采用群体药代动力学方法研究健康志愿者吸入奥洛他定的肺和全身药代动力学。
Investigating pulmonary and systemic pharmacokinetics of inhaled olodaterol in healthy volunteers using a population pharmacokinetic approach.
作者信息
Borghardt Jens Markus, Weber Benjamin, Staab Alexander, Kunz Christina, Formella Stephan, Kloft Charlotte
机构信息
Department of Clinical Pharmacy and Biochemistry, Institute of Pharmacy, Freie Universitaet Berlin, 12169, Berlin, Germany.
Translational Medicine and Clinical Pharmacology, Boehringer Ingelheim Pharma GmbH & Co. KG, Biberach, Germany.
出版信息
Br J Clin Pharmacol. 2016 Mar;81(3):538-52. doi: 10.1111/bcp.12780. Epub 2016 Feb 17.
AIMS
Olodaterol, a novel β2-adrenergic receptor agonist, is a long-acting, once-daily inhaled bronchodilator approved for the treatment of chronic obstructive pulmonary disease. The aim of the present study was to describe the plasma and urine pharmacokinetics of olodaterol after intravenous administration and oral inhalation in healthy volunteers by population pharmacokinetic modelling and thereby to infer its pulmonary fate.
METHODS
Plasma and urine data after intravenous administration (0.5-25 μg) and oral inhalation (2.5-70 μg via the Respimat® inhaler) were available from a total of 148 healthy volunteers (single and multiple dosing). A stepwise model building approach was applied, using population pharmacokinetic modelling. Systemic disposition parameters were fixed to estimates obtained from intravenous data when modelling data after inhalation.
RESULTS
A pharmacokinetic model, including three depot compartments with associated parallel first-order absorption processes (pulmonary model) on top of a four-compartment body model (systemic disposition model), was found to describe the data the best. The dose reaching the lung (pulmonary bioavailable fraction) was estimated to be 49.4% [95% confidence interval (CI) 46.1, 52.7%] of the dose released from the device. A large proportion of the pulmonary bioavailable fraction [70.1% (95% CI 66.8, 73.3%)] was absorbed with a half-life of 21.8 h (95% CI 19.7, 24.4 h).
CONCLUSIONS
The plasma and urine pharmacokinetics of olodaterol after intravenous administration and oral inhalation in healthy volunteers were adequately described. The key finding was that a high proportion of the pulmonary bioavailable fraction had an extended pulmonary residence time. This finding was not expected based on the physicochemical properties of olodaterol.
目的
奥达特罗是一种新型β2肾上腺素能受体激动剂,是一种长效、每日一次吸入的支气管扩张剂,已被批准用于治疗慢性阻塞性肺疾病。本研究的目的是通过群体药代动力学建模描述健康志愿者静脉给药和口服吸入后奥达特罗的血浆和尿液药代动力学,从而推断其在肺部的转归。
方法
共有148名健康志愿者(单次和多次给药)提供了静脉给药(0.5 - 25μg)和口服吸入(通过Respimat®吸入器吸入2.5 - 70μg)后的血浆和尿液数据。采用群体药代动力学建模,应用逐步模型构建方法。在对吸入后数据进行建模时,将全身处置参数固定为从静脉数据获得的估计值。
结果
发现一个药代动力学模型能最好地描述数据,该模型在四室身体模型(全身处置模型)之上包括三个具有相关平行一级吸收过程的储库室(肺部模型)。到达肺部的剂量(肺部生物利用分数)估计为装置释放剂量的49.4%[95%置信区间(CI)46.1,52.7%]。肺部生物利用分数的很大一部分[70.1%(95%CI 66.8,73.3%)]被吸收,半衰期为21.8小时(95%CI 19.7,24.4小时)。
结论
健康志愿者静脉给药和口服吸入后奥达特罗的血浆和尿液药代动力学得到了充分描述。关键发现是肺部生物利用分数的很大一部分具有延长的肺部停留时间。基于奥达特罗的理化性质,这一发现是出乎意料的。
Zotero 插件