根据菲克方程计算出的耗氧量效用有限。

Oxygen consumption calculated from the Fick equation has limited utility.

作者信息

Stock M C, Ryan M E

机构信息

Department of Anesthesiology, Emory University, Atlanta, GA 30322, USA.

出版信息

Crit Care Med. 1996 Jan;24(1):86-90. doi: 10.1097/00003246-199601000-00015.

DOI:10.1097/00003246-199601000-00015

PMID:8565544

Abstract

OBJECTIVE

To determine if oxygen consumption (VO2) calculated using the Fick relationship (calculated VO2) determines total body VO2 accurately and precisely enough to employ this method during clinical assessment of oxygen transport.

DESIGN

Methods comparison, using repeated measures during four physiologic states: normal heart/normal lungs, heart failure/normal lungs, normal heart/acute lung injury, heart failure/acute lung injury.

SETTING

University research laboratory.

SUBJECTS

Thirteen adult Yucatan pigs.

INTERVENTIONS

Oleic acid-induced acute lung injury; heart failure was induced with a continuous infusion of esmolol.

MEASUREMENTS AND MAIN RESULTS

Calculated VO2 was determined by multiplying thermodilution cardiac output by the arterialvenous oxygen content difference in anesthetized, spontaneously breathing animals. Conditions were tightly controlled so that calculated VO2 would be as accurate as possible. "True" VO2 was measured simultaneously with a water-sealed spirometer (spirometry VO2). Calculated VO2 and spirometry VO2 were determined and analyzed during the four physiologic states listed above. Pooled data also were evaluated. Mean spirometry VO2 and calculated VO2 differed significantly during all four physiologic states and when data were pooled (spirometry VO2 273 +/- 70, calculated VO2 178 +/- 58 mL/min; p < .01). Calculated VO2 consistently underestimated spirometry VO2, as demonstrated by the large, positive bias in pooled data (95 +/- 59 mL of oxygen/min) and in the four physiologic states. Linear regression of data from all four states yielded slopes that were indistinguishable from 1, but y intercepts that varied from -152 to +182. For pooled data, the following equation was used: calculated VO2 = 0.5 x (spirometry VO2 + 46); r2 = .35. Precision in pooled data was 22% of the mean spirometry VO2. Data analysis for the four physiologic states demonstrated results similar to those results obtained when data were pooled.

CONCLUSIONS

Even in a tightly controlled, clinical simulation in the laboratory, calculated VO2 from the Fick relationship systematically underestimated VO2 measured with a water-sealed spirometer. If true VO2 changes, the magnitude and direction of change will be reflected by calculated VO2 but with approximately 20% error in the absolute value. Heart failure, acute lung injury, and their combination did not affect the accuracy of calculated VO2. Therefore, calculating VO2 using the Fick relationship is too inaccurate to be used for research purposes. Because assessment of the directional change of VO2 may be clinically useful, calculated VO2 can be employed with discretion during clinical oxygen transport evaluation, bearing in mind the calculation's inherent imprecision.

摘要

目的

确定使用菲克关系式计算的氧耗量（计算所得VO₂）能否准确且精确地测定全身VO₂，以便在临床评估氧输送过程中采用该方法。

设计

方法比较，在四种生理状态下进行重复测量：正常心脏/正常肺、心力衰竭/正常肺、正常心脏/急性肺损伤、心力衰竭/急性肺损伤。

设置

大学研究实验室。

对象

13只成年尤卡坦猪。

干预措施

油酸诱导急性肺损伤；持续输注艾司洛尔诱导心力衰竭。

测量指标及主要结果

在麻醉、自主呼吸的动物中，通过热稀释法测定心输出量并乘以动静脉氧含量差来确定计算所得VO₂。严格控制各项条件以使计算所得VO₂尽可能准确。同时使用水封式肺量计测量“真实”VO₂（肺量计测量VO₂）。在上述四种生理状态下测定并分析计算所得VO₂和肺量计测量VO₂。对汇总数据也进行了评估。在所有四种生理状态下以及汇总数据时，平均肺量计测量VO₂与计算所得VO₂均存在显著差异（肺量计测量VO₂为273±70，计算所得VO₂为178±58 mL/分钟；p<0.01）。计算所得VO₂始终低于肺量计测量VO₂，汇总数据（95±59 mL氧/分钟）以及四种生理状态下的大的正向偏差均表明了这一点。对来自所有四种状态的数据进行线性回归得到的斜率与1无显著差异，但y轴截距在-152至+182之间变化。对于汇总数据，使用以下方程：计算所得VO₂ = 0.5×（肺量计测量VO₂ + 46）；r² = 0.35。汇总数据的精密度为平均肺量计测量VO₂的22%。对四种生理状态的数据分析显示结果与汇总数据时相似。

结论

即使在实验室严格控制的临床模拟中，根据菲克关系式计算所得的VO₂也系统性地低于用水封式肺量计测量的VO₂。如果真实VO₂发生变化，变化的幅度和方向将通过计算所得VO₂反映出来，但绝对值存在约20%的误差。心力衰竭、急性肺损伤及其组合并不影响计算所得VO₂的准确性。因此，使用菲克关系式计算VO₂用于研究目的时不够准确。由于评估VO₂的方向变化在临床上可能有用，在临床氧输送评估中可谨慎使用计算所得VO₂，但要记住该计算存在固有的不精确性。