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吸气末重复呼吸降低机械通气猪的潮气末至动脉 PCO2 梯度。

End-inspiratory rebreathing reduces the end-tidal to arterial PCO2 gradient in mechanically ventilated pigs.

机构信息

Division of Neurosurgery, University Health Network, Toronto, Canada.

出版信息

Intensive Care Med. 2011 Sep;37(9):1543-50. doi: 10.1007/s00134-011-2260-y. Epub 2011 Jun 7.

DOI:10.1007/s00134-011-2260-y
PMID:21647718
Abstract

PURPOSE

Noninvasive monitoring of the arterial partial pressures of CO(2) (PaCO(2)) of critically ill patients by measuring their end-tidal partial pressures of CO(2) (PETCO(2)) would be of great clinical value. However, the gradient between PETCO(2) and PaCO(2) (PET-aCO(2)) in such patients typically varies over a wide range. A reduction of the PET-aCO(2) gradient can be achieved in spontaneously breathing healthy humans using an end-inspiratory rebreathing technique. We investigated whether this method would be effective in reducing the PET-aCO(2) gradient in a ventilated animal model.

METHODS

Six anesthetized pigs were ventilated mechanically. End-tidal gases were systematically adjusted over a wide range of PETCO(2) (30-55 mmHg) and PETO(2) (35-500 mmHg) while employing the end-inspiratory rebreathing technique and measuring the PET-aCO(2) gradient. Duplicate arterial blood samples were taken for blood gas analysis at each set of gas tensions.

RESULTS

PETCO(2) and PaCO(2) remained equal within the error of measurement at all gas tension combinations. The mean ± SD PET-aCO(2) gradient (0.13 ± 0.12 mmHg, 95% CI -0.36, 0.10) was the same (p = 0.66) as that between duplicate PaCO(2) measurements at all PETCO(2) and PETO(2) combinations (0.19 ± 0.06, 95% CI -0.32, -0.06).

CONCLUSIONS

The end-inspiratory rebreathing technique is capable of reducing the PET-aCO(2) gradient sufficiently to make the noninvasive measurement of PETCO(2) a useful clinical surrogate for PaCO(2) over a wide range of PETCO(2) and PETO(2) combinations in mechanically ventilated pigs. Further studies in the presence of severe ventilation-perfusion (V/Q) mismatching will be required to identify the limitations of the method.

摘要

目的

通过测量其呼气末二氧化碳分压(PETCO2)来无创监测危重病患者的动脉二氧化碳分压(PaCO2)具有重要的临床价值。然而,此类患者的 PETCO2 与 PaCO2 之间的梯度通常变化范围较大。在自主呼吸的健康人群中,使用吸气末重复呼吸技术可以降低 PET-aCO2 梯度。我们研究了这种方法在机械通气的动物模型中是否能有效降低 PET-aCO2 梯度。

方法

6 只麻醉猪进行机械通气。在广泛的 PETCO2(30-55mmHg)和 PETO2(35-500mmHg)范围内,系统地调整呼气末气体,同时采用吸气末重复呼吸技术测量 PET-aCO2 梯度。在每组气体张力下,采集重复的动脉血样进行血气分析。

结果

在所有气体张力组合下,PETCO2 和 PaCO2 在测量误差范围内保持相等。平均(±SD)PET-aCO2 梯度(0.13±0.12mmHg,95%CI-0.36,0.10)与所有 PETCO2 和 PETO2 组合时重复 PaCO2 测量值之间的差异相同(p=0.66)(0.19±0.06,95%CI-0.32,-0.06)。

结论

吸气末重复呼吸技术能够充分降低 PET-aCO2 梯度,使 PETCO2 的无创测量在机械通气猪的广泛 PETCO2 和 PETO2 组合范围内成为 PaCO2 的有用临床替代指标。需要在存在严重通气-灌注(V/Q)不匹配的情况下进行进一步研究,以确定该方法的局限性。

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