基于床边二氧化碳体积消除测量的简化能量消耗方程的准确性——一项双中心研究
Accuracy of a simplified equation for energy expenditure based on bedside volumetric carbon dioxide elimination measurement--a two-center study.
作者信息
Mehta Nilesh M, Smallwood Craig D, Joosten Koen F M, Hulst Jessie M, Tasker Robert C, Duggan Christopher P
机构信息
Boston Children's Hospital, Boston, MA, United States; Harvard Medical School, Boston, MA, United States.
Boston Children's Hospital, Boston, MA, United States; Harvard Medical School, Boston, MA, United States.
出版信息
Clin Nutr. 2015 Feb;34(1):151-5. doi: 10.1016/j.clnu.2014.02.008. Epub 2014 Feb 26.
BACKGROUND & AIMS: Accurate assessment of resting energy expenditure (REE) and metabolic state is essential to optimize nutrient intake in critically ill patients. We aimed to examine the accuracy of a simplified equation for predicting REE using carbon dioxide elimination (VCO2) values.
METHODS
We conducted a two-center study of metabolic data from mechanically ventilated children less than 18 years of age. Mean respiratory quotient (RQ) from the derivation set (n = 72 subjects) was used to modify the Weir equation to obtain a simplified equation based on VCO2 measurements alone. This equation was then applied to subjects at the second institution (validation dataset, n = 94) to predict resting energy expenditure. Bland-Altman analysis was used to assess the agreement between measured REE values, and REE estimated by the new equation as well as the Schofield equation. We also examined the accuracy of the new equation in classifying patients according to their metabolic state.
RESULTS
Mean respiratory quotient (± SD) of 0.89 ± 0.09 in the derivation set was used to obtain a simplified equation, REE (kcal/day) = 5.534*VCO2 (L/min)*1440. In relation to the measured REE in the validation set, the mean bias (limits of agreement) for the REE predicted by this equation was -0.65% (-14.4-13.1%); and the overall diagnostic accuracy for classifying subjects as hypometabolic or hypermetabolic was 84%. Mean bias (limits) of agreement between measured and Schofield equation estimated REE was -0.1% (-40.5-40.7%).
CONCLUSIONS
A simplified metabolic equation using VCO2 values was superior to the standard equation in estimating REE, and provided a reasonably accurate metabolic classification in mechanically ventilated children. In the absence of indirect calorimetry, bedside VCO2 monitoring could provide valuable continuous metabolic information to guide optimal nutrient intake.
背景与目的
准确评估静息能量消耗(REE)和代谢状态对于优化危重症患者的营养摄入至关重要。我们旨在研究使用二氧化碳排出量(VCO2)值预测REE的简化方程的准确性。
方法
我们对18岁以下机械通气儿童的代谢数据进行了一项双中心研究。来自推导集(n = 72名受试者)的平均呼吸商(RQ)用于修改韦尔方程,以获得仅基于VCO2测量值的简化方程。然后将该方程应用于第二家机构的受试者(验证数据集,n = 94)以预测静息能量消耗。采用布兰德-奥特曼分析来评估测量的REE值与新方程以及斯科菲尔德方程估计的REE之间的一致性。我们还研究了新方程在根据患者代谢状态进行分类方面的准确性。
结果
推导集中平均呼吸商(±标准差)为0.89±0.09,用于获得简化方程:REE(千卡/天)= 5.534×VCO2(升/分钟)×1440。与验证集中测量的REE相比,该方程预测的REE的平均偏差(一致性界限)为-0.65%(-14.4 - 13.1%);将受试者分类为代谢低下或代谢亢进的总体诊断准确性为84%。测量的REE与斯科菲尔德方程估计的REE之间的平均偏差(界限)为-0.1%(-40.5 - 40.7%)。
结论
使用VCO2值的简化代谢方程在估计REE方面优于标准方程,并为机械通气儿童提供了合理准确的代谢分类。在没有间接测热法的情况下,床边VCO2监测可为指导最佳营养摄入提供有价值的连续代谢信息。
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