Alfred Hospital, Monash University, Department of Medicine, Melbourne, Australia.
Avalyn Pharma, Inc., Seattle, Washington.
J Aerosol Med Pulm Drug Deliv. 2020 Feb;33(1):15-20. doi: 10.1089/jamp.2018.1507. Epub 2019 Jan 30.
This clinical trial evaluated the pharmacokinetics and safety/tolerability of inhaled pirfenidone solution in volunteers and patients with idiopathic pulmonary fibrosis (IPF). Forty-four adults in six cohorts consented to receive single doses of a 12.5 mg/mL pirfenidone solution or placebo to assess tolerability and pharmacokinetics. Cohorts 1, 2, and 3 (normal healthy volunteers [NHV]) ( = 6 active; = 2 placebo in each cohort) received 25, 50, and 100 mg pirfenidone, respectively. Cohort 4 (NHV) ( = 6 all active) received 100 mg of pirfenidone and underwent bronchoalveolar lavage (BAL) to measure epithelial lining fluid (ELF) pirfenidone concentrations. Cohort 5 (prior or current smokers with greater than 20 pack-year use) ( = 6 active; = 2 placebo) and Cohort 6 (IPF patients) ( = 6 all active) received 100 mg of pirfenidone. All treatments were administered with an Investigational eFlow Nebulizer System (PARI Pharma GmbH). Serial measures of urine and plasma pirfenidone were collected during the 24-hour postdose in all subjects. Administration time ranged from 1.4 to 2 min/mL. No clinically relevant adverse effects on respiratory rate, spirometry, or oxygenation were observed. Drug-related adverse events were predominantly cough, = 8/44 (one in IPF cohort), all mild, transient, and not dose limiting. Mean plasma pirfenidone Cmax levels in the 25, 50, 100 mg NHV, 100 mg smoker, and IPF cohorts were 202, 292, 802, 1370, 1016, and 1026 ng/mL, respectively. BAL cohort estimated ELF Cmax was 135.9 ± 54.5 μg/mL. In the BAL and IPF cohorts, 24-hour urine excretion of pirfenidone and metabolites data suggests similar alveolar deposition. Aerosol pirfenidone was well tolerated in normal volunteers, smokers, and IPF patients. High ELF concentrations were achieved in NHV with a 100 mg nebulizer dose. The 100 mg nebulizer dose averaged a 15-fold lower systemic pirfenidone exposure than reported with oral administration of the licensed oral dose.
这项临床试验评估了吸入吡非尼酮溶液在特发性肺纤维化(IPF)患者和志愿者中的药代动力学和安全性/耐受性。六组共 44 名成年人同意接受单次 12.5mg/ml 吡非尼酮溶液或安慰剂治疗,以评估耐受性和药代动力学。队列 1、2 和 3(正常健康志愿者[NHV])(每组 6 名活性;每组 2 名安慰剂)分别接受 25、50 和 100mg 吡非尼酮。队列 4(NHV)(每组 6 名均为活性)接受 100mg 吡非尼酮,并进行支气管肺泡灌洗(BAL)以测量上皮衬里液(ELF)中的吡非尼酮浓度。队列 5(有吸烟史且吸烟量超过 20 包年的患者)(每组 6 名活性;每组 2 名安慰剂)和队列 6(IPF 患者)(每组 6 名均为活性)接受 100mg 吡非尼酮。所有治疗均使用研究性 eFlow 雾化器系统(PARI Pharma GmbH)进行。所有受试者在给药后 24 小时内连续测量尿液和血浆中的吡非尼酮。给药时间范围为 1.4 至 2 分钟/毫升。未观察到与呼吸频率、肺活量或氧合相关的临床相关不良影响。与药物相关的不良事件主要为咳嗽,共 8/44 例(1 例在 IPF 队列中),均为轻度、短暂且无剂量限制。NHV 组的 25、50、100mg 吡非尼酮、100mg 吸烟者和 IPF 队列的吡非尼酮 Cmax 血浆浓度分别为 202、292、802、1370、1016 和 1026ng/ml。BAL 队列估计的 ELF Cmax 为 135.9±54.5μg/ml。在 BAL 和 IPF 队列中,24 小时尿液中吡非尼酮及其代谢物数据表明肺泡沉积相似。雾化吡非尼酮在正常志愿者、吸烟者和 IPF 患者中耐受性良好。在接受 100mg 雾化器剂量的 NHV 中,可达到较高的 ELF 浓度。与已上市的口服剂量相比,100mg 雾化器剂量的平均全身吡非尼酮暴露量低 15 倍。
