经鼻给予咪达唑仑的药代动力学和药效学。
Pharmacokinetics and pharmacodynamics of nasally delivered midazolam.
机构信息
Division of Clinical Pharmacology & Toxicology, University of Basel, Basel, Switzerland.
出版信息
Br J Clin Pharmacol. 2010 Jun;69(6):607-16. doi: 10.1111/j.1365-2125.2010.03611.x.
AIMS
To investigate the pharmacokinetics and pharmacodynamics of nasal formulations containing midazolam (5-30 mg ml(-1)) complexed with cyclodextrin.
METHODS
An open-label sequential trial was conducted in eight healthy subjects receiving single doses of 1 mg and 3 mg intranasally and 1 mg midazolam intravenously. Pharmacokinetic parameters were obtained by non-compartmental and two-compartmental models. Pharmacodynamic effects of midazolam were assessed using VAS and a reaction time test.
RESULTS
Mean bioavailability of midazolam after nasal administration ranged from 76 +/- 12% to 92 +/- 15%. With formulations delivering 1 mg midazolam, mean C(max) values between 28.1 +/- 9.1 and 30.1 +/- 6.6 ng ml(-1) were reached after 9.4 +/- 3.2-11.3 +/- 4.4 min. With formulations delivering 3 mg midazolam, mean C(max) values were between 68.9 +/- 19.8 and 80.6 +/- 15.2 ng ml(-1) after 7.2 +/- 0.7-13.0 +/- 4.3 min. Chitosan significantly increased C(max) and reduced t(max) of midazolam in the high-dose formulation. Mean ratios of dose-adjusted AUC after intranasal and intravenous application for 1'-hydroxymidazolam were between 0.97 +/- 0.15 and 1.06 +/- 0.24, excluding relevant gastrointestinal absorption of intranasal midazolam. The pharmacodynamic effects after the low-dose nasal formulations were comparable with those after 1 mg intravenous midazolam. The maximum increase in reaction time by the chitosan-containing formulation delivering 3 mg midazolam was greater compared with 1 mg midazolam i.v. (95 +/- 78 ms and 19 +/- 22 ms, mean difference 75.5 ms, 95% CI 15.5, 135.5, P < 0.01). Intranasal midazolam was well tolerated but caused reversible irritation of the nasal mucosa.
CONCLUSIONS
Effective midazolam serum concentrations were reached within less than 10 min after nasal application of a highly concentrated midazolam formulation containing an equimolar amount of the solubilizer RMbetaCD combined with the absorption enhancer chitosan.
目的
研究含咪达唑仑(5-30mg/ml)与环糊精络合的鼻用制剂的药代动力学和药效学。
方法
在 8 名健康受试者中进行了一项开放标签序贯试验,他们分别接受了 1mg 和 3mg 经鼻给予以及 1mg 咪达唑仑静脉给予的单剂量治疗。通过非房室和双房室模型获得药代动力学参数。使用 VAS 和反应时间测试评估咪达唑仑的药效学效应。
结果
经鼻给予咪达唑仑后,其生物利用度的平均值范围为 76%±12%至 92%±15%。给予 1mg 咪达唑仑的制剂后,在 9.4±3.2-11.3±4.4 分钟后,达到 28.1±9.1-30.1±6.6ng/ml 的中位 Cmax 值。给予 3mg 咪达唑仑的制剂后,中位 Cmax 值分别为 68.9±19.8 和 80.6±15.2ng/ml,在 7.2±0.7-13.0±4.3 分钟后达到。壳聚糖显著增加了高剂量制剂中咪达唑仑的 Cmax 并缩短了 tmax。经鼻和静脉给予 1'-羟基咪达唑仑后,剂量调整的 AUC 比值在 0.97±0.15 和 1.06±0.24 之间,不包括经鼻给予咪达唑仑的相关胃肠道吸收。低剂量鼻用制剂的药效学效应与静脉给予 1mg 咪达唑仑相当。给予 3mg 咪达唑仑的含壳聚糖制剂使反应时间的最大增加量大于静脉给予 1mg 咪达唑仑(95±78ms 和 19±22ms,平均差值 75.5ms,95%CI 15.5,135.5,P<0.01)。经鼻给予咪达唑仑耐受性良好,但可引起鼻黏膜可逆性刺激。
结论
在经鼻给予含有等摩尔量增溶剂 RMbetaCD 并联合吸收增强剂壳聚糖的高浓度咪达唑仑制剂后,10 分钟内即可达到有效的咪达唑仑血清浓度。
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