Geisser Peter, Banké-Bochita José
Vifor (International) Inc., St. Gallen, Switzerland.
Arzneimittelforschung. 2010;60(6a):362-72. doi: 10.1055/s-0031-1296301.
Iron-deficiency anaemia (IDA) represents a major burden to public health worldwide. The therapeutic aim for patients with IDA is to return iron stores and haemoglobin (Hb) levels to within the normal range using supplemental iron therapy and erythropoiesis-stimulating agents. Oral and previous intravenous (i.v.) iron formulations have a number of disadvantages, including immunogenic reactions, oxidative stress, low dosages, long administration times and the requirement for a test dose. Ferric carboxymaltose (FCM, Ferinject) is a novel, next-generation i.v. iron formulation with the potential to overcome these limitations. In this single-centre, randomized, double-blind, placebo-controlled study, the pharmacokinetics (PK), pharmacodynamics (PD), safety and tolerability of single, escalating doses of FCM were investigated. Four ascending doses were investigated in a total of 24 patients with mild IDA (defined as serum ferritin < 20 microg/l and transferrin saturation [TfS] < 16%): 100 mg iron as FCM given as an i.v. bolus injection, and 500, 800 and 1000 mg iron as FCM given as an i.v. infusion over 15 min. At each dose level six patients received FCM and two received placebo. The decision to escalate to the next dose was based on evaluation of safety and tolerability data from the previous dose. The maximum duration of the study was 5 weeks from screening to final assessment. Assessments were made of PK iron-status parameters up to 168 h post-dose. Safety assessments included incidence of adverse events (AEs), clinical laboratory parameters and vital signs. PK and PD parameters were analysed using descriptive statistics. All analyses were performed on the safety population, which included all patients who received > or = 1 dose of study medication. Seventy-seven patients were screened and, of these, 32 male and female patients with pre-study Hb between 9.2 and 11.9 g/dl and serum ferritin < 20 microg/l were included in the study. Two patients had TfS > 16% (19.2% and 17.2%); both patients were considered by the investigator to be eligible for inclusion. Compared with placebo, a rapid, dose-dependent increase in total serum iron was observed across all dose groups. Mean (standard deviation) maximum total serum iron levels ranged between 36.9 (4.4) and 317.9 (42.3) microg/ml in the 100 and 1000 mg groups. Concentration-time curves of total serum iron continuously declined for up to 24 and 72 h post-dose in the 100 and 500-1000 mg groups, respectively. Non-compartmental analysis of PK parameters was truncated at 24 h (100 mg) and 72 h (500-1000 mg doses). A dose-dependent, but not dose-linear, increase in serum ferritin was seen in all treatment groups compared with placebo, with peak levels of a 23-210-fold increase above baseline occurring 48-120 h postdose. Iron-binding capacity was transiently almost fully utilized after doses of 500, 800 and 1000 mg (TfS > 95%). No meaningful changes in serum transferrin or serum transferrin receptor concentrations were observed during this study. The elimination pattern for FCM appeared to be mono-exponential; FCM was cleared from serum with a terminal halflife of approximately 7.4-12.1 h. The percentage of FCM excreted in urine was negligible (0.0005%). FCM was well tolerated; a total of 19 AEs were reported by 8/32 patients (25%), of which three were considered by the investigator to be related to FCM: nausea and vomiting (one patient [100 mg]), and headache (one patient [1000 mg]). The incidence of AEs did not increase with dose. No severe or serious AEs, or deaths occurred. FCM had no significant effect on laboratory safety parameters or vital signs. This study satisfactorily characterized the PK/PD parameters of single doses of 100, 500, 800 and 1000 mg iron as FCM. The majority of FCM was utilized or eliminated within 24 h of administration of a 100 mg dose and within 72 h of a 500-1000 mg dose. FCM was generally well tolerated across all doses in patients with mild IDA.
缺铁性贫血(IDA)是全球公共卫生的一项重大负担。IDA患者的治疗目标是通过补充铁剂治疗和促红细胞生成剂,使铁储备和血红蛋白(Hb)水平恢复到正常范围内。口服铁剂和以往的静脉注射铁剂有许多缺点,包括免疫反应、氧化应激、剂量低、给药时间长以及需要进行试验剂量。羧麦芽糖铁(FCM,Ferinject)是一种新型的新一代静脉注射铁剂,有可能克服这些局限性。在这项单中心、随机、双盲、安慰剂对照研究中,研究了单剂量递增的FCM的药代动力学(PK)、药效学(PD)、安全性和耐受性。对24例轻度IDA患者(定义为血清铁蛋白<20μg/l和转铁蛋白饱和度[TfS]<16%)共研究了四个递增剂量:100mg铁以FCM静脉推注给药,500、800和1000mg铁以FCM在15分钟内静脉输注给药。在每个剂量水平,6例患者接受FCM,2例患者接受安慰剂。决定递增至下一剂量基于对前一剂量的安全性和耐受性数据的评估。从筛选到最终评估,研究的最长持续时间为5周。在给药后长达168小时对PK铁状态参数进行评估。安全性评估包括不良事件(AE)的发生率、临床实验室参数和生命体征。使用描述性统计分析PK和PD参数。所有分析均在安全人群中进行,该人群包括所有接受≥1剂量研究药物的患者。77例患者接受筛选,其中32例男女患者研究前Hb在9.2至11.9g/dl之间且血清铁蛋白<20μg/l被纳入研究。2例患者TfS>16%(19.2%和17.2%);研究者认为这两名患者均符合纳入标准。与安慰剂相比,所有剂量组均观察到血清总铁迅速、剂量依赖性增加。100mg和1000mg组的平均(标准差)最大血清总铁水平在36.9(4.4)至317.9(42.3)μg/ml之间。在100mg组和500 - 1000mg组中,血清总铁的浓度 - 时间曲线分别在给药后长达24小时和72小时持续下降。PK参数的非房室分析在24小时(100mg)和72小时(500 - 1000mg剂量)截断。与安慰剂相比,所有治疗组均观察到血清铁蛋白呈剂量依赖性但非剂量线性增加,给药后48 - 120小时达到高于基线23 - 210倍的峰值水平。在500、800和1000mg剂量后,铁结合能力几乎被瞬时完全利用(TfS>95%)。在本研究期间,未观察到血清转铁蛋白或血清转铁蛋白受体浓度有意义的变化。FCM的消除模式似乎呈单指数;FCM从血清中清除,终末半衰期约为7.4 - 12.1小时。尿中排泄的FCM百分比可忽略不计(0.0005%)。FCM耐受性良好;8/32例患者(25%)共报告19例AE,其中研究者认为3例与FCM有关:恶心和呕吐(1例患者[100mg])以及头痛(1例患者[1000mg])。AE的发生率未随剂量增加。未发生严重或严重AE或死亡。FCM对实验室安全参数或生命体征无显著影响。本研究令人满意地描述了单剂量100、500、800和1000mg铁作为FCM的PK/PD参数。在给予100mg剂量后24小时内以及给予500 - 1000mg剂量后72小时内,大部分FCM被利用或消除。轻度IDA患者对所有剂量的FCM总体耐受性良好。
