Minimum level of oxygen required during cardiopulmonary bypass “may be lower than previously thought”


Researchers have found that the minimum level of oxygen delivery during cardiopulmonary bypass may be lower than previously thought—meaning, they say, that there may be opportunities to avoid transfusing patients during cardiac surgical procedures.

“Cardiac surgery uses the most blood of any service in the hospital, and our research shows that prior analytical approaches may have identified falsely low thresholds for oxygen delivery,” said Donald Likosky (University of Michigan, Michigan, USA), senior author of the study published in Annals of Thoracic Surgery.

“As such, cardiac surgical programs may be unnecessarily transfusing patients to prevent kidney injury. Blood is a scarce resource, and transfusion comes with its own associated harm and risk of negative outcomes. Existing oxygen delivery thresholds that are disseminated by industry and used to design clinical trials may be too high and, thus, may be associated with potentially unnecessary interventions, including blood transfusions.”

Cardiopulmonary bypass temporarily takes over for the heart and lungs during an operation, but has been linked to an elevated risk of kidney injury, including requirement for dialysis. This can lead to more time spent in the hospital and, in some cases, death. Past research has shown that lower levels of oxygen delivery during cardiopulmonary bypass (around 275mL/min/m2) are associated with an elevated risk of kidney injury.

Investigators reviewed cases of nearly 4,000 patients undergoing full cardiopulmonary bypass between May 2016 and the end of 2021. Of those patients, 29% developed postoperative kidney injury, and 7% had moderate to severe kidney injury.

Using risk-adjusted analyses, the research team found that the minimum oxygen delivery threshold to predict increased risk of acute kidney injury was 231mL/min/m2, which was lower than the 275mL/min/m2 commonly reported in past studies. Additionally, the minimum threshold for risk of moderate to severe kidney injury was 103mL/min/m2.

These results suggest there is no one number for oxygen delivery where a patient’s risk of kidney injury suddenly increases; instead, the amount of oxygen delivered is inversely associated with injury risk, says David Sturmer, co-first author of the paper.

“Clinicians have long used the previous oxygen thresholds to guide treatment during an operation through a process commonly termed ‘goal-directed perfusion.’ Our results suggest patients may tolerate lower oxygen delivery during cardiopulmonary bypass than previously thought before developing acute kidney injury,” said Sturmer.

“This may have several impacts on patient management strategies, including the use of blood transfusions.”

The findings, researchers say, present an opportunity for stakeholders from the clinical and research worlds to collaborate on creating optimal management strategies to address low oxygen delivery among cardiac surgery patients.

“There is still so much work to be done to alleviate postoperative complications of cardiac surgery,” said Chi Chi Do-Nguyen, the paper’s co-first author.

“A multidisciplinary approach is crucial in advancing research within this field and making change. The merging of perfusion and surgical data, within the context of a multidisciplinary quality improvement program, provides an unparalleled opportunity to advance the care and outcomes for cardiac surgical patients.”


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