive the following once-daily efavirenz doses: 25 mg/kg of body weight from 2 to 6 years, 15 mg/kg from 6 to 10 years, and 10 mg/kg from 10 to 15 years. These assumptions should be prospectively confirmed.The combination of didanosine (ddI), lamivudine (3TC), and efavirenz (EFV) once daily has improved compliance for adults and shown good antiretroviral efficacy (12); moreover, the treatment could be better tolerated in the long term (5, 6, 13). For children, the efficacy and tolerance of this ddI-3TC-EFV combination have not been investigated. The aims of the BURKINAM (ANRS 12103) study, then, were to investigate the pharmacokinetics of EFV, ddI, and 3TC given once daily in children 30 months to 15 years old and to evaluate the efficacy and tolerance of this combination.EFV is metabolized exclusively via CYP2B6 (cytochrome P450 isoenzyme) in the liver (20). Several factors (covariates), such as age (9), duration of treatment (7), or ethnici...
We aimed in this study to describe lamivudine concentration-time courses in treatment-naïve children after once-daily administration, to study the effects of body weight and age on lamivudine pharmacokinetics, and to simulate an optimized administration scheme. For this purpose, lamivudine concentrations were measured in 49 children after at least 2 weeks of didanosine-lamivudine-efavirenz treatment. A total of 148 plasma lamivudine concentrations were measured, and a population pharmacokinetic model was developed with NONMEM. The influence of individual characteristics was tested using a likelihood ratio test. Children were divided into two groups, according to their pharmacokinetic parameters, thanks to tree regression analysis. For each patient, the area under the curve was derived from estimated individual pharmacokinetic parameters. Different once-daily doses were simulated in each group, to obtain the same exposure in children as the mean effective exposure in adults (8.9 mg/liter ⅐ h). A two-compartment model in which the slope of distribution is assumed to be equal to the absorption rate constant adequately described the data. Parameter estimates were standardized for a mean standard body weight using an allometric model. Children were then divided into 2 groups according to body weight: CL/F was significantly higher in children weighing less than 17 kg (1.12 liters/h/kg) than in children over 17 kg (0.95 liters/h/kg; P ؍ 0.01). The target mean AUC of 8.9 mg/liters ⅐ h was obtained with a 10-mg/kg once-daily lamivudine (3TC) dose for children below 17 kg; the recommended dose of 8 mg/kg seems to be sufficient in children weighing more than 17 kg. These assumptions should be prospectively confirmed.According to the latest UNAIDS estimates, nearly 90% of the 2.5 million children infected by HIV around the world in 2007 were living in sub-Saharan Africa (21). Highly active antiretroviral therapy (HAART) has been shown to be effective in children from industrialized countries (22) and is feasible in developing countries (8, 10). The combination of didanosine (ddI), lamivudine (3TC), and efavirenz (EFV) once daily in adults showed a good antiretroviral efficacy and good long-term tolerability (9, 15). In children, the efficacy and tolerance of this ddI-3TC-EFV combination remain to be shown. The aims of the BURKINAME-ANRS 12103 trial were to estimate the pharmacokinetics of ddI, 3TC, and efavirenz given once daily in children from 30 months to 15 years or age and to evaluate the efficacy and tolerance of this drug combination.Lamivudine is rapidly absorbed following an oral dose and has a wide distribution due to its relatively low molecular mass (229 Da) and low plasma protein binding (Ͻ36%). The majority of lamivudine (approximately 70%) is eliminated unchanged in the urine over 24 h (13). Approximately 5 to 10% is metabolized to the pharmacologically inactive trans-sulfoxide metabolite, the majority of which is also excreted in the urine within 12 h after a single oral dose (13).The combination of didano...
