Rohatagi S, Bye A, Falcoz C, Mackie A E, Meibohm B, Möllmann H, Derendorf H
Department of Pharmaceutics, College of Pharmacy, University of Florida, Gainesville 32610, USA.
J Clin Pharmacol. 1996 Oct;36(10):938-41. doi: 10.1002/j.1552-4604.1996.tb04761.x.
Fluticasone propionate (FP) is a new corticosteroid that has been developed for the treatment of asthma. The compound has a very high receptor affinity, 18 times that of dexamethasone. After inhalation, FP is systemically available because of inhaled bioavailability. In healthy subjects this may lead to measurable systemic effects, such as cortisol reduction. A clinical study was conducted in 12 healthy volunteers to determine the systemic effects after inhaled administration of single 500-micrograms, 1,000-micrograms, and 2,000-micrograms doses of FP. Blood samples were collected over a 24-hour period after administration. Concentrations of FP and cortisol were measured in plasma by immunoassay. Cortisol reduction was chosen as the pharmacodynamic parameter. A novel linear release rate model was used to parameterize the cortisol data. The pharmacokinetics of FP were linear over the dose range studied. The cortisol release parameters were determined from baseline data (before drug administration). Based on these results, the E50 values for cortisol reduction were then determined for each dose of FP. The average E50 was 0.134 ng/mL for total FP concentrations and 0.013 ng/mL for unbound FP concentrations; these results were not dose dependent. These in vivo pharmacodynamic values measured in healthy subjects are in good agreement with the relatively high receptor affinity of FP.
丙酸氟替卡松(FP)是一种新开发用于治疗哮喘的皮质类固醇。该化合物具有非常高的受体亲和力,是地塞米松的18倍。吸入后,由于吸入生物利用度,FP可在全身发挥作用。在健康受试者中,这可能导致可测量的全身效应,如皮质醇降低。对12名健康志愿者进行了一项临床研究,以确定吸入单剂量500微克、1000微克和2000微克FP后的全身效应。给药后24小时内采集血样。通过免疫测定法测量血浆中FP和皮质醇的浓度。选择皮质醇降低作为药效学参数。使用一种新型线性释放率模型对皮质醇数据进行参数化。在所研究的剂量范围内,FP的药代动力学呈线性。皮质醇释放参数由基线数据(给药前)确定。基于这些结果,然后确定每种剂量FP的皮质醇降低的E50值。总FP浓度的平均E50为0.134 ng/mL,未结合FP浓度的平均E50为0.013 ng/mL;这些结果与剂量无关。在健康受试者中测量的这些体内药效学值与FP相对较高的受体亲和力高度一致。
