Intensive Care Unit, Pasteur 2 Hospital, CNRS UMR 7275.
Intensive Care Unit, Pasteur 2 Hospital, IRCAN (INSERM U1081, CNRS UMR 7284), NICE Cédex, University hospital of Nice, Nice, France.
Curr Opin Crit Care. 2019 Apr;25(2):126-131. doi: 10.1097/MCC.0000000000000588.
Energy dysfunction is increasingly recognized as a key factor in the pathogenesis of acute brain injury (ABI). This one characterized by a high metabolic rate and nitrogen loss is often associated with an undernutrition support. We review the metabolism evolution and nutritional status in brain injured patient and summarize evidence on nutritional support in this condition.
The role of nutrition support for improving prognosis in brain injured patient has been underlined recently. A fast nutrition institution whatever the route is essential to prevent an imbalance in caloric support. Moreover, hypermetabolic state must be prevented with a sufficient nitrogen support. Glycemic control is particularly relevant in this group of patient, with the discovery of new fuel that could potentially improve cerebral metabolism and replace glucose. Few data support also the use of immunonutrition input in this group of patients.
Nutritional support is a key parameter in brain injured patient and must be initiated quickly to counteract hypermetabolic state by caring to improve caloric and nitrogen input. Recent clinical data support the use of immunonutrition, glutamine and zinc in this particular setting.
能量功能障碍日益被认为是急性脑损伤(ABI)发病机制中的一个关键因素。这种以高代谢率和氮丢失为特征的疾病常伴有营养支持不足。我们综述了脑损伤患者的代谢变化和营养状况,并总结了该情况下营养支持的证据。
最近强调了营养支持对改善脑损伤患者预后的作用。无论途径如何,快速进行营养干预对于防止热量支持失衡至关重要。此外,必须通过充足的氮支持来预防代谢亢进状态。血糖控制在这组患者中尤为重要,因为人们发现了新的燃料,这些燃料可能有助于改善大脑代谢并替代葡萄糖。也有一些数据支持在这组患者中使用免疫营养物质。
营养支持是脑损伤患者的关键参数,必须迅速启动,通过关注改善热量和氮的输入来对抗代谢亢进状态。最近的临床数据支持在这种特殊情况下使用免疫营养、谷氨酰胺和锌。