呼吸机重置后二氧化碳清除的动力学

Dynamics of carbon dioxide elimination following ventilator resetting.

作者信息

Taskar V, John J, Larsson A, Wetterberg T, Jonson B

机构信息

Department of Clinical Physiology, University Hospital of Lund, Sweden.

出版信息

Chest. 1995 Jul;108(1):196-202. doi: 10.1378/chest.108.1.196.

DOI:10.1378/chest.108.1.196

PMID:7606958

Abstract

BACKGROUND

Carbon dioxide elimination (VCO2) at steady state corresponds to the metabolic rate. A change in tidal ventilation will lead to a transient response in VCO2 if other determinants of VCO2 are constant. This principle may be applied in the critical care unit to reset ventilators.

OBJECTIVE

To define and characterize the transient response of VCO2 to a well-defined change in ventilation.

METHODS

Forty-four patients in stable condition receiving volume-controlled mechanical ventilation had trend recordings of ventilator pressures, flow, volumes, VCO2, and end-tidal CO2 (ETCO2) for 20 min. At time t0, the minute ventilation was either increased (n = 22) or decreased (n = 22) by 10% after which these parameters were monitored over 30 min. Blood gas values were measured 5 and 20 min after the change in ventilation and the dead space fractions were computed using the single breath-CO2 test.

DATA ANALYSIS

The first ten breaths (till t1) after a change in ventilation were excluded. The time constant (tau) of the relative change in VCO2 (delta VCO2) was calculated by fitting exponential regressions to delta VCO2 for periods up to 20 min after t1.

RESULTS

The delta VCO2 at t1 was proportional to the relative change in tidal volume (delta VT). The proportionality decreased gradually during 20 min. The proportionality of the relative change in ETCO2 (delta ETCO2) or PaCO2 (delta PaCO2) with delta VT was minimal at t1 and increased during the 20 min. tau increased progressively when calculated over longer periods (p < 0.001). tau was similar in the groups with increased and decreased ventilation up to 5 min, after which it was longer in the group with decreased ventilation (p < 0.05). The delta PaCO2 after 20 min correlated best with delta VCO2 at t1 (r = -0.8) and with delta ETCO2 at the end of 20 min (r = 0.8).

CONCLUSIONS

Noninvasively monitored VCO2 provides an instantaneous indication of the change in alveolar ventilation in well-sedated, mechanically ventilated patients in stable condition without significant cardiopulmonary disease.

摘要

背景

稳态下的二氧化碳排出量（VCO2）与代谢率相对应。如果VCO2的其他决定因素保持不变，潮气量通气的改变将导致VCO2出现短暂反应。这一原理可应用于重症监护病房来重置呼吸机。

目的

定义并描述VCO2对明确的通气变化的短暂反应。

方法

44例接受容量控制机械通气且病情稳定的患者进行了20分钟的呼吸机压力、流量、容积、VCO2和呼气末二氧化碳（ETCO2）趋势记录。在t0时刻，分钟通气量增加（n = 22）或减少（n = 22）10%，之后对这些参数进行30分钟的监测。在通气改变后5分钟和20分钟测量血气值，并使用单次呼吸二氧化碳试验计算死腔分数。

数据分析

排除通气改变后的前十次呼吸（直至t1）。通过对t1后长达20分钟的时间段内VCO2的相对变化（δVCO2）拟合指数回归来计算δVCO2的时间常数（τ）。

结果

t1时刻的δVCO2与潮气量的相对变化（δVT）成正比。在20分钟内，这种比例关系逐渐下降。ETCO2的相对变化（δETCO2）或动脉血二氧化碳分压（δPaCO2）与δVT的比例关系在t1时刻最小，并在20分钟内增加。当计算更长时间段时，τ逐渐增加（p < 0.001）。在通气增加和减少的组中，τ在5分钟内相似，之后通气减少组的τ更长（p < 0.05）。20分钟后的δPaCO2与t1时刻的δVCO2相关性最佳（r = -0.8），与20分钟末的δETCO2相关性最佳（r = 0.8）。