通过尿药排泄和乙酰甲胆碱激发试验评估沙丁胺醇定量气雾剂不同吸入方法
Assessment of different methods of inhalation from salbutamol metered dose inhalers by urinary drug excretion and methacholine challenge.
作者信息
Tomlinson Heather S, Corlett Sarah A, Allen Martin B, Chrystyn Henry
机构信息
School of Pharmacy, University of Bradford, Bradford, BD7 1DP, UK.
出版信息
Br J Clin Pharmacol. 2005 Dec;60(6):605-10. doi: 10.1111/j.1365-2125.2005.02499.x.
AIMS
Methods to determine the lung delivery of inhaled bronchodilators from metered dose inhalers include urinary drug excretion 30 min post inhalation and methacholine challenge (PD20). We have compared these two methods to differentiate lung delivery of salbutamol from metered dose inhalers using different inhalation methods.
METHODS
In phase 1 of the study, on randomized study days, 12 mild asthmatics inhaled placebo, one and two 100 microg salbutamol doses from a breath actuated metered dose inhaler, in randomized fashion on different days. In phase 2, they inhaled one 100 microg salbutamol dose from a metered dose inhaler using a SLOW (20 l min(-1)) and a FAST (60 l min(-1)) inhalation technique and a slow inhalation delayed until after they had inhaled for 5 s (LATE). Urinary excretion of salbutamol (0-30 min) and PD20 were measured after each dose.
RESULTS
Following placebo, one and two 100 microg salbutamol doses, the geometric mean for PD20 was 0.10, 0.41 and 0.86 mg respectively and the mean (SD) urinary drug excretion after one and two doses was 2.25 (0.65) and 5.37 (1.36) microg, respectively. After SLOW, FAST and LATE inhalations the geometric mean for PD20 was 0.50, 0.40 and 0.42 mg, respectively, and mean (SD) salbutamol excretion was 2.67 (0.84), 1.90 (0.70) and 2.72 (0.67) microg, respectively. Only the amount of drug excreted during the FAST compared with the SLOW and LATE inhalations showed a statistical difference (95% confidence interval on the difference 0.12, 1.54 and 0.06, 1.59 microg, respectively).
CONCLUSIONS
Urinary salbutamol excretion but not PD20 showed differences between the inhalation methods used. When using a metered dose inhaler slow inhalation is better and co-ordination is not essential if the patient is inhaling when they actuate a dose of the drug.
目的
测定定量吸入器吸入支气管扩张剂后肺内递送量的方法包括吸入后30分钟尿中药物排泄量和乙酰甲胆碱激发试验(PD20)。我们比较了这两种方法,以区分使用不同吸入方法时定量吸入器中沙丁胺醇的肺内递送量。
方法
在研究的第一阶段,在随机研究日,12名轻度哮喘患者在不同日期以随机方式吸入安慰剂、来自气动定量吸入器的一剂和两剂100微克沙丁胺醇。在第二阶段,他们使用慢(20升/分钟)和快(60升/分钟)吸入技术以及慢吸入延迟至吸入5秒后(延迟)从定量吸入器吸入一剂100微克沙丁胺醇。每次给药后测量沙丁胺醇的尿排泄量(0至30分钟)和PD20。
结果
吸入安慰剂、一剂和两剂100微克沙丁胺醇后,PD20的几何平均值分别为0.10、0.41和0.86毫克,一剂和两剂后的平均(标准差)尿药物排泄量分别为2.25(0.65)和5.37(1.36)微克。慢、快和延迟吸入后,PD20的几何平均值分别为0.50、0.40和0.42毫克,平均(标准差)沙丁胺醇排泄量分别为2.67(0.84)、1.90(0.70)和2.72(0.67)微克。仅快速吸入与慢吸入和延迟吸入期间排泄的药物量显示出统计学差异(差异的95%置信区间分别为0.12,1.54和0.06,1.59微克)。
结论
尿中沙丁胺醇排泄量而非PD20在所用吸入方法之间存在差异。使用定量吸入器时,慢吸入更好,如果患者在启动药物剂量时进行吸入,则协调性并非必需。
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