Castro N, Márquez-Caraveo C, Brundage R C, González-Esquivel D, Suárez A M, Góngora F, Jara A, Urizar J, Lanao J M, Jung H
Instituto Nacional de Neurologia y Neurocirugía, Universidad Nacional Autónoma de México, México City, Mexico.
Int J Clin Pharmacol Ther. 2009 Nov;47(11):679-85.
To determine a population pharmacokinetic model of the antihelmintic drug, albendazole, and identify the factors influencing the pharmacokinetic parameters in patients with neurocysticercosis.
A prospective study was performed in 90 patients receiving 30 mg/kg/day of albendazole for 8 days. Blood samples were collected at steady state. Plasma concentrations of albendazole sulfoxide, the main active metabolite of albendazole, were determined by HPLC. The population pharmacokinetics analysis was performed using non-linear mixed-effect modeling (NONMEM). A one-compartment model with first order absorption and elimination was used.
Body weight was included empirically on CL/F and V/F using an allometric relationship. Although none of the investigated covariates had a significant influence on the pharmacokinetic parameters of albendazole, the final model identified two subpopulations on the bioavailability parameter. One subpopulation comprising of 27% of the total population had a bioavailability of 28%, with the remaining subpopulation defined to have complete bioavailability. The CL/F and V/F for a standard 70 kg individual was determined to be 51.6 l/h and 4560 l, respectively. Interindividual variability in CL/F was 32%; the residual unexplained variability was 32%.
The considerable variability reported in albendazole pharmacokinetics and plasma concentrations is likely due to issues related to bioavailability. With one-fourth of the population absorbing as little as 30% of the drug relative to others, low drug exposures might be responsible for treatment failures. Therapeutic drug monitoring may be warranted to optimize the eradication of the infecting parasite.
确定抗蠕虫药阿苯达唑的群体药代动力学模型,并识别影响神经囊尾蚴病患者药代动力学参数的因素。
对90例接受每日30mg/kg阿苯达唑治疗8天的患者进行前瞻性研究。在稳态时采集血样。采用高效液相色谱法测定阿苯达唑的主要活性代谢物阿苯达唑亚砜的血浆浓度。使用非线性混合效应模型(NONMEM)进行群体药代动力学分析。采用具有一级吸收和消除的单室模型。
根据异速生长关系,将体重经验性纳入清除率/分布容积(CL/F)和表观分布容积/分布容积(V/F)。尽管所研究的协变量均未对阿苯达唑的药代动力学参数产生显著影响,但最终模型在生物利用度参数上识别出两个亚组。占总人口27%的一个亚组生物利用度为28%,其余亚组定义为具有完全生物利用度。标准70kg个体的CL/F和V/F分别确定为51.6l/h和4560l。CL/F的个体间变异为32%;剩余未解释变异为32%。
阿苯达唑药代动力学和血浆浓度中报道的显著变异性可能与生物利用度问题有关。四分之一的人群相对于其他人吸收的药物低至30%,低药物暴露可能是治疗失败的原因。可能有必要进行治疗药物监测以优化感染寄生虫的根除。