Rapid and sharp decline in HCV upon monotherapy with NS3 protease inhibitor, ACH-1625.

BACKGROUND: ACH-1625 is a linear peptidomimetic inhibitor that non-covalently binds to HCV NS3 protease with high potency and specificity. Short-term monotherapy of HCV genotype-1 infection with ACH-1625 was found to be safe and resulted in ≥3.3 log(10) IU/ml mean viral load reduction. These viral load decay data were analysed to compare HCV dynamics with prior reports and estimate the antiviral efficiency of ACH-1625. METHODS: Drug efficiency was estimated by analysing the viral decay following initiation of up to 5 days of monotherapy with ACH-1625 in 36 chronically infected HCV genotype-1 patients. During this monotherapy study, ACH-1625 was administered either twice-a-day for 4.5 days or once daily for 5 days at 5 different dose levels in 36 patients. RESULTS: A sharp viral decay during the first 48 h following the initiation of ACH-1625 treatment afforded high drug efficiency estimates (≥0.9934). In addition, an increase in the estimated drug efficiency was observed with increasing ACH-1625 dose. The observed anti-HCV response was fairly uniform in this proof-of-concept study across the population of 36 patients. CONCLUSIONS: Estimates of the treatment-independent viral kinetics parameters were consistent with prior reports and the estimated drug efficiency of ACH-1625 monotherapy was very high (≥0.9934) in fasted and fed states.

Single-dose pharmacokinetics and safety of ziprasidone in children and adolescents.

OBJECTIVE: The purpose of this study was to provide single-dose pharmacokinetic, safety, and tolerability data for ziprasidone in youths with tic disorder, for comparison to adult studies to discern whether ziprasidone pediatric dosing could be modeled from adult data. METHOD: A single-dose, open-label study of ziprasidone was conducted in youths (ages 7-16 years) with Tourette's disorder or chronic tic disorder. Dosing of ziprasidone oral suspension (40 mg/mL) was weight adjusted: >60 kg, 20 mg (group 1, n = 8); 31 to 60 kg, 10 mg (group 2, n = 8); and 16 to 30 kg, 5 mg (group 3, n = 8). Patients were assessed for serum ziprasidone concentration, safety, tolerability, and electrocardiogram pre- and postdose. RESULTS: Twenty-four patients were evaluated for safety and tolerability, and 23 were evaluated for pharmacokinetics. Regression analysis of AUC(0-infinity) and Cmax values versus weight-normalized dose showed linear, dose-related changes in ziprasidone exposure. Ziprasidone was well tolerated with frequent, although transient, somnolence. No clinically significant change from baseline was observed in Bazett's or Fridericia's corrected QT(c) interval, and change in QT(c) interval was not related to serum ziprasidone concentration. CONCLUSIONS: Oral ziprasidone exhibited linear pharmacokinetics and dose-related exposure in youths with Tourette's disorder or chronic tic disorder, which are comparable to adult data. A single dose of ziprasidone was well tolerated without clinically significant effects on electrocardiograms collected around the time of maximum serum concentration.

Pharmacodynamics of ziprasidone in children and adolescents: impact on dopamine transmission.

OBJECTIVE: Ziprasidone is an atypical antipsychotic with a high ratio of 5-HT(2A) to D(2) receptor antagonism. It is also an agonist at 5-HT(1A), which has been shown in rats to increase dopamine in prefrontal cortex. The objective of this study was to probe the dopamine agonist and antagonist pharmacodynamic properties of ziprasidone in youth. METHOD: A single-dose, open-label study was conducted in 24 youths, 7 to 16 years of age, with Tourette syndrome or chronic tic disorder. Ziprasidone oral suspension (40 mg/mL) was given to achieve 0.2 to 0.3 mg/kg. Patients were subsequently assessed for serum ziprasidone, serum prolactin, and eye blink rates. RESULTS: Serum ziprasidone peaked 4 hours postdose. Prolactin (baseline mean 7.2 ng/mL, 95% confidence interval [CI] 5.2-9.2) peaked at 4 hours (mean 27.5 ng/mL, 95% CI 22.6-32.3). Eyeblink rates per 5 minutes (baseline mean 60, 95% CI 42-79) peaked at 6 hours (mean 74, 95% CI 52-96). CONCLUSIONS: Ziprasidone acutely blocks dopamine transmission, as indicated by increased prolactin levels, and, in a delayed fashion, appears to stimulate dopaminergic transmission, as indicated by the increase in spontaneous eye blinks. The mechanism of dopaminergic stimulation is presumed to be indirect, via 5-HT(1A) agonism.