Journal of clinical pharmacology最新文献

Parkinson disease is an age-related disorder of the central nervous system principally due to loss of dopamine-producing cells in the midbrain. Levodopa, in combination with carbidopa, is widely regarded as an effective treatment for the symptoms of Parkinson disease. A dose-response relationship is established for carbidopa-levodopa extended-release capsules (IPX066) in levodopa-naive Parkinson disease patients using a disease progression model. Unified Parkinson Disease Rating Scale (UPDRS) part II plus part III scores from 171 North American patients treated with placebo or IPX066 for approximately 30 weeks from a double-blind, parallel-group, dose-ranging study were used to develop the pharmacodynamic model. The model comprised 3 components: a linear function describing disease progression, a component describing placebo (or nonlevodopa) effects, and a component to describe the effect of levodopa. Natural disease progression in early Parkinson disease as measured by UPDRS was 11.6 units/year and faster in patients with more severe disease (Hoehn-Yahr stage 3). Maximum placebo/nonlevodopa response was 23.0% of baseline UPDRS. Maximum levodopa effect from IPX066 was 76.7% of baseline UPDRS, and the ED50 was 450 mg levodopa. Equilibration half-life for the effect compartment was 62.8 days. Increasing age increased and being female decreased equilibration half-life. The quantitative model allowed description of the entire time course of response to clinical trial intervention.

Since the discovery and development of antiretroviral therapy (ART), HIV has become a chronic disease with patients living longer lives and to ages where co-morbidities, such as cardiovascular disease (CVD) are prevalent. Diagnosis and management of risk factors for CVD, in particular dyslipidemia, have become an important part of the overall care for patients living with HIV infection. Existing guidelines and recommendations for the management of dyslipidemia for persons with HIV infection are largely based on guidelines for the general population. Clinical and epidemiologic research efforts are ongoing to provide information specific to patients living with HIV. This review offers a detailed guide for clinicians who manage dyslipidemia in patients infected with HIV. The first sections provide background information on dyslipidemia, risk stratification, and targets for lipid therapy. This is followed by a step-by-step approach for diagnosis and treatment with specific information on lipid drug use for patients with HIV. The recommendations presented here are based on existing guidelines for the general population, evidence from research in patients infected with HIV, and the clinical experience of the authors. Management issues for which little or no information is available specific to this patient population are noted and serve to highlight the many gaps in our knowledge that will need to be addressed.

IPX066 (extended-release carbidopa-levodopa [ER CD-LD]) is an oral extended-release capsule formulation of carbidopa and levodopa. The single-dose pharmacokinetics of ER CD-LD (as 2 capsules; total dose, 97.5 mg-390 mg CD-LD) versus immediate-release (IR) CD-LD (25 mg-100 mg), sustained-release (CR) CD-LD (25 mg-100 mg), and CD-LD-entacapone (25 mg-100 mg-200 mg) was evaluated in healthy subjects. Following IR dosing, LD reached peak concentrations (Cmax ) at 1 hour; LD concentrations then decreased rapidly and were less than 10% of peak by 5 hours. With CR CD-LD and CD-LD-entacapone, LD Cmax occurred at 1.5 hours, and concentrations were less than 10% of peak by 6.3 and 7.5 hours, respectively. The initial increase in LD concentration was similar between ER CD-LD and IR CD-LD and faster than for CR CD-LD and CD-LD-entacapone. LD concentrations from ER CD---LD were sustained for approximately 5 hours and did not decrease to 10% of peak until 10.1 hours. Dose-normalized LD Cmax values for ER CD-LD were significantly lower (P< .05) than for the other CD-LD products. Bioavailability of LD from ER CD-LD was 83.5%, 78.3%, and 58.8% relative to IR CD-LD, CR CD-LD, and CD-LD-entacapone, respectively.

