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Bag-mask ventilation during intubation reduces severe hypoxemia

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Bag-mask ventilation not harmful, but is it beneficial?

Debate around the question of whether to use bag-mask ventilation in critically-ill patients has been limited by the lack of high-quality evidence on the risk of aspiration or on the benefits of this approach. This study found no evidence of an increase in the incidence of aspiration, despite using multiple measures to detect it, which provide some reassurance that manual ventilation during tracheal intubation is not likely to cause significant harm.

One significant limitation of this trial, however, is that it did not standardize the preoxygenation strategy across the two groups, so significantly more patients in the bag-mask group received bag-mask ventilation before induction. Median oxygen saturation before induction was the same in the two groups, but this does not rule out the possibility of differences in the arterial pressure of oxygen.

This study may not settle the question of whether to use bag-mask ventilation during tracheal intubation, but it provides strong suggestion that the practice is not harmful.

Patricia A. Kritek, MD, and Andrew M. Luks, MD, are with the division of pulmonary, critical care, and sleep medicine at the University of Washington in Seattle. These comments are adapted from their editorial accompanying the paper by Casey et al. (N Engl J Med. 2019 Feb 18. doi: 10.1056/NEJMe1900708). Dr. Luks declared personal fees from private industry outside the submitted work. Dr. Kritek reported having nothing to disclose.


 

FROM CCC48

Bag-mask ventilation during tracheal intubation may significantly improve oxygen saturation and reduce the risk of severe hypoxemia, according to data presented at the Critical Care Congress, sponsored by the Society of Critical Care Medicine.

face mask for oxygen in ICU ivan68/Getty Images

A multicenter study, published simultaneously in the Feb. 18 issue of the New England Journal of Medicine, randomized 401 critically-ill patients in the ICU who were undergoing tracheal intubation to receive either ventilation with a bag-mask device during induction for intubation or no ventilation.

The median lowest oxygen saturation between induction and 2 minutes after intubation was 96% in the bag-mask ventilated patients and 93% in the no-ventilation group, representing a 4.7% difference after adjusting for prespecified covariates (P = .01).

In a post-hoc analysis that adjusted for other factors such as the provision of preoxygenation, the preoxygenation device, pneumonia, and gastrointestinal bleeding, there was a 5.2% difference between the two groups in median lowest oxygen saturation, favoring the bag-mask group.

Bag-mask ventilation was also associated with almost a halving in the incidence of severe hypoxemia – defined as an oxygen saturation below 80% – compared with no-ventilation (10.9% vs. 22.8%; relative risk = 0.48). There was also a lower incidence of patients with an oxygen saturation below 90% and below 70% in the bag-mask ventilation group, compared with the no-ventilation group.

Overall, the median decrease in oxygen saturation from induction to the lowest point was 1% in the bag-mask group, and 5% in the no-ventilation group.

The study saw no effects of factors such as body-mass index, operator experience, or Acute Physiology and Chronic Health Evaluation (APACHE II) score. The patients had a median age of 60 years, about half had sepsis or septic shock, and close to 60% had hypoxemic respiratory failure as an indication for tracheal intubation.

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