Oxygen targets during mechanical ventilation in the ICU: a systematic review and meta-analysis
Oxygen targets during mechanical ventilation in the ICU: a systematic review and meta-analysis
Objectives: patients admitted to intensive care often require treatment with invasive mechanical ventilation and high concentrations of oxygen. Mechanical ventilation can cause acute lung injury that may be exacerbated by oxygen therapy. Uncertainty remains about which oxygen therapy targets result in the best clinical outcomes for these patients. This review aims to determine whether higher or lower oxygenation targets are beneficial for mechanically ventilated adult patients.
Data sources: Excerpta Medica dataBASE, Medical Literature Analysis and Retrieval System Online, and Cochrane medical databases were searched from inception through to February 28, 2021.
Study selection: randomized controlled trials comparing higher and lower oxygen targets in adult patients receiving invasive mechanical ventilation via an endotracheal tube or tracheostomy in an intensive care setting.
Data extraction: study setting, participant type, participant numbers, and intervention targets were captured. Outcome measures included "mortality at longest follow-up" (primary), mechanical ventilator duration and free days, vasopressor-free days, patients on renal replacement therapy, renal replacement free days, cost benefit, and quality of life scores. Evidence certainty and risk of bias were evaluated using Grading of Recommendations Assessment, Development and Evaluation and the Cochrane Risk of Bias tool. A random-effects models was used. Post hoc subgroup analysis looked separately at studies comparing hypoxemia versus normoxemia and normoxemia versus hyperoxemia.
Data synthesis: data from eight trials (4,415 participants) were analyzed. Comparing higher and lower oxygen targets, there was no difference in mortality (odds ratio, 0.95; 95% CI, 0.74-1.22), but heterogeneous and overlapping target ranges limit the validity and clinical relevance of this finding. Data from seven studies (n = 4,245) demonstrated targeting normoxemia compared with hyperoxemia may reduce mortality at longest follow-up (0.73 [0.57-0.95]) but this estimate had very low certainty. There was no difference in mortality between targeting relative hypoxemia or normoxemia (1.20 [0.83-1.73]).
Conclusions: this systematic review and meta-analysis identified possible increased mortality with liberal oxygen targeting strategies and no difference in morbidity between high or low oxygen targets in mechanically ventilated adults. Findings were limited by substantial heterogeneity in study methodology and further research is urgently required to define optimal oxygen therapy targets.
Cumpstey, Andrew F.
050a389c-f550-4453-a80a-f1a6e57db923
Oldman, Alex H.
118c54fc-4573-44c0-8351-03221c3de3fd
Martin, Daniel S.
3e441b48-9221-4308-8ae6-49cbde20753f
Smith, Andrew
fa6e8c93-9eb5-45a0-99c1-ff09c1c2a4b6
Grocott, Michael P.W.
1e87b741-513e-4a22-be13-0f7bb344e8c2
April 2022
Cumpstey, Andrew F.
050a389c-f550-4453-a80a-f1a6e57db923
Oldman, Alex H.
118c54fc-4573-44c0-8351-03221c3de3fd
Martin, Daniel S.
3e441b48-9221-4308-8ae6-49cbde20753f
Smith, Andrew
fa6e8c93-9eb5-45a0-99c1-ff09c1c2a4b6
Grocott, Michael P.W.
1e87b741-513e-4a22-be13-0f7bb344e8c2
Cumpstey, Andrew F., Oldman, Alex H., Martin, Daniel S., Smith, Andrew and Grocott, Michael P.W.
(2022)
Oxygen targets during mechanical ventilation in the ICU: a systematic review and meta-analysis.
Critical Care Explorations, 4 (4), [e0652].
(doi:10.1097/CCE.0000000000000652).
Abstract
Objectives: patients admitted to intensive care often require treatment with invasive mechanical ventilation and high concentrations of oxygen. Mechanical ventilation can cause acute lung injury that may be exacerbated by oxygen therapy. Uncertainty remains about which oxygen therapy targets result in the best clinical outcomes for these patients. This review aims to determine whether higher or lower oxygenation targets are beneficial for mechanically ventilated adult patients.
Data sources: Excerpta Medica dataBASE, Medical Literature Analysis and Retrieval System Online, and Cochrane medical databases were searched from inception through to February 28, 2021.
Study selection: randomized controlled trials comparing higher and lower oxygen targets in adult patients receiving invasive mechanical ventilation via an endotracheal tube or tracheostomy in an intensive care setting.
Data extraction: study setting, participant type, participant numbers, and intervention targets were captured. Outcome measures included "mortality at longest follow-up" (primary), mechanical ventilator duration and free days, vasopressor-free days, patients on renal replacement therapy, renal replacement free days, cost benefit, and quality of life scores. Evidence certainty and risk of bias were evaluated using Grading of Recommendations Assessment, Development and Evaluation and the Cochrane Risk of Bias tool. A random-effects models was used. Post hoc subgroup analysis looked separately at studies comparing hypoxemia versus normoxemia and normoxemia versus hyperoxemia.
Data synthesis: data from eight trials (4,415 participants) were analyzed. Comparing higher and lower oxygen targets, there was no difference in mortality (odds ratio, 0.95; 95% CI, 0.74-1.22), but heterogeneous and overlapping target ranges limit the validity and clinical relevance of this finding. Data from seven studies (n = 4,245) demonstrated targeting normoxemia compared with hyperoxemia may reduce mortality at longest follow-up (0.73 [0.57-0.95]) but this estimate had very low certainty. There was no difference in mortality between targeting relative hypoxemia or normoxemia (1.20 [0.83-1.73]).
Conclusions: this systematic review and meta-analysis identified possible increased mortality with liberal oxygen targeting strategies and no difference in morbidity between high or low oxygen targets in mechanically ventilated adults. Findings were limited by substantial heterogeneity in study methodology and further research is urgently required to define optimal oxygen therapy targets.
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Published date: April 2022
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Local EPrints ID: 486024
URI: http://eprints.soton.ac.uk/id/eprint/486024
ISSN: 2639-8028
PURE UUID: 9363dd4b-5938-45d3-a7ad-ff2d88b20ac5
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Date deposited: 05 Jan 2024 18:01
Last modified: 12 Nov 2024 02:44
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Author:
Andrew F. Cumpstey
Author:
Alex H. Oldman
Author:
Daniel S. Martin
Author:
Andrew Smith
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