Niioka Takenori, Fujishima Naohito, Abumiya Maiko, Yamashita Takaya, Ubukawa Kumi, Nara Miho, Fujishima Masumi, Takahashi Naoto, Miura Masatomo
*Department of Pharmacy, Akita University Hospital; †Division of Blood Transfusion, Akita University Hospital; and ‡Department of Hematology, Nephrology and Rheumatology, Akita University Graduate School of Medicine, Akita, Japan.
Ther Drug Monit. 2017 Oct;39(5):514-521. doi: 10.1097/FTD.0000000000000441.
Although voriconazole (VRCZ) is metabolized to VRCZ N-oxide principally by CYP2C19, VRCZ clearance is affected by multiple factors. In this study, we investigated the relationship between the CYP2C19 phenotype using the VRCZ-to-VRCZ N-oxide plasma concentration ratio (VRCZ/N-oxide) and demographic and clinical characteristics of Japanese patients taking VRCZ.
A total of 65 Japanese patients taking VRCZ for prophylaxis or treatment of fungal infection were enrolled in this study. Stepwise selection multiple linear regression analysis was performed to investigate the effect of factors on the VRCZ/N-oxide ratio.
In patients not undergoing concurrent treatment with a drug influencing CYP2C19 activity (n = 54), the VRCZ/N-oxide ratio with definite thresholds for CYP2C19 genotypes, CYP2C19*1/*1, *1/*2 + *1/*3 + *2/*17, and *2/*2 + *2/*3, was specifically identified in patients taking VRCZ (<0.48, ≥0.48 < and <0.82 and ≥0.82). However, the VRCZ/N-oxide ratio could not be predicted based solely on the CYP2C19 genotype (R = 0.053). The route of VRCZ administration, C-reactive protein concentration determined on the same day as VRCZ plasma concentration measurement, CYP2C19 extensive metabolizer, and patient age were independent factors influencing the VRCZ/N-oxide ratio (R = 0.489, standardized regression coefficient = 0.385, 0.380, -0.231, and 0.231; P = 0.001, 0.001, 0.032, and 0.036, respectively).
It is possible to comprehensively evaluate CYP2C19 activity using the actual measured value of the VRCZ/N-oxide ratio in patients taking VRCZ. The predictive performance of the VRCZ/N-oxide ratio was improved by including the route of administration, C-reactive protein level, and patient age in addition to the CYP2C19 genotype as predictive factors.
尽管伏立康唑(VRCZ)主要通过CYP2C19代谢为伏立康唑N - 氧化物,但VRCZ的清除受多种因素影响。在本研究中,我们使用VRCZ与伏立康唑N - 氧化物的血浆浓度比(VRCZ/氧化物)研究了日本服用VRCZ患者的CYP2C19表型与人口统计学和临床特征之间的关系。
本研究共纳入65例因预防或治疗真菌感染而服用VRCZ的日本患者。进行逐步选择多元线性回归分析以研究各因素对VRCZ/氧化物比值的影响。
在未同时接受影响CYP2C19活性药物治疗的患者(n = 54)中,明确确定了CYP2C19基因型(CYP2C19*1/*1、*1/*2 + *1/*3 + *2/17和2/*2 + *2/*3)的VRCZ/氧化物比值阈值,具体在服用VRCZ的患者中确定为(<0.48、≥0.48且<0.82以及≥0.82)。然而,仅基于CYP2C19基因型无法预测VRCZ/氧化物比值(R = 0.053)。VRCZ的给药途径、与VRCZ血浆浓度测量同一天测定的C反应蛋白浓度、CYP2C19广泛代谢者以及患者年龄是影响VRCZ/氧化物比值的独立因素(R = 0.489,标准化回归系数分别为0.385、0.380、 - 0.231和0.231;P分别为0.001、0.001、0.032和0.036)。
使用服用VRCZ患者的VRCZ/氧化物比值实际测量值可以全面评估CYP2C19活性。除了将CYP2C19基因型作为预测因素外,将给药途径、C反应蛋白水平和患者年龄纳入预测因素可提高VRCZ/氧化物比值的预测性能。
