Hyperoxic damage and the need for optimised oxygenation practices

article questioning the use of supplemental oxygen in medical emergencies. ey raise the issue that although high-dose oxygen is the initial management for many conditions, data that hyperoxia may produce harmful eff ects continue to accumulate [1,2]. Additional to the poorer outcomes presented by the authors [1], increased mortality and morbidity are also seen in traumatic brain injury, asphyxiated neonates and cardiopulmonary bypass [2]. Clearly this is not only an issue for emergency care, but any area of medicine where supranormal oxygen tensions are experienced. In the critical care setting, use of extracorporeal life support devices such as extracorporeal membrane oxygenation for cardiorespiratory support may expose patients to unprecedented partial pressures of oxygen (even far above mechanical venti lation) [3,4]. Current practice is largely based on optimal oxygenation being unknown and instead adopts the assumption that maximal oxygenation is of maximal benefi t [1,2]. However, oxygen in excess to normal physiology has the potential to disrupt homeostasis and cause adverse eff ects. In order to establish best practice for oxygen supple mentation a practice deeply ingrained in current medical techniques clinical outcomes and pathophysiological mechanisms for hyperoxic damage need to be delineated. e authors raise the ethical issue of randomized clinical trials to test hyperoxia outcomes versus normoxia (as everything to date is retrospective analysis of outcomes). Although these data would be valuable in considering change, we present animal models as a more appropriate initial study to test the eff ects of hyperoxia before progressing to clinical studies [2,4,5].