Enhancing individual glomerular filtration rate assessment: can we trust the equation? Development and validation of machine learning models to assess the trustworthiness of estimated GFR compared to measured GFR.

IF 2.4 4区医学 Q2 UROLOGY & NEPHROLOGY BMC Nephrology Pub Date : 2025-01-30 DOI:10.1186/s12882-025-03972-0

Antoine Lanot, Anna Akesson, Felipe Kenji Nakano, Celine Vens, Jonas Björk, Ulf Nyman, Anders Grubb, Per-Ola Sundin, Björn O Eriksen, Toralf Melsom, Andrew D Rule, Ulla Berg, Karin Littmann, Kajsa Åsling-Monemi, Magnus Hansson, Anders Larsson, Marie Courbebaisse, Laurence Dubourg, Lionel Couzi, Francois Gaillard, Cyril Garrouste, Lola Jacquemont, Nassim Kamar, Christophe Legendre, Lionel Rostaing, Natalie Ebert, Elke Schaeffner, Arend Bökenkamp, Christophe Mariat, Hans Pottel, Pierre Delanaye

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Abstract

Background: Creatinine-based estimated glomerular filtration rate (eGFR) equations are widely used in clinical practice but exhibit inherent limitations. On the other side, measuring GFR is time consuming and not available in routine clinical practice. We developed and validated machine learning models to assess the trustworthiness (i.e. the ability of equations to estimate measured GFR (mGFR) within 10%, 20% or 30%) of the European Kidney Function Consortium (EKFC) equation at the individual level.

Methods: This observational study used data from European and US cohorts, comprising 22,343 participants of all ages with available mGFR results. Four machine learning and two traditional logistic regression models were trained on a cohort of 9,202 participants to predict the likelihood of the EKFC creatinine-derived eGFR falling within 30% (p30), 20% (p20) or 10% (p10) of the mGFR value. The algorithms were internally and then externally validated on cohorts of respectively 3,034 and 10,107 participants. The predictors included in the models were creatinine, age, sex, height, weight, and EKFC.

Results: The random forest model was the most robust model. In the external validation cohort, the model achieved an area under the curve of 0.675 (95%CI 0.660;0.690) and an accuracy of 0.716 (95%CI 0.707;0.725) for the P30 criterion. Sensitivity was 0.756 (95%CI 0.747;0.765) and specificity was 0.485 (95%CI 0.460; 0.511) at the 80% probability level that EKFC falls within 30% of mGFR. At the population level, the PPV of this machine learning model was 89.5%, higher than the EKFC P30 of 85.2%. A free web-application was developed to allow the physician to assess the trustworthiness of EKFC at the individual level.

Conclusions: A strategy using machine learning model marginally improves the trustworthiness of GFR estimation at the population level. An additional value of this approach lies in its ability to provide assessments at the individual level.

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增强个体肾小球滤过率评估：我们能相信这个方程吗？开发和验证机器学习模型，以评估估计GFR与测量GFR的可信度。

背景：基于肌酐估计肾小球滤过率（eGFR）方程广泛应用于临床实践，但存在固有的局限性。另一方面，测量GFR是耗时的，不能在常规临床实践中使用。我们开发并验证了机器学习模型，以评估个人层面上欧洲肾功能联盟（EKFC）方程的可信度（即方程在10%，20%或30%范围内估计测量GFR （mGFR）的能力）。方法：这项观察性研究使用了来自欧洲和美国队列的数据，包括22,343名所有年龄段的参与者，均有可用的mGFR结果。对9202名参与者的队列进行了四种机器学习和两种传统逻辑回归模型的训练，以预测EKFC肌酐衍生的eGFR落在mGFR值的30% (p30), 20% （p20）或10% （p10）内的可能性。这些算法分别在3,034和10,107名参与者的队列中进行了内部和外部验证。模型中的预测因子包括肌酐、年龄、性别、身高、体重和EKFC。结果：随机森林模型的鲁棒性最强。在外部验证队列中，该模型对P30标准的曲线下面积为0.675 (95%CI 0.660;0.690)，准确度为0.716 （95%CI 0.707;0.725）。敏感性为0.756 (95%CI 0.747;0.765)，特异性为0.485 (95%CI 0.460；0.511)，在80%的概率水平上EKFC落在mGFR的30%以内。在总体水平上，该机器学习模型的PPV为89.5%，高于EKFC P30的85.2%。开发了一个免费的网络应用程序，允许医生在个人层面评估EKFC的可信度。结论：使用机器学习模型的策略略微提高了总体水平上GFR估计的可信度。这种方法的另一个价值在于它能够在个人一级提供评估。

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来源期刊

BMC Nephrology UROLOGY & NEPHROLOGY-

CiteScore

4.30

自引率

0.00%

发文量

375

审稿时长

3-8 weeks

期刊介绍： BMC Nephrology is an open access journal publishing original peer-reviewed research articles in all aspects of the prevention, diagnosis and management of kidney and associated disorders, as well as related molecular genetics, pathophysiology, and epidemiology.