Kayton Allyson, Timoney Paula, Vargo Lyn, Perez Jose A
Mallinckrodt Pharmaceuticals, Hampton, New Jersey (Ms Kayton); Neonatal Nurse Practitioner Program, Stony Brook University, Stony Brook, New York (Dr Timoney); Neonatal Nurse Practitioner Program, University of Missouri-Kansas City (Dr Vargo); Neonatal Nurse Practitioner Program, Stony Brook University, Stony Brook, New York (Dr Vargo); and Neonatology-Perinatal Medicine, Orlando Health, Orlando, Florida (Dr Perez).
Adv Neonatal Care. 2018 Apr;18(2):98-104. doi: 10.1097/ANC.0000000000000434.
Although oxygen is the most widely used therapeutic agent in neonatal care, optimal oxygen management remains uncertain.
We reviewed oxygen physiology and balance, key studies evaluating oxygen saturation targets, and strategies for oxygen use in the neonatal intensive care unit.
Oxygen is a potent vasodilator involved in the transition at birth to breathing. Supplemental oxygen is administered to reverse/prevent hypoxia; however, excessive oxygen can be toxic owing to the formation of reactive oxygen species. Current neonatal resuscitation guidelines recommend using room air for term infants in need of support, with titration to achieve oxygen saturation levels similar to uncompromised term infants. In premature infants, targeting a higher oxygen saturation range (eg, 91%-95%) may be safer than targeting a lower range (eg, 85%-89%), but more evidence is needed. In combined analyses, lower oxygen saturation levels increased mortality, suggesting that the higher target may be safer, but higher targets are associated with an increased risk of developing disorders of oxidative stress.
Need for supplemental oxygen should be assessed according to the American Heart Association guidelines. If appropriate, oxygen should be administered using room air, with the goal of preventing hypoxia and avoiding hyperoxia. Use of oximeter alarms may help achieve this goal. Pulmonary vasodilators may improve oxygenation and reduce supplemental oxygen requirements.
Implementation of wider target ranges for oxygen saturation may be more practical and lead to improved outcomes; however, controlled trials are necessary to determine the impact on mortality and disability.
尽管氧气是新生儿护理中使用最广泛的治疗剂,但最佳的氧气管理仍不确定。
我们回顾了氧气生理学和平衡、评估氧饱和度目标的关键研究以及新生儿重症监护病房中氧气使用的策略。
氧气是一种强效血管扩张剂,参与出生时向呼吸的转变。给予补充氧气以逆转/预防缺氧;然而,由于活性氧的形成,过量氧气可能有毒。当前的新生儿复苏指南建议对需要支持的足月儿使用室内空气,并进行滴定以达到与健康足月儿相似的氧饱和度水平。对于早产儿,将较高的氧饱和度范围(例如,91%-95%)作为目标可能比较低的范围(例如,85%-89%)更安全,但还需要更多证据。在综合分析中,较低的氧饱和度水平会增加死亡率,这表明较高的目标可能更安全,但较高的目标与发生氧化应激障碍的风险增加有关。
应根据美国心脏协会指南评估是否需要补充氧气。如果合适,应使用室内空气给予氧气,目标是预防缺氧并避免高氧。使用血氧饱和度仪警报可能有助于实现这一目标。肺血管扩张剂可能会改善氧合并减少补充氧气的需求。
实施更宽的氧饱和度目标范围可能更具实用性并能改善结局;然而,需要进行对照试验来确定对死亡率和残疾的影响。