Current methods for developing predictive energy equations in maintenance dialysis are imprecise.

IF 2.9 2区 社会学 Q1 POLITICAL SCIENCE
Alainn Bailey, Rebecca Brody, Joachim Sackey, J Scott Parrott, Emily Peters, Laura Byham-Gray
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引用次数: 0

Abstract

Purpose: For individuals receiving maintenance dialysis, estimating accurate resting energy expenditure (REE) is essential for achieving energy balance, and preventing protein-energy wasting. Dialysis-specific, predictive energy equations (PEEs) offer a practical way to calculate REE. Three PEEs have been formulated via similar methods in different demographic samples; the Maintenance Haemodialysis Equation (MHDE REE), Vilar et al. Equation (Vilar REE) and the Fernandes et al. Equation (Cuppari REE). We compared them in a US cohort and assessed precision relative to measured REE (mREE) from indirect calorimetry. Because of expected imprecision at the extremes of the weight distribution, we also assessed the PEEs stratified by body mass index (BMI) subgroups.

Methods: This analysis comprised of 113 individuals from the Rutgers Nutrition and Kidney Database. Estimated REE (eREE) was calculated for each PEE, and agreement with mREE was set at > 50% of values within the limits of ±10%. Reliability and accuracy were determined using intraclass correlation (ICC) and a Bland Altman plot, which analysed the percentage difference of eREE form mREE.

Results: Participants were 58.4% male and 81.4% African American. Mean age was 55.8 ± 12.2 years, and the median BMI was 28.9 (IQR = 25.3 - 34.4) kg/m2. The MHDE REE achieved 58.4% of values within ±10% from mREE; Cuppari REE achieved 47.8% and Vilar REE achieved 46.0% agreement. Reliability was good for the MHDE REE (ICC = 0.826) and Cuppari REE (ICC = 0.801), and moderate for the Vilar REE (ICC = 0.642) (p < .001 for all). The equations performed poorly at the lowest and highest BMI categories.

Conclusion: Dialysis-specific energy equations showed variable accuracy. When categorized by BMI, the equations performed poorly at the extremes, where individuals are most vulnerable. Innovation is needed to understand these variances and correct the imprecision in PEEs for clinical practice.KEY MESSAGESPotentially impacting over millions of patients worldwide, our long-term goal is to understand energy expenditure (EE) across the spectrum of CKD (stages 1-5) in adults and children being treated with dialysis or transplantation, with the intent of providing tools for the health professional that will improve the delivery of quality care.Our research has identified and focussed on disease-specific factors which account for 60% of the variance in predicting EE in patients on MHD, but significant gaps remain.Thus, our central hypotheses are that (1) there are unique disease-specific determinants of EE and (2) prediction of EE for individuals diagnosed with CKD can be vastly improved with a model that combines these factors with more sophisticated approaches.

目前用于制定维持性透析预测能量方程的方法并不精确。
目的:对于接受维持性透析的患者来说,准确估算静息能量消耗(REE)对于实现能量平衡和防止蛋白质能量消耗至关重要。透析专用的预测能量方程(PEE)为计算静息能量消耗提供了一种实用的方法。在不同的人口样本中,通过类似的方法制定了三种 PEE:维持性血液透析方程(MHDE REE)、Vilar 等人方程(Vilar REE)和 Fernandes 等人方程(Cuppari REE)。我们在美国队列中对它们进行了比较,并评估了与间接量热法测量的 REE (mREE) 相对的精度。由于预期体重分布的极端值不精确,我们还评估了按体重指数(BMI)分组的 PEEs:这项分析包括来自罗格斯营养与肾脏数据库的 113 名个体。计算了每个 PEE 的估计 REE (eREE),并将与 mREE 的一致性设定为 > 50% 的值在±10% 的范围内。使用类内相关(ICC)和布兰德-阿尔特曼图(Bland Altman plot)确定可靠性和准确性,该图分析了 eREE 与 mREE 之间的百分比差异:参与者中 58.4% 为男性,81.4% 为非裔美国人。平均年龄为 55.8 ± 12.2 岁,体重指数中位数为 28.9 (IQR = 25.3 - 34.4) kg/m2。MHDE REE 有 58.4% 的值与 mREE 的值在±10%以内;Cuppari REE 有 47.8% 的值与 mREE 的值在±10%以内,Vilar REE 有 46.0% 的值与 mREE 的值在±10%以内。MHDE REE(ICC = 0.826)和 Cuppari REE(ICC = 0.801)的可靠性较好,Vilar REE(ICC = 0.642)的可靠性中等(P 结论:透析专用能量方程显示出较好的可靠性:透析专用能量方程的准确性参差不齐。当按体重指数分类时,这些公式在极端情况下表现较差,而个人在极端情况下最容易受到影响。我们的长期目标是了解接受透析或移植治疗的成人和儿童在整个 CKD 阶段(1-5 期)的能量消耗 (EE),目的是为医疗专业人员提供工具,提高医疗质量。因此,我们的核心假设是:(1) 能量消耗有独特的疾病特异性决定因素;(2) 通过将这些因素与更复杂的方法结合起来的模型,可以大大改善对确诊为 CKD 患者的能量消耗预测。
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来源期刊
Government and Opposition
Government and Opposition POLITICAL SCIENCE-
CiteScore
6.70
自引率
10.70%
发文量
49
期刊介绍: Government and Opposition has been a leading international journal of comparative politics for over 40 years. Its distinctive voice amongst politics journals has ensured a large, worldwide circulation. Government and Opposition"s interests include: - developments in the theory and practice of democracy, including significant elections the evolution of political parties, and the consequences of new political challenges for governments and oppositions - the governance of the global economy and the implications of interdependence worldwide politics - including the politics of the European Union - major issues of public policy, especially from a comparative perspective theoretical and ethical dimensions of political issues and policy.
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