一种简单生物测定法在泊沙康唑和伏立康唑有效治疗药物监测中的作用
Contribution of a Simple Bioassay in Effective Therapeutic Drug Monitoring of Posaconazole and Voriconazole.
作者信息
Tonini Julia, Bailly Sébastien, Gautier-Veyret Elodie, Wambergue Clémentine, Pelloux Hervé, Thiébaut-Bertrand Anne, Cornet Muriel, Stanke-Labesque Françoise, Maubon Danièle
机构信息
*Laboratoire de Pharmacologie Toxicologie; †Laboratoire de Parasitologie-Mycologie, Institut de Biologie et Pathologie, Grenoble University Hospital; ‡Université Grenoble Alpes; §INSERM U1042, HP2; ¶Medical Oncology-Hematology Unit, Grenoble University Hospital; and ‖Laboratoire TIMC-TheREx, UMR 5525 CNRS-UJF, Université Joseph Fourier, Grenoble, France.
出版信息
Ther Drug Monit. 2015 Oct;37(5):685-8. doi: 10.1097/FTD.0000000000000199.
BACKGROUND
With the constantly growing incidence of invasive fungal infections, any failure of antifungal treatment is worrying. Azole antifungals present high variability of their plasma trough concentrations (Cmin), justifying their therapeutic drug monitoring (TDM). The authors aimed to develop a simple bioassay to determine the in vitro growth inhibition diameter (ID) and to correlate this ID with Cmin in patients treated with voriconazole or posaconazole.
METHODS
The bioassay determined the ID for Candida parapsilosis using a disk diffusion method. Calibration curves were built for posaconazole and voriconazole in water and in 45% plasma. ID was determined in plasma from patients currently undergoing TDM for posaconazole (n = 73) or voriconazole (n = 90).
RESULTS
In water or plasma spiked with antifungals and patient samples, cubic regression between ID and Cmin gave coefficient of determination values of 0.997, 0.999, and 0.819, respectively, for posaconazole and 0.996, 0.990 and 0.925, respectively, for voriconazole (P < 0.001 for each curve). Calibration curves with or without plasma did not differ. For voriconazole, Cmin of 1 and 4.7 mg/L corresponded to 54% and 90% of maximal ID, respectively. For posaconazole, Cmin of 0.5, 0.7, and 1 mg/L corresponded to 26%, 40%, and 53% of maximal ID, respectively.
CONCLUSIONS
Bioassay could be useful to better characterize the antifungal therapeutic range and brings additional information to the interpretation of TDM in patients for whom Cmin alone is insufficient to adjust the antifungal dosage.
背景
随着侵袭性真菌感染的发病率不断上升,抗真菌治疗的任何失败都令人担忧。唑类抗真菌药物的血浆谷浓度(Cmin)存在很大差异,因此有必要进行治疗药物监测(TDM)。作者旨在开发一种简单的生物测定法,以确定体外生长抑制直径(ID),并将该ID与接受伏立康唑或泊沙康唑治疗的患者的Cmin进行关联。
方法
该生物测定法采用纸片扩散法测定近平滑念珠菌的ID。建立了泊沙康唑和伏立康唑在水和45%血浆中的校准曲线。在目前正在接受泊沙康唑(n = 73)或伏立康唑(n = 90)TDM的患者血浆中测定ID。
结果
在添加抗真菌药物的水或血浆以及患者样本中,ID与Cmin之间的三次回归分别得出泊沙康唑的决定系数值为0.997、0.999和0.819,伏立康唑的决定系数值分别为0.996、0.990和0.925(每条曲线P < 0.001)。有无血浆的校准曲线无差异。对于伏立康唑,Cmin为1和4.7 mg/L分别对应最大ID的54%和90%。对于泊沙康唑,Cmin为0.5、0.7和1 mg/L分别对应最大ID的26%、40%和53%。
结论
生物测定法可能有助于更好地描述抗真菌治疗范围,并为仅靠Cmin不足以调整抗真菌剂量的患者的TDM解释提供额外信息。
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