Our objective was to study didanosine pharmacokinetics in children after the administration of tablets, the only formulation available in Burkina Faso for which data are missing, and to establish relationships between doses, plasma drug concentrations, and treatment effects (efficacy/toxicity). Didanosine concentrations were measured for 40 children after 2 weeks and for 9 children after 2 to 5 months of treatment with a didanosinelamivudine-efavirenz combination. A population pharmacokinetic model was developed with NONMEM. The link between the maximal concentration of the drug in plasma (C max ), the area under the concentration-time curve (AUC), and the decrease in human immunodeficiency virus (HIV) type 1 RNA levels after 12 months of treatment was evaluated. The threshold AUC that improved efficacy was determined by the use of a Wilcoxon test for HIV RNA, and an optimized dosing schedule was simulated. Didanosine pharmacokinetics was best described by a one-compartment model with first-order absorption and elimination. The apparent clearance and volume of distribution were higher for tablets, probably due to a lower bioavailability with tablets than with pediatric powder. The decrease in the viral load after 12 months of treatment was significantly correlated with the didanosine AUC and C max (P < 0.02) during the first weeks of treatment. An AUC of >0.60 mg/liter ⅐ h was significantly linked to a greater decrease in the viral load (a decrease of 3 log 10 versus 2.4 log 10 copies/ml; P ؍ 0.03) than that with a lower AUC. A didanosine dose of 360 mg/m 2 administered as tablets should be a more appropriate dose than 240 mg/m 2 to improve efficacy for these children. However, data on adverse events with this dosage are missing.According to the latest UNAIDS estimates, 2.5 million children around the world were living with human immunodeficiency virus (HIV) in 2007. Nearly 90% of them were living in sub-Saharan Africa (33). Highly active antiretroviral therapy (HAART) has been shown to be effective for children from industrialized countries (34) and is feasible in developing countries (10, 13). Since compliance is essential for individual efficacy (36), once-daily administration of HAART could decrease treatment failure, especially for children from developing countries. The once-a-day combination of didanosine (ddI), lamivudine (3TC), and efavirenz (EFV) has been successfully used for adults (11,12,25,26). It improves compliance, antiretroviral efficacy (25), and long-term tolerance (11,12,26). For children, the once-daily administration of HAART is recommended in the United States and possibly in Europe, but the efficacy and tolerance of this ddI-3TC-EFV combination remain to be shown. ddI is susceptible to acid hydrolysis when administered orally; an estimated 10% of ddI is degraded every 2 min at pH 3.0 or below (22). Another limitation of ddI is its poor solubility at low pH values (pK a ϭ 9.1). As a result, one oral dosage formulation contains buffers to prevent the degradation of the drug in the gastro...
The relative contributions of three combined drugs were assessed on plasma viral load and CD4 lymphocyte count kinetics in HIV-1-infected children. Pharmacokinetics targets have been suggested for lamivudine and didanosine. A composite inhibition score has been determined to be a high predictor of treatment failure in a multidrug therapy.
Access to antiretroviral therapy (ART) and routine laboratory monitoring are limited for HIV-1-infected children from sub-Saharan Africa. This trial conducted in Bobo-Dioulasso, Burkina Faso, aimed to describe the biological efficacy, tolerance, and adherence of the combination of didanosine, lamivudine, efavirenz in once-daily administration among eligible HIV-1-infected children. From February 2006 to November 2007, 51 HIV-1-infected children aged from 30 months to 15 years and eligible for ART were enrolled in a phase II open clinical trial with follow-up visits every 3 months. HIV-1 genotype testing was performed in children with plasma viral load (PVL) >1000 copies per milliliter after ART initiation. Children were followed for a median of 13.4 months [interquartile range (IQR) 12.8-14.2]. At enrollment, median CD4 count was 8% (IQR = 4.5-12). PVL was 341,032 (IQR = 127,838-761,539) copies per milliliter. At 12 months, median CD4 increased significantly by +15% (P < 10(-3)), and median PVL decreases significantly by -290,500 copies per milliliter (P < 10(-4)). Hemoglobin and platelets counts increased significantly by +1.05 g/dL (P < 10(-5)) and 108,500 cells per milliliter (P < 10(-3)), respectively. Based on pill count, mean yearly adherence was 97.3%, and 48% of the children had an adherence rate ≥ 95% at the four quarterly visits. Adherence was better for girls than for boys independently of other sociodemographic variables or markers of HIV disease progression. Drug-resistant mutations were found in 11 children (21.6%). This once-daily drug combination is associated with excellent virological efficacy, immune reconstitution, and good adherence. However, the high prevalence of drug resistance mutations is a matter of concern.
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