实体或血液肿瘤疾病的儿科患者:万古霉素群体药代动力学与剂量优化
Pediatric Patients With Solid or Hematological Tumor Disease: Vancomycin Population Pharmacokinetics and Dosage Optimization.
作者信息
Guilhaumou Romain, Marsot Amélie, Dupouey Julien, Galambrun Claire, Boulamery Audrey, Coze Carole, Simon Nicolas, André Nicolas
机构信息
*Service de Pharmacologie Clinique et Pharmacovigilance, Hôpital de la Timone; †Pharmacologie Intégrée Interface Clinique et Industriel, Institut des Neurosciences Timone; ‡Service d'Hématologie et Oncologie Pédiatrique, Hôpital de la Timone; §Service de Pharmacologie Clinique, Centre Anti-Poison, Hôpital Sainte Marguerite; ¶Aix-Marseille Université; and ‖Aix-Marseille Université, Inserm, SESSTIM UMR_S 912, Marseille, France.
出版信息
Ther Drug Monit. 2016 Oct;38(5):559-66. doi: 10.1097/FTD.0000000000000318.
BACKGROUND
In pediatric cancer patients, determination of optimal vancomycin dosage is essential because of high risk of inadequate concentrations and bacterial resistance. The aim of this study was to determine vancomycin pharmacokinetic parameters in this population and propose dosage optimization to achieve optimal concentration.
METHODS
We retrospectively reviewed the use of vancomycin in pediatric cancer patients with febrile neutropenia (hematological or solid tumor disease). Vancomycin was administered by continuous infusion, and dosages were adapted according to therapeutic drug monitoring results. Blood cultures were performed before the first dose of antibiotic. Vancomycin pharmacokinetic population parameters were determined using NONMEM software, and dosage simulations were performed according to the target concentration (20-25 mg/L).
RESULTS
One hundred twenty-one patients were included in this study, representing 301 vancomycin concentrations. Blood cultures were positive in 37.5% of patients, and observed pathogens were mainly Staphylococcus spp. (43.8% methicillin resistant). Volume of distribution (95% confidence interval) was 34.7 L (17.3-48.0), and total apparent clearance (CL) (95% confidence interval) was correlated to body weight, tumor disease, and cyclosporine coadministration: CL = θCL × (WT/70) L/h with θCL = 3.49 (3.02-3.96), 4.66 (3.98-5.31), and 4.97 (4.42-5.41) in patients managed for hematological malignancies with or without cyclosporine coadministration and for solid malignancies, respectively. Based on simulation results, vancomycin dosage (milligram per kilogram) should be adapted to each child on the basis of its body weight and cyclosporine coadministration.
CONCLUSIONS
Our results highlight the requirement to adapt vancomycin dosage in cancer pediatric population. Simulations have allowed to describe new dosage schedules, and a chart was created for clinicians to adapt vancomycin dosage.
背景
在儿科癌症患者中,由于血药浓度不足和细菌耐药风险高,确定万古霉素的最佳剂量至关重要。本研究的目的是确定该人群中万古霉素的药代动力学参数,并提出剂量优化方案以达到最佳血药浓度。
方法
我们回顾性分析了万古霉素在患有发热性中性粒细胞减少症(血液系统或实体肿瘤疾病)的儿科癌症患者中的使用情况。万古霉素通过持续输注给药,并根据治疗药物监测结果调整剂量。在首剂抗生素使用前进行血培养。使用NONMEM软件确定万古霉素的群体药代动力学参数,并根据目标浓度(20 - 25mg/L)进行剂量模拟。
结果
本研究纳入了121例患者,共采集了301份万古霉素血药浓度样本。37.5%的患者血培养呈阳性,观察到的病原体主要为葡萄球菌属(43.8%为耐甲氧西林菌株)。分布容积(95%置信区间)为34.7L(17.3 - 48.0),总表观清除率(CL)(95%置信区间)与体重、肿瘤疾病及环孢素合用情况相关:在合并或未合并环孢素的血液系统恶性肿瘤患者以及实体恶性肿瘤患者中,CL = θCL × (WT/70) L/h,其中θCL分别为3.49(3.02 - 3.96)、4.66(3.98 - 5.31)和4.97(4.42 - 5.41)。基于模拟结果,万古霉素剂量(毫克/千克)应根据每个儿童的体重和环孢素合用情况进行调整。
结论
我们的结果强调了在儿科癌症患者中调整万古霉素剂量的必要性。模拟结果有助于制定新的给药方案,并为临床医生创建了一个万古霉素剂量调整图表。
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