Nephrology Unit, Department of Internal Medicine, Faculty of Medicine, Prince of Songkla University, Hat Yai, Songkhla, Thailand.
Department of Internal Medicine, Faculty of Medicine, Prince of Songkla University, Hat Yai, Songkhla, Thailand.
PeerJ. 2022 May 31;10:e13556. doi: 10.7717/peerj.13556. eCollection 2022.
Determining kidney function in critically ill patients is paramount for the dose adjustment of several medications. When assessing kidney function, the glomerular filtration rate (GFR) is generally estimated either by calculating urine creatinine clearance (UCrCl) or using a predictive equation. Unfortunately, all predictive equations have been derived for medical outpatients. Therefore, the validity of predictive equations is of concern when compared with that of the UCrCl method, particularly in medical critically ill patients. Therefore, we conducted this study to assess the agreement of the estimated GFR (eGFR) using common predictive equations and UCrCl in medical critical care setting.
This was the secondary analysis of a nutrition therapy study. Urine was collected from participating patients over 24 h for urine creatinine, urine nitrogen, urine volume, and serum creatinine measurements on days 1, 3, 5, and 14 of the study. Subsequently, we calculated UCrCl and eGFR using four predictive equations, the Cockcroft-Gault (CG) formula, the four and six-variable Modification of Diet in Renal Disease Study (MDRD-4 and MDRD-6) equations, and the Chronic Kidney Disease Epidemiology Collaboration (CKD-EPI) equation. The correlation and agreement between eGFR and UCrCl were determined using the Spearman rank correlation coefficient and Bland-Altman plot with multiple measurements per subject, respectively. The performance of each predictive equation for estimating GFR was reported as bias, precision, and absolute percentage error (APE).
A total of 49 patients with 170 urine samples were included in the final analysis. Of 49 patients, the median age was 74 (21-92) years-old and 49% was male. All patients were hemodynamically stable with mean arterial blood pressure of 82 (65-108) mmHg. Baseline serum creatinine was 0.93 (0.3-4.84) mg/dL and baseline UCrCl was 46.69 (3.40-165.53) mL/min. The eGFR from all the predictive equations showed modest correlation with UCrCl (r: 0.692 to 0.759). However, the performance of all the predictive equations in estimating GFR compared to that of UCrCl was poor, demonstrating bias ranged from -8.36 to -31.95 mL/min, precision ranged from 92.02 to 166.43 mL/min, and an unacceptable APE (23.01% to 47.18%). Nevertheless, the CG formula showed the best performance in estimating GFR, with a small bias (-2.30 (-9.46 to 4.86) mL/min) and an acceptable APE (14.72% (10.87% to 23.80%)), especially in patients with normal UCrCl.
From our finding, CG formula was the best eGFR formula in the medical critically ill patients, which demonstrated the least bias and acceptable APE, especially in normal UCrCl patients. However, the predictive equation commonly used to estimate GFR in critically ill patients must be cautiously applied due to its large bias, wide precision, and unacceptable error, particularly in renal function impairment.
在危重病患者中,确定肾功能对于调整几种药物的剂量至关重要。在评估肾功能时,通常通过计算尿肌酐清除率(UCrCl)或使用预测方程来估算肾小球滤过率(GFR)。不幸的是,所有预测方程都是针对门诊医疗患者推导出来的。因此,与 UCrCl 方法相比,预测方程的有效性在医学危重病患者中存在争议。因此,我们进行了这项研究,以评估在医学重症监护环境中使用常见预测方程和 UCrCl 估算的肾小球滤过率(eGFR)的一致性。
这是一项营养治疗研究的二次分析。在研究的第 1、3、5 和 14 天,从参与的患者中收集 24 小时尿液,用于测量尿肌酐、尿氮、尿量和血清肌酐。随后,我们使用四种预测方程( Cockcroft-Gault [CG] 公式、四变量和六变量修正肾脏疾病饮食研究 [MDRD-4 和 MDRD-6] 方程以及慢性肾脏病流行病学合作 [CKD-EPI] 方程)计算 UCrCl 和 eGFR。使用 Spearman 秩相关系数和具有多个受试者测量值的 Bland-Altman 图分别确定 eGFR 与 UCrCl 之间的相关性和一致性。分别报告每种预测方程估算 GFR 的性能为偏差、精度和绝对百分比误差(APE)。
共有 49 名患者纳入最终分析,共 170 个尿液样本。在 49 名患者中,中位年龄为 74 岁(21-92 岁),49%为男性。所有患者血流动力学稳定,平均动脉血压为 82mmHg(65-108mmHg)。基线血清肌酐为 0.93mg/dL(0.3-4.84mg/dL),基线 UCrCl 为 46.69mL/min(3.40-165.53mL/min)。所有预测方程的 eGFR 与 UCrCl 均显示出中等相关性(r:0.692 至 0.759)。然而,与 UCrCl 相比,所有预测方程在估算 GFR 方面的性能均较差,显示偏差范围为-8.36 至-31.95mL/min,精度范围为 92.02 至 166.43mL/min,且 APE 不可接受(23.01%至 47.18%)。然而,CG 公式在估算 GFR 方面表现最佳,偏差较小(-2.30mL/min(-9.46 至 4.86mL/min)),且 APE 可接受(14.72%(10.87%至 23.80%)),尤其是在 UCrCl 正常的患者中。
根据我们的发现,CG 公式是医学危重病患者中最好的 eGFR 公式,其偏差最小,APE 可接受,尤其是在 UCrCl 正常的患者中。然而,由于其较大的偏差、较宽的精度和不可接受的误差,必须谨慎应用常用于估算危重病患者 GFR 的预测方程,尤其是在肾功能受损的情况下。
