万古霉素谷浓度和曲线下面积与肾毒性发生率的比较及高谷浓度的预测因素。

Comparison of trough concentration and area under the curve of vancomycin associated with the incidence of nephrotoxicity and predictors of a high trough level.

机构信息

Department of Pharmacy, Showa University Fujigaoka Hospital, Kanagawa, Japan; Department of Infection Control Team, Showa University Fujigaoka Hospital, Kanagawa, Japan.

Department of Pharmacy, Tokyo Women's Medical University, Tokyo, Japan.

出版信息

J Infect Chemother. 2021 Mar;27(3):455-460. doi: 10.1016/j.jiac.2020.10.014. Epub 2020 Nov 2.

DOI:10.1016/j.jiac.2020.10.014

PMID:33144145

Abstract

PURPOSE

A high vancomycin trough concentration during therapy is associated with increased nephrotoxicity, and the recent guidelines for therapeutic monitoring of vancomycin recommend target of the ratio of area under the curve (AUC) to minimum inhibitory concentration. We aimed to determine vancomycin trough concentration and AUC that induce nephrotoxicity and evaluate predictive factors associated with a high serum vancomycin trough level according to the initial dosing strategy.

METHODS

We conducted a retrospective cohort study in patients administered intravenous vancomycin from June 2013 to February 2017. Totally, 346 patients were included.

RESULTS

38 experienced nephrotoxicity during therapy. The both trough level and AUC were significant risk factors for the occurrence of vancomycin induced-nephrotoxicity (p < 0.001, p = 0.001). The exposure-response analysis revealed that the trough level of 15 μg/mL was associated with 12.0% nephrotoxicity incidence and AUC of 600 was associated with 12.9% nephrotoxicity incidence. During the treatment, 90 patients had an initial trough concentration of ≥15 μg/mL, and 124 patients had AUC of ≥600 μg h/mL. The multiple logistic regression analysis revealed body weight (p = 0.001), serum creatinine level (p = 0.028), daily vancomycin dose (p = 0.001), and ICU (p = 0.015) were independent predictive factors for a high trough concentration. And same factors were selected for the high AUC.

CONCLUSION

The risk factors for vancomycin induced nephrotoxicity were comparable in both trough concentration and AUC. The incidence of nephrotoxicity can be reduced by controlling vancomycin trough concentration similarly AUC and promoting antimicrobial stewardship.

摘要

目的

治疗过程中万古霉素谷浓度较高与肾毒性增加有关，最近的万古霉素治疗监测指南建议将 AUC 与最低抑菌浓度的比值作为目标。我们旨在确定引起肾毒性的万古霉素谷浓度和 AUC，并根据初始给药策略评估与高血清万古霉素谷水平相关的预测因素。

方法

我们对 2013 年 6 月至 2017 年 2 月期间接受静脉万古霉素治疗的患者进行了回顾性队列研究。共纳入 346 例患者。

结果

38 例患者在治疗过程中发生肾毒性。谷浓度和 AUC 均是万古霉素诱导肾毒性发生的显著危险因素（p<0.001，p=0.001）。暴露-反应分析显示，谷浓度 15μg/mL 与 12.0%的肾毒性发生率相关，AUC 为 600 与 12.9%的肾毒性发生率相关。治疗期间，90 例患者初始谷浓度≥15μg/mL，124 例患者 AUC≥600μg·h/mL。多因素 logistic 回归分析显示，体重（p=0.001）、血清肌酐水平（p=0.028）、每日万古霉素剂量（p=0.001）和 ICU（p=0.015）是高谷浓度的独立预测因素。同样的因素也被选择用于高 AUC。

结论

谷浓度和 AUC 中与万古霉素诱导肾毒性相关的危险因素相似。通过控制万古霉素谷浓度，类似 AUC 并促进抗菌药物管理，可降低肾毒性的发生率。

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万古霉素谷浓度和曲线下面积与肾毒性发生率的比较及高谷浓度的预测因素。

Comparison of trough concentration and area under the curve of vancomycin associated with the incidence of nephrotoxicity and predictors of a high trough level.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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