用正电子发射放射性同位素标记的细胞毒性药物的血浆药代动力学评估。
Plasma pharmacokinetic evaluation of cytotoxic agents radiolabelled with positron emitting radioisotopes.
作者信息
Saleem A, Aboagye E O, Matthews J C, Price P M
机构信息
Academic Department of Radiation Oncology, Christie Hospital NHS Foundation Trust, Wilmslow Road, and The University of Manchester Wolfson Molecular Imaging Centre, Manchester M20 4BX, UK.
出版信息
Cancer Chemother Pharmacol. 2008 Apr;61(5):865-73. doi: 10.1007/s00280-007-0552-2. Epub 2007 Jul 18.
PURPOSE
This study aimed to evaluate the utility of plasma pharmacokinetic analyses of anti-cancer agents from data obtained during positron emission tomography (PET) oncology studies of radiolabelled anti-cancer agents.
PATIENTS AND METHODS
Thirteen patients were administered fluorine-18 radiolabelled 5-FU ([(18)F]5-FU) admixed with 5-FU, corresponding to a total 5-FU dose of 380-407 mg/m2 (eight patients) and 1 mg/m2 (five patients). Nine patients received 2.2-19.2 microg/m2 of carbon-11 radiolabelled N-[2-(dimethylamino)ethyl]acridine-4-carboxamide ([11C]DACA) at 1/1,000th of phase I dose, as part of phase 0 microdosing study. Radioactivity of parent drug obtained from arterial blood samples, the injected activity of the radiolabelled drug, and the total dose of injected drug were used to obtain plasma drug concentrations. Plasma pharmacokinetic parameters were estimated using model-dependent and model-independent methods.
RESULTS
5-FU plasma concentrations at therapeutic doses were above the Km and a single compartment kinetic model was best used to fit the kinetics, with a mean half-life of 8.6 min. Clearance and volumes of distribution (Vd) obtained using both model-dependent and model-independent methods were similar. Mean (SE) clearance was 1,421(144), ml min(-1) and 1,319 (119) ml min(-1) and the mean (SE) Vd was 17.3 (1.8) l and 16.3 (1.9) l by the model-independent method and model-dependent methods, respectively. In contrast, with 1 mg/m2, plasma concentrations of 5-FU were less than the Km and a two-compartment model was used to best fit the kinetics, with the mean 5-FU half-life of 6.5 min. The mean (SE) clearances obtained by the model-independent method and model-dependent methods were 3,089 (314) ml min(-1) and 2,225 (200) ml min(-1), respectively and the mean (SE) Vd were 27.9 (7.0) l and 2.3 (0.4) l, by the model independent and dependent methods, respectively. Extrapolation of AUC0-Clast to AUC0-infinity was less than 3% in both these cohort of patients. A two-compartment model with a mean half-life of 42.1 min was used to best fit the kinetics of DACA; considerable extrapolation (mean 26%) was required to obtain AUC0-infinity from AUC0-Clast. Mean (SE) clearance of DACA was 1,920 (269) ml min(-1), with the model-independent method and 1,627 (287) ml min(-1) with the model-dependent method. Similarly, Vd [mean (SE)] of DACA with the model-independent and model-dependent methods were 118 (22) l and 50 (15) l, respectively.
CONCLUSIONS
Pharmacokinetic parameters can be estimated with confidence from PET studies for agents given at therapeutic doses, whose half-lives are significantly less than the total sampling time during the scan. Tracer studies performed alone, wherein plasma levels below the Km are expected, may also provide valuable information on drug clearance for the entire range of linear kinetics. However, drugs with half-lives longer than the sampling duration are inappropriate for PET plasma pharmacokinetic evaluation.
目的
本研究旨在通过正电子发射断层扫描(PET)肿瘤学研究中获得的数据,评估放射性标记抗癌药物血浆药代动力学分析对抗癌药物的实用性。
患者与方法
13例患者接受了与5-氟尿嘧啶(5-FU)混合的氟-18放射性标记5-FU([(18)F]5-FU),对应5-FU总剂量为380 - 407mg/m²(8例患者)和1mg/m²(5例患者)。9例患者作为0期微剂量研究的一部分,接受了2.2 - 19.2μg/m²的碳-11放射性标记N-[2-(二甲氨基)乙基]吖啶-4-甲酰胺([11C]DACA),剂量为I期剂量的1/1000。从动脉血样本中获得的母体药物放射性、放射性标记药物的注射活性以及注射药物的总剂量用于计算血浆药物浓度。使用依赖模型和非依赖模型的方法估算血浆药代动力学参数。
结果
治疗剂量下5-FU的血浆浓度高于米氏常数(Km),单室动力学模型最适合拟合其动力学,平均半衰期为8.6分钟。使用依赖模型和非依赖模型的方法获得的清除率和分布容积(Vd)相似。非依赖模型方法的平均(标准误)清除率为1421(144)ml·min⁻¹,依赖模型方法为1319(119)ml·min⁻¹;非依赖模型方法的平均(标准误)Vd为17.3(1.8)L,依赖模型方法为16.3(1.9)L。相比之下,当剂量为1mg/m²时,5-FU的血浆浓度低于Km,双室模型最适合拟合其动力学,5-FU平均半衰期为6.5分钟。非依赖模型方法和依赖模型方法获得的平均(标准误)清除率分别为3089(314)ml·min⁻¹和2225(200)ml·min⁻¹;非依赖模型方法和依赖模型方法的平均(标准误)Vd分别为27.9(7.0)L和2.3(0.4)L。在这两组患者中,AUC0-Clast外推至AUC0-无穷大均小于3%。DACA的动力学最适合用平均半衰期为42.1分钟的双室模型拟合;从AUC0-Clast获得AUC0-无穷大需要相当程度的外推(平均26%)。非依赖模型方法DACA的平均(标准误)清除率为1920(269)ml·min⁻¹,依赖模型方法为1627(287)ml·min⁻¹。同样,非依赖模型方法和依赖模型方法DACA的Vd[平均(标准误)]分别为118(22)L和50(15)L。
结论
对于治疗剂量给药且半衰期明显短于扫描期间总采样时间的药物,PET研究可以可靠地估算药代动力学参数。单独进行的示踪剂研究,预期血浆水平低于Km,也可能为整个线性动力学范围的药物清除提供有价值的信息。然而,半衰期长于采样持续时间的药物不适用于PET血浆药代动力学评估。
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