Studies in animals have shown that drug-induced action potential prolongation with class III antiarrhythmic agents increases with slow pacing rates. We studied the physiological rate dependence of sotalol effects on ventricular repolarization, measured as QT interval duration on the surface electrocardiogram at rest and during a maximal exercise test, in 10 normal volunteers. In a randomized, crossover study, three dosages of sotalol (160 mg/24 hr, 320 mg/24 hr, and 640 mg/24 hr) were administered during 4 days to each subject. In a control period, no drug was administered. During each period, 50-100 QT intervals were measured over a wide range of RR intervals recorded at rest and during the course of a maximal exercise test. Plasma sotalol concentration and beta-adrenoceptor blockade (percent reduction in peak exercise heart rate from control) were also measured. The QT-versus-RR relation was fitted to several formulas, and the overall best fit was used to calculate QT interval duration normalized for a heart rate of 60 beats/min (QTc) and to analyze the rate dependence of QT prolongation with sotalol. Sotalol-induced beta-adrenoceptor blockade and QTc prolongation were dose and concentration dependent. Sotalol reduced peak exercise heart rate by 13.8 +/- 7% at the dosage of 320 mg/24 hr and by 25.4 +/- 8% at the dosage of 640 mg/24 hr (both p less than 0.01). Sotalol prolonged QTc interval by 5.8 +/- 3.7% and 11.8 +/- 3% at these respective dosages (both p less than 0.01). The concentration of sotalol required to produce minimal (mean QTc prolongation, 5.6%; confidence interval, 0-11.2%) QTc prolongation (680 ng/ml) tended to be lower than that required for minimal (mean percent reduction in maximal exercise heart rate, 13.9%; confidence interval, 0-27.8%) beta-blockade (840 ng/ml). QT prolongation with sotalol increased with increasing RR intervals (i.e., decreasing heart rate) at all dosages. QT prolongation became statistically significant for RR of 800 msec or more at all dosages and for RR intervals of 600 msec or more at the dosage of 640 mg/24 hr. This rate dependence altered the relation between QT interval duration and sotalol plasma concentrations. These results suggest that sotalol prolongs QTc interval in humans at dosages and concentrations similar to those required to produce beta-adrenoceptor blockade, QT prolongation with sotalol is more pronounced when heart rate decreases and is not apparent during exercise-induced tachycardia, and the relation between QT prolongation with sotalol and plasma concentrations of the drug depends on the heart rate at which measurements are made.
The aim of this pharmacokinetic analysis was to develop and validate a population pharmacokinetic model for R- and S-ibuprofen from samples obtained after 3 successive administrations of ibuprofen (10-5-5 mg/kg) at 24-hour intervals to preterm newborn infants aged from <6 hours to 8 days of life. A model including unilateral bioconversion of R-ibuprofen into S-ibuprofen was developed using the software NONMEM. R- and S-ibuprofen plasma concentrations were adequately fitted by this model. Estimated clearance and volume of distribution were 3.5 mL/h/kg and 173 mL/kg, respectively, with a calculated half-life (t((1/2))) of 34.3 hours for S-ibuprofen. Estimated clearance at birth and volume of distribution were 25.5 mL/h/kg and 306 mL/kg with a t((1/2)) at birth of 8.3 hours for R-ibuprofen. R-ibuprofen elimination increased during the first week of life, whereas S-ibuprofen pharmacokinetics were weakly modified. Therefore, because the activity of the 2 enantiomers differs, it is important that subsequent studies consider R- and S-enantiomers separately. Mean simulated ibuprofen concentrations at various dose regimens were in agreement with observed concentrations. The present analysis allows a more accurate estimation of the ibuprofen pharmacokinetics as parameters could be estimated separately for each enantiomer and the effect of postnatal age on the elimination of R-ibuprofen was elicited.
In vitro dissolution, in vitro and in vivo taste profiles support the view that the newly developed granules can be swallowed before release of the bitter active substance, thus avoiding stimulation of taste receptors. Moreover, Luc 01 was shown to be bioequivalent to the licensed product. The availability of a taste-masked form should improve compliance which is critical to the efficacy of NaPB treatment in patients with UCD.
Based on available data and practical considerations, a 4 g three times daily dose regimen of PAS-GR should be the preferred dose in hospital settings, where it remains the best regimen to cover the around-the-clock suppression of mycobacteria based on the minimal inhibitory concentration for PAS. In MDR-TB adults and in hospital settings, there is no safety advantage in administering a regimen of 4 g twice daily. As compliance is critical to the effectiveness of the treatment, a 4 g three times daily dose regimen may be more forgiving if the patient misses a dose.
ObjectivesThe aim of this study was to describe a nationwide system for pre-marketing follow-up (cohort temporary utilization authorization [ATU] protocol; i.e., ‘therapeutic utilization’) of a new taste-masked formulation of sodium phenylbutyrate (NaPB) granules (Pheburane®) in France and to analyze safety and efficacy in this treated cohort of patients with urea cycle disease (UCD).MethodsIn October 2012, a cohort ATU was established in France to monitor the use of Pheburane® on a named-patient basis. All treated UCD patients were included in a follow-up protocol developed by the Laboratory (Lucane Pharma) and the French Medicines Agency (ANSM), which recorded demographics, dosing characteristics of NaPB, concomitant medications, adverse events, and clinical outcome during the period of treatment. Following the granting of the Marketing Authorization in Europe, the cohort ATU was terminated approximately 1 year after its initiation, as the product was launched on the French market.ResultsThe ease of administration and acceptability were much better with the new taste-masked formulation than with the previous treatment. No episodes of metabolic decompensation were observed over a treatment period ranging from 3 to 11 months with Pheburane® and the range of ammonia and glutamine plasma levels improved and remained within the normal range. In all, no adverse events were reported with Pheburane® treatment.ConclusionsThe recently developed taste-masked formulation of NaPB granules improved the quality of life for UCD patients. This may translate into improved compliance, efficacy, and safety, which may be demonstrated either in further studies or in the post-marketing use of the product.
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