Perioperative oxygen therapy in patients undergoing surgical procedures: an overview of systematic reviews and meta-analyses.

BACKGROUND: Perioperative oxygen administration has been proposed as a strategy to reduce postoperative complications. However, uncertainty exists as to which strategies are the most clinically effective. OBJECTIVES: To provide an overview on the effectiveness of perioperative oxygen therapy and formulate recommendations to inform clinical decision-making and research. METHODS: We followed the Preferred Reporting Items for Overviews of Reviews guidelines. We searched key databases for systematic reviews (from inception to September 2021) and randomised controlled trials (from April 2018 to March 2022) comparing perioperative oxygen strategies. Reviews with the most comprehensive coverage of literature were chosen as anchoring reviews. We assessed risk of bias for each anchoring review using the Risk of Bias in Systematic Reviews tool. We updated meta-analyses from anchoring reviews with data from recent randomised controlled trials and conducted subgroup analyses and meta-regression. We assessed the certainty of evidence using grading of recommendations assessment, development and evaluation framework and conducted trial sequential analysis. We used grading of recommendations assessment, development and evaluation informative statements to communicate our findings. Our advisory panel reviewed mapping of studies and interpretation of evidence. RESULTS: We identified 59 systematic reviews and selected 5 anchoring reviews. A high fraction of inspired oxygen may result in a slight reduction in surgical site infection compared with a low fraction of inspired oxygen (risk ratio 0.91, 95% confidence interval 0.78 to 1.05; risk difference 1.2% lower, 2.9% lower to 0.7% higher, low-certainty evidence). This effect may be modified by type of surgery, oxygen delivery method or study quality. The evidence suggests that a high fraction of inspired oxygen results in a large increase in the incidence of atelectasis (risk ratio 1.47, 95% confidence interval 1.20 to 1.79; risk difference 6.5% higher, 2.8% higher to 10.9% higher, low-certainty evidence) and may increase postoperative pulmonary complications slightly (risk ratio 1.06, 0.77 to 1.46; risk difference 1.1% higher, 4.1% lower to 8.2% higher) but the evidence is very uncertain. A high fraction of inspired oxygen may result in little to no difference in mortality, nausea and vomiting, and length of hospital stay. Postoperative high-flow nasal oxygen may reduce the need to escalate respiratory support compared with conventional oxygen therapy (risk ratio 0.61, 0.41 to 0.91; risk difference 7.8% lower, 11.7% lower to 1.8% lower) but the evidence is very uncertain. High-flow nasal oxygen may result in little to no difference in mortality and reintubation rate. Compared with conventional oxygen therapy, postoperative non-invasive ventilation may decrease postoperative pulmonary complications (risk ratio 0.62, 0.44 to 0.87; risk difference 12.2% lower, 18% lower to 4.2% lower) and probably results in a slight reduction in the incidence of acute respiratory distress syndrome (risk ratio 0.70, 0.53 to 0.93; risk difference 1.2% lower, 1.9% lower to 0.3% lower). Non-invasive ventilation results in little to no difference in mortality, pneumonia or reintubation rate. Grading of recommendations assessment, development and evaluation certainty in evidence was low for most outcomes. Trial sequential analysis revealed further studies are required to provide conclusive evidence on the effectiveness of perioperative oxygen therapy. CONCLUSIONS: There is no clear evidence that either a high or a low fraction of inspired oxygen improves outcomes in surgical patients. Existing evidence is insufficient for recommending routine use of non-invasive ventilation or high-flow nasal oxygen. FUTURE WORK: Future randomised controlled trials should stratify participants by type of surgery, anaesthesia technique and documented risk factors for postoperative complications, such as body mass index. STUDY REGISTRATION: This study is registered as PROSPERO CRD42021272361. FUNDING: This award was funded by the National Institute for Health and Care Research (NIHR) Health Technology Assessment programme (NIHR award ref: NIHR132987) and is published in full in ; Vol. 29, No. 44. See the NIHR Funding and Awards website for further award information. When patients undergo surgery, they are given oxygen as part of routine perioperative management to prevent dangerously low oxygen levels, although the optimum concentration remains unclear. Despite the uncertainties, some anaesthetists continue administering a very high oxygen concentration to reduce infections after the surgery. This practice is based on a recommendation from the World Health Organization, which is controversial. We do not know whether the extra oxygen is beneficial or more harmful to patients. In this study, we wanted to understand why, how and when we should give oxygen to patients. We also wanted to know the best way to provide the additional oxygen. We reviewed all the scientific evidence published about the benefits and harms of perioperative oxygen administration. We included the best types of scientific evidence available in our review. These types of studies are systemic reviews and randomised controlled trials. We looked at several different patient outcomes when giving additional oxygen. These included outcomes such as infection in the patient’s wound. We combined the data from all the studies to form the results of our review. We examined the results to find out whether a higher level of oxygen can do more harm or good. Our results show that a high level of oxygen during surgery may slightly reduce the chances that a patient develops an infection. However, high levels of oxygen also increase their chances of their lung collapsing. We also examined the ways in which patients receive oxygen. For example, a patient could receive oxygen through small tubes placed in the nose, or via a tight-fitting face mask. We also examined the quality of each study to see if they were high or low standard. We found that oxygen received through small tubes placed in the nose reduced the need for extra breathing support. Oxygen received through a tight-fitting face mask may reduce the breathing complications, but we are very uncertain about how much the decrease might be. Our findings will guide healthcare professionals to better look after patients having surgery and highlight what future research is needed.

Citation

Elfeky A, Chen YF, Grove A, Couper K, Court R, Tomassini S, Wilson A, Hooper A, Buckle A, Vadeyar S, Thompson M, Uthman O, Yeung J. Perioperative oxygen therapy in patients undergoing surgical procedures: an overview of systematic reviews and meta-analyses. Health Technol Assess. 2025 Sep;29(44):1-139. doi: 10.3310/TNTC4360.

Type

Journal Article