Mw\Pharm 3.30与Mw\Pharm ++ (Windows版药代动力学软件)用于万古霉素PK/PD监测的比较:先验建模。

IF 0.9 4区医学 Q4 PHARMACOLOGY & PHARMACY

International journal of clinical pharmacology and therapeutics Pub Date : 2022-05-10 DOI:10.5414/CP204151

B. Koristkova, Eliška Vavreckova, Kristyna Schön, I. Kacířová, H. Brozmanova, M. Grundmann

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引用次数: 0

摘要

目的评价基于MwPharm模型进行人群剂量优化的可能性，并在Windows版本(WIN)中寻找最佳模型。方法采用WIN模型“vancomycin_adult_k_C2”、“#vancomycin_adult_C2”、“vancomycin_adult_C2”、“vancomycin_adult_C2”和“万古霉素成人”DOS模型(DOS)预测的浓度与实测值进行比较。统计以(预测-实测值)/实测值计算的预测误差百分比(%PE)， blbrandt - altman图，均方根误差(RMSE)， Pearson等级相关系数(R)。数据以mean±SD表示。预测精度评价采用学生t检验。RESULTSThe % PE不同从+ 44.4±65.2% + 76.5±84.3%,p < 0.001。在WIN模型中，“#vancomycin_adult_C2”模型的%PE最低，RMSE最低(79)，blbrandt - altman偏倚最低(-4.01±7.59)，但Pearson的相关性(0.6843,p = 0.0002)较弱。DOS模型产生第二低的RMSE (81)， %PE(+45.9±66.6%)和brandt - altman偏倚(-4.83±6.97)和最高的Pearson’s R (0.7847, p < 0.0001)。“vancomycin_adult_C2”的预测效果第三好:RMSE (113)， %PE(62.8±92.6%)，brandt - altman偏倚(-6.78±11.2)，但Pearson’s R最差(0.5773,p = 0.0025)。结论“#vancomycin_adult_C2”模型PE %最低，Pearson’s R最高。由于所有MwPharm版本和模型的预测性能较差，我们发现它们都不适合先验的万古霉素剂量管理。其他软件应评估为日常使用。

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Comparison of Mw\Pharm 3.30 and Mw\Pharm ++ a Windows version of pharmacokinetic software for PK/PD monitoring of vancomycin: A priori modeling.

OBJECTIVE To evaluate the possibility of population-based dose optimization with the aid of MwPharm modeling and to find the best model in the Windows version (WIN). MATERIALS 25 patients repeatedly examined for vancomycin (mean age 63 ± 14 years, body weight 88 ± 21 kg, median dose 1 g/12 h). METHODS Trough concentrations predicted by WIN models "vancomycin_adult_k_C2", "#vancomycin_adult_C2", "vancomycin_adult_C2", and "vancomycin adult" DOS model (DOS) were compared with the measured value. STATISTICS The percentage prediction error (%PE) calculated as (predicted - measured)/measured values, Blandt-Altman plot, root mean square error (RMSE), Pearson's coefficient of rank correlation (R). Data is presented as mean ± SD. Student's t-test was used for prediction precision evaluation. RESULTS The %PE varied from +44.4 ± 65.2% to +76.5 ± 84.3%, p < 0.001. "#vancomycin_adult_C2" model produced the lowest %PE among WIN models as well as the lowest RMSE (79) and Blandt-Altman bias (-4.01 ± 7.59), but the Pearson's correlation (0.6843, p = 0.0002) was less tight. DOS model produced the second lowest RMSE (81), %PE (+45.9 ± 66.6%), and Blandt-Altman bias (-4.83 ± 6.97) and highest Pearson's R (0.7847, p < 0.0001). "vancomycin_adult_C2" produced the third best prediction: RMSE (113), %PE (62.8 ± 92.6%), Blandt-Altman bias (-6.78 ± 11.2) but Pearson's R was the poorest (0.5773, p = 0.0025). CONCLUSION The lowest %PE and highest Pearson's R were achieved by the "#vancomycin_adult_C2" model. Due to the poor predictive performance of all MwPharm versions and models, we find all of them unsuitable for a priori vancomycin dosing management. Other software should be evaluated for routine use.

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来源期刊

International journal of clinical pharmacology and therapeutics 医学-药学

CiteScore

1.70

自引率

12.50%

发文量

116

审稿时长

4-8 weeks

期刊介绍： The International Journal of Clinical Pharmacology and Therapeutics appears monthly and publishes manuscripts containing original material with emphasis on the following topics: Clinical trials, Pharmacoepidemiology - Pharmacovigilance, Pharmacodynamics, Drug disposition and Pharmacokinetics, Quality assurance, Pharmacogenetics, Biotechnological drugs such as cytokines and recombinant antibiotics. Case reports on adverse reactions are also of interest.