Tavarez Tachira, Roehl Kelly, Koffman Lauren
Department of Neurologic Sciences, Rush University Medical Center, 1725 West Harrison Street Professional Office Building, Suite 1106, Chicago, IL USA.
Department of Food and Nutrition, Rush University Medical Center, Chicago, IL USA.
Curr Treat Options Neurol. 2021;23(5):16. doi: 10.1007/s11940-021-00670-8. Epub 2021 Mar 31.
This review presents the most current recommendations for providing nutrition to the neurocritical care population. This includes updates on initiation of feeding, immunonutrition, and metabolic substrates including ketogenic diet, cerebral microdialysis (CMD) monitoring, and the microbiome.
Little evidence exists to support differences in feeding practices among the neurocritical care population. New areas of interest with limited data include use of immunonutrition, pre/probiotics for microbiome manipulation, ketogenic diet, and use of CMD catheters for substrate utilization monitoring.
Acute neurologic injury incites a cascade of adrenergic and neuroendocrine events resulting in a pro-inflammatory and hypercatabolic state, which is associated with an increase in morbidity and mortality. Nutritional support provides substrates to mitigate the damaging effects of hypermetabolism. Despite this practice, studies on feeding delivery outcomes remain inconsistent. Guidelines suggest use of early enteral nutrition using standard polymeric formulas. Population heterogeneity, variability in interventions, complexities of the metabolic and inflammatory responses, and paucity of nutrition research in patients requiring neurocritical care have led to controversies in the field. It is imperative that more pragmatic and reproducible research be conducted to better understand underlying pathophysiology and develop interventions that may improve outcomes.
本综述介绍了为神经重症监护患者提供营养的最新建议。这包括喂养起始、免疫营养以及代谢底物(包括生酮饮食)、脑微透析(CMD)监测和微生物群方面的更新内容。
几乎没有证据支持神经重症监护患者在喂养方式上存在差异。数据有限的新关注领域包括免疫营养的使用、用于调节微生物群的益生元/益生菌、生酮饮食以及使用CMD导管监测底物利用情况。
急性神经损伤引发一系列肾上腺素能和神经内分泌事件,导致促炎和高分解代谢状态,这与发病率和死亡率增加相关。营养支持提供底物以减轻高代谢的破坏作用。尽管有这种做法,但关于喂养效果的研究结果仍不一致。指南建议使用标准聚合配方进行早期肠内营养。人群异质性、干预措施的变异性、代谢和炎症反应的复杂性以及神经重症监护患者营养研究的匮乏导致了该领域的争议。必须开展更务实且可重复的研究,以更好地理解潜在病理生理学并开发可能改善预后的干预措施。