Cabozantinib is a small-molecule tyrosine kinase inhibitor that has been approved for the treatment of patients with progressive, metastatic medullary thyroid cancer. In vitro data indicate that (1) cytochrome P450 (CYP) 3A4 is the primary CYP isoenzyme involved in the metabolism of cabozantinib, and (2) CYP2C8 is the CYP isoenzyme most potently inhibited by cabozantinib with potential for in vivo inhibition at clinically relevant plasma exposures. Pharmacokinetic (PK) drug-drug interactions (DDIs) were evaluated clinically between cabozantinib and (1) a CYP3A inducer (rifampin) in healthy volunteers, (2) a CYP3A inhibitor (ketoconazole) in healthy volunteers, and (3) a CYP2C8 substrate (rosiglitazone) in patients with solid tumors. Compared with cabozantinib given alone, coadministration with rifampin resulted in a 4.3-fold higher plasma clearance (CL/F) of cabozantinib and a 77% decrease in cabozantinib plasma AUC0-inf , whereas coadministration with ketoconazole decreased cabozantinib CL/F by 29% and increased cabozantinib AUC0-inf by 38%. Chronic coadministration with cabozantinib resulted in no significant effect on rosiglitazone plasma Cmax , AUC0-24 , or AUC0-inf . In summary, chronic use of strong CYP3A inducers and inhibitors should be avoided when cabozantinib is administered, and cabozantinib at clinically relevant exposures is not anticipated to markedly affect the PK of concomitant medications via CYP enzyme inhibition.

Tasimelteon ([1R-trans]-N-[(2-[2,3-dihydro-4-benzofuranyl] cyclopropyl) methyl] propanamide), a novel dual melatonin receptor agonist that demonstrates specificity and high affinity for melatonin receptor types 1 and 2 (MT1 and MT2 receptors), is the first treatment approved by the US Food and Drug Administration for Non-24-Hour Sleep-Wake Disorder. Tasimelteon is rapidly absorbed, with a mean absolute bioavailability of approximately 38%, and is extensively metabolized primarily by oxidation at multiple sites, mainly by cytochrome P450 (CYP) 1A2 and CYP3A4/5, as initially demonstrated by in vitro studies and confirmed by the results of clinical drug-drug interactions presented here. The effects of strong inhibitors and moderate or strong inducers of CYP1A2 and CYP3A4/5 on the pharmacokinetics of tasimelteon were evaluated in humans. Coadministration with fluvoxamine resulted in an approximately 6.5-fold increase in tasimelteon's area under the curve (AUC), whereas cigarette smoking decreased tasimelteon's exposure by approximately 40%. Coadministration with ketoconazole resulted in an approximately 54% increase in tasimelteon's AUC, whereas rifampin pretreatment resulted in a decrease in tasimelteon's exposure of approximately 89%.

This randomized, double-blind, placebo-controlled, parallel-group study was to determine the pharmacokinetic characteristics, safety, and tolerability of multiple doses of inhaled loxapine aerosol in subjects on a stable, oral, chronic antipsychotic regimen. Loxapine was delivered by means of a unique thermally generated aerosol comprising drug particles of a size designed for deep lung delivery and absorption. Thirty-two subjects were randomized 1:1:1:1 to receive inhaled loxapine (total doses of 15, 20, or 30 mg) or inhaled placebo administered in 3 divided doses, given 4 hours apart. Following inhalation, the median Tmax was 2 minutes, and concentrations declined to about half Cmax approximately 5 minutes later across the 3 dose levels. The dose proportionality across data from this study combined with data from the single-dose study showed a slope (90%CI) of log AUCinf versus log dose of 0.818 (0.762-0.875) across the 8 doses (n = 60 subjects) studied, indicating reasonable dose proportionality. The most common adverse events were cough (3 of 32, 9%), sedation (3 of 32, 9%), and dysgeusia (2 of 32, 6%). The inhalation of multiple doses of inhaled loxapine were well tolerated in study subjects and provided a safe, well-tolerated means for rapidly and reliably achieving therapeutic plasma concentrations of loxapine. ClinicalTrials.gov identifier: NCT00555412.