Cass L M, Brown J, Pickford M, Fayinka S, Newman S P, Johansson C J, Bye A
Clinical Pharmacology Division, Glaxo Wellcome Research and Development, Greenford, Middlesex, England.
Clin Pharmacokinet. 1999;36 Suppl 1:21-31. doi: 10.2165/00003088-199936001-00003.
The objective of this study was to determine the sites of zanamivir deposition in the respiratory tract and the pharmacokinetics of zanamivir after oral inhalation from the Diskhaler device and from a prototype of a novel breath-activated device.
This was a 2-period block-randomised study in which participants inhaled zanamivir from a Diskhaler and/or the prototype device on separate days.
13 healthy volunteers (5 men and 8 women) aged 20 to 42 years (mean age 29 years) and weighing 54.0 to 94.0 kg (mean bodyweight 69.2 kg) entered the study.
Participants were given dry powder zanamivir 10 mg formulated with 99mTc from the Diskhaler or the prototype device on separate days. Scintigraphic images of the chest and oropharynx were recorded. Blood samples for determination of serum zanamivir and urine for excretion studies were taken up to 8 hours after drug administration. Safety was evaluated by monitoring lung function tests, adverse events and laboratory parameters.
Orally inhaled zanamivir was well tolerated, as demonstrated by lung function tests. A mean of 13.2% (n = 11) of the 10 mg dose from the Diskhaler was deposited in the bronchi and lungs. The deposition pattern varied between individuals, showing a preferentially central deposition pattern in some and a uniform distribution pattern in others. The major deposition site was the oropharynx (mean 77.6%), with a mean of 1.2% deposited on the trachea and a mean of 3.2% retained in the blister. Similar data were obtained with the prototype device. Inhalation of zanamivir gave a broad peak of systemic absorption with mean maximum serum concentrations of approximately 30 to 40 micrograms/L after 1.5 hours. The rate and extent of absorption were similar irrespective of inhalation device. Less than 5% of drug was excreted unchanged in urine within 8 hours of inhalation, confirming the low bioavailability of zanamivir after pulmonary delivery. A significant correlation existed between systemic exposure and peripheral lung deposition.
The local concentrations of zanamivir that result from oral inhalation via the Diskhaler are estimated to be > 10 mumol/L throughout the respiratory tract, well in excess of the concentrations observed to inhibit influenza virus neuraminidases by 50% (0.64 to 7.9 nmol/L). Similar deposition data were obtained with the Diskhaler and the prototype device, which was consequently not developed further. Pharmacoscintigraphy was confirmed as being a reliable technique for measuring zanamivir deposition in the respiratory tract.
本研究的目的是确定扎那米韦在呼吸道中的沉积部位,以及从Diskhaler装置和一种新型呼吸激活装置原型经口腔吸入扎那米韦后的药代动力学。
这是一项为期2期的区组随机研究,参与者在不同日期从Diskhaler和/或原型装置吸入扎那米韦。
13名年龄在20至42岁(平均年龄29岁)、体重在54.0至94.0千克(平均体重69.2千克)的健康志愿者(5名男性和8名女性)进入研究。
参与者在不同日期从Diskhaler或原型装置吸入用99mTc配制的10毫克扎那米韦干粉。记录胸部和口咽的闪烁图像。给药后8小时内采集用于测定血清扎那米韦的血样和用于排泄研究的尿样。通过监测肺功能测试、不良事件和实验室参数来评估安全性。
肺功能测试表明,经口腔吸入的扎那米韦耐受性良好。Diskhaler的10毫克剂量平均有13.2%(n = 11)沉积在支气管和肺部。沉积模式因人而异,一些人表现为优先中央沉积模式,另一些人则表现为均匀分布模式。主要沉积部位是口咽(平均77.6%),气管平均沉积1.2%,泡罩中平均保留3.2%。原型装置也获得了类似的数据。吸入扎那米韦后全身吸收出现一个较宽的峰值,给药1.5小时后平均最大血清浓度约为30至40微克/升。无论使用何种吸入装置,吸收速率和程度相似。吸入后8小时内尿液中未改变排泄的药物不到5%,证实扎那米韦经肺部给药后的生物利用度较低。全身暴露与外周肺沉积之间存在显著相关性。
通过Diskhaler经口腔吸入产生的扎那米韦局部浓度估计在整个呼吸道中>10微摩尔/升,远超过观察到的抑制流感病毒神经氨酸酶50%(0.64至7.9纳摩尔/升)的浓度。Diskhaler和原型装置获得了类似的沉积数据,因此原型装置未进一步研发。药物闪烁显像被确认为测量扎那米韦在呼吸道中沉积的可靠技术。
