氧气节约方法与自动滴定。

Oxygen Conservation Methods With Automated Titration.

机构信息

Centre de Recherche de l'Institut Universitaire de Cardiologie et de Pneumologie de Québec, Université Laval, Québec City, Québec, Canada.

PhD Candidate in Experimental Medicine, Montréal University, Faculty of Medicine, Montréal, Canada.

出版信息

Respir Care. 2020 Oct;65(10):1433-1442. doi: 10.4187/respcare.07240. Epub 2020 Feb 18.

DOI:10.4187/respcare.07240

PMID:32071135

Abstract

BACKGROUND

Oxygen titration is recommended to avoid hyperoxemia and hypoxemia. Automated titration, as well as the [Formula: see text] target, may have an impact on oxygen utilization, with potential logistical effects in emergency and military transportation. We sought to assess the oxygen flow required for different [Formula: see text] targets in spontaneously breathing subjects, and to evaluate individualized automated oxygen titration to maintain stable oxygenation in subjects with COPD and healthy subjects with induced hypoxemia.

METHODS

In the first part of the study, oxygen flow was evaluated in hospitalized subjects for different [Formula: see text] targets from 90% to 98%. Oxygen requirements to reach these targets were determined using a device that automatically adjusts oxygen flow every second on the basis of the [Formula: see text] target. In the second part of the study, the same automated oxygen titration method was used to correct hypoxemia in subjects with COPD and in healthy subjects with induced hypoxemia while the subjects wore a gas mask. Oxygen flow, [Formula: see text], and heart rate were continuously recorded.

RESULTS

Thirty-six spontaneously breathing hospitalized subjects were included in the first part of the study. Oxygen flow was reduced more than 6-fold when the [Formula: see text] target was decreased from 98% to 90%. The second part of the study included 15 healthy and 9 subjects with stable COPD. In healthy subjects, heterogeneous oxygen flows were required to correct induced hypoxemia (0.2-2.5 L/min). In subjects with COPD, oxygen flow varied from 0 L/min (in 9 of 18 tested conditions) to 2.9 L/min.

CONCLUSIONS

Significant reductions in the amount of oxygen delivered could be obtained with optimized [Formula: see text] targets. Oxygen delivery through a gas mask to correct hypoxemia is feasible, and automated oxygen titration may help individualize oxygen administration and reduce oxygen utilization. (ClinicalTrials.gov registration: NCT02782936, NCT02809807.).

摘要

背景

推荐氧滴定以避免高氧血症和低氧血症。自动滴定以及[公式：见文本]目标可能会对氧气利用产生影响，在紧急和军事运输中具有潜在的后勤影响。我们旨在评估不同[公式：见文本]目标下自主呼吸患者所需的氧气流量，并评估个体化自动氧滴定在 COPD 患者和健康诱导低氧血症患者中维持稳定氧合的效果。

方法

在研究的第一部分中，评估了从 90%到 98%的不同[公式：见文本]目标下住院患者的氧气流量。使用一种设备来确定达到这些目标所需的氧气量，该设备每秒根据[公式：见文本]目标自动调整氧气流量。在研究的第二部分中，使用相同的自动氧滴定方法来纠正 COPD 患者和健康诱导低氧血症患者的低氧血症，同时患者佩戴气体面罩。连续记录氧气流量、[公式：见文本]和心率。

结果

第一部分研究纳入了 36 名自主呼吸的住院患者。当[公式：见文本]目标从 98%降低到 90%时，氧气流量减少了 6 倍以上。研究的第二部分纳入了 15 名健康受试者和 9 名稳定的 COPD 患者。在健康受试者中，纠正诱导性低氧血症需要不同的氧气流量（0.2-2.5 L/min）。在 COPD 患者中，氧气流量从 0 L/min（在 18 种测试条件中的 9 种）到 2.9 L/min 不等。

结论

通过优化[公式：见文本]目标，可以显著减少输送的氧气量。通过气体面罩输送氧气以纠正低氧血症是可行的，自动氧滴定可能有助于个体化供氧并减少氧气利用。（临床试验注册：NCT02782936，NCT02809807）。

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氧气节约方法与自动滴定。

Oxygen Conservation Methods With Automated Titration.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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