Concentration of Donepezil in the Cerebrospinal Fluid of AD Patients: Evaluation of Dosage Sufficiency in Standard Treatment Strategy.

Although some studies have described the pharmacokinetics and pharmacodynamics of donepezil in the peripheral compartment, studies focused on drug transport across the blood-brain barrier are still very rare. To our knowledge, the fluctuation in the cerebrospinal fluid concentration of donepezil after administration of the drug has not been described in the literature so far. We recruited 16 patients regularly taking a standard therapeutic dose of donepezil (10 mg per day). All patients (Caucasian race) were treated for at least three months with a stable dose of 10 mg per day prior to sample collection. Patients were divided into two groups depending on the time of plasma and cerebrospinal fluid sampling: 12 h (n = 9; 4 M/5F aged 78.68 ± 7.35 years) and 24 h (n = 7; 3 M/4F aged 77.14 ± 5.87 years) after donepezil administration. The cerebrospinal fluid sample was collected by standard lumbar puncture technique using a single-use traumatic needle. The samples were analysed on an Agilent 1260 Series liquid chromatograph comprising a degasser, a quaternary pump, a light-tight autosampler unit set, a thermostated column compartment, and a UV/VIS detector. Agilent ChemStation software, the statistical software Prism4, version 5.0 (GraphPad Software, USA), and IBM® SPSS® Statistics were used for the analysis of the results. The difference in plasma concentration of donepezil after 12 h (mean ± SEM; 39.99 ± 5.90 ng/ml) and after 24 h (29.38 ± 1.71 ng/ml) was nonsignificant. In contrast, the donepezil concentration in the cerebrospinal fluid was significantly higher in the 24-h interval (7.54 ± 0.55 ng/ml) compared with the 12-h interval (5.19 ± 0.83 ng/ml, which is ~70 % based on mean cerebrospinal fluid values). Based on these data, it is plausible to predict that donepezil might produce a stronger AChE inhibition in the brain at 24 h compared with 12 h following the administration. This information may help physicians individually adjust the time of drug administration in the patients according to time course of the disease symptoms.

Pharmacokinetic and safety assessments of concurrent administration of risperidone and donepezil.

Treatment of Alzheimer's disease sometimes uses combinations of drugs because dementia is frequently associated with behavioral symptoms. Risperidone and donepezil are both metabolized through cytochrome P450 2D6 and 3A4, raising the possibility of drug interactions with combination therapy. The objective of this study was to determine whether significant drug interactions occur with concomitant administration of donepezil and risperidone. In an open-label, three-way crossover study, 24 healthy men were randomly assigned to receive 0.5 mg of risperidone twice daily, 5 mg of donepezil once daily, or both drugs for 14 consecutive days, followed by a 21-day washout period. The treatment ratios of AUC and associated 90% confidence intervals (CIs) for risperidone active moiety, defined as risperidone plus 9-hydroxyrisperidone (ratio = 110.2%; 90% CI = 103.7-117.2), and for donepezil (ratio = 97.1%; 90% CI = 90.0-103.6) were within the 80% to 125% of bioequivalence range. The treatment ratios of Cmax and associated 90% CIs for risperidone active moiety (ratio = 114.6%; 90% CI = 107.0-122.8) and for donepezil (ratio = 96.1%; 90% CI = 90.0-102.6) were also within the bioequivalence range. Therefore, no significant pharmacokinetic differences occurred in either risperidone active moiety or donepezil when given alone or in combination. Adverse events (predominantly headache, nervousness, and somnolence) were minor and comparable for all treatment groups. The results indicate that no clinically meaningful drug interactions occurred between risperidone 1 mg daily and donepezil 5 mg daily at steady state, and therefore no dosage adjustment is required when both drugs are combined with the dosage regimen studied. Additional investigations are warranted to determine the potential for interactions in elderly patients with dementia who may eliminate risperidone and donepezil more slowly and thus be more vulnerable to clinical drug interactions than the young healthy subjects examined in this study.

Safety and tolerability of the free-radical scavenger OPC-14117 in Huntington's disease. The Huntington Study Group.

Oxidative damage due to free-radical generation in the setting of underlying defects of neuronal energy metabolism has been implicated as a pathogenetic mechanism for Huntington's disease (HD). The authors conducted a randomized, double-blind, placebo-controlled, multicenter trial of the tolerability of OPC-14117, a lipophilic free-radical scavenger that concentrates in the brain. Ambulatory patients with HD received OPC-14117 60 mg/d, 120 mg/d, 240 mg/d, or placebo and were assessed by the Unified Huntington's Disease Rating Scale (UHDRS) for 20 weeks, including 12 or 16 weeks of assigned treatment and 8 or 4 weeks of blinded withdrawal of the study drug. Tolerability was measured by the proportion of patients completing the initial 12-week course of treatment on their originally assigned regimen. Sixty-four patients were enrolled in the study, 56 of whom completed the 12 weeks of treatment. Treatment was discontinued in four patients (1 placebo, 1 60 mg/d, 2 240 mg/d) due to asymptomatic but persistent serum elevations of liver transaminase. Two patients (1 60 mg/d and 1 120 mg/d) withdrew because of increased involuntary movements, one patient (60 mg/d) withdrew due to persistent dry eyes, and one patient (120 mg/d) withdrew because of persistent vomiting. There were no significant differences between treatment arms in the primary measures of tolerability, the frequency and types of clinical adverse events, or the clinical/functional features of HD. OPC-14117 was safe and generally well tolerated; however, elevations of liver transaminase suggested that continued surveillance monitoring is warranted in conducting more long-term studies of this antioxidant therapy.