Oxygen Conservation Methods With Automated Titration

Oxygen Conservation Methods With Automated Titration

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 d...

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Bibliographic Details
Published in:Respiratory care Vol. 65; no. 10; pp. 1433 - 1442
Main Authors: Bourassa, Stéphane, Bouchard, Pierre-Alexandre, Dauphin, Marc, Lellouche, François
Format: Journal Article
Language:English
Published: United States Daedalus Enterprises, Inc 01-10-2020
Subjects:
Analysis
Automation
Chronic obstructive lung disease
Gas masks
Heart Rate
Humans
Hypoxia
Lung
Methods
Oxygen
Oxygen Consumption
Respiration
Technology application
Canada
hypoxemia
radiological
automated oxygen titration
chemical
protective respiratory devices
FreeO2
nuclear and explosives
biological
gas mask
gas exchange
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Summary: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. 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. 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. 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.).
Bibliography:ObjectType-Article-1
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ISSN:0020-1324
1943-3654
DOI:10.4187/respcare.07240