Division of Pulmonary, Allergy and Critical Care Medicine, Department of Medicine, University of Alabama at Birmingham, Birmingham, Alabama.
Division of Trauma and Acute Care Surgery, Department of Surgery, University of Alabama at Birmingham, Birmingham, Alabama.
Shock. 2024 Nov 1;62(5):633-643. doi: 10.1097/SHK.0000000000002419. Epub 2024 Jul 16.
Background : Trauma and blood loss are frequently associated with organ failure, immune dysfunction, and a high risk of secondary bacterial lung infections. We aim to test if plasma metabolomic flux and monocyte bioenergetics are altered in association with trauma and related secondary infections. Methods : Plasma samples were collected from trauma patients at three time points: days 0, 3, and 7 postadmission. Metabolites (140) were measured in plasma from trauma survivors ( n = 24) and healthy control individuals (HC, n = 10). Further analysis within the trauma cohort included subsets of trauma/infection-negative (TIneg, n = 12) and trauma/infection-positive patients (TIpos, n = 12). The bioenergetic profile in monocytes was determined using mitochondrial and glycolytic stress tests. Results : In the trauma cohort, significant alterations were observed in 29 metabolites directly affecting 11 major metabolic pathways, while 34 metabolite alterations affected 8 pathways in 9, versus TIneg patients. The most altered metabolic pathways included protein synthesis, the urea cycle/arginine metabolism, phenylalanine, tyrosine, tryptophan biosynthesis, and carnitine compound family. In monocytes from trauma patients, reduced mitochondrial indices and loss of glycolytic plasticity were consistent with an altered profile of plasma metabolites in the tricarboxylic acid cycle and glycolysis. Conclusions : Our study highlights that the metabolic profile is significantly and persistently affected by trauma and related infections. Among trauma survivors, metabolic alterations in plasma were associated with reduced monocyte bioenergetics. These exploratory findings establish a groundwork for future clinical studies aimed at enhancing our understanding of the interplay between metabolic/bioenergetic alterations associated with trauma and secondary bacterial infections.
创伤和失血通常与器官衰竭、免疫功能障碍以及二次细菌性肺部感染的高风险相关。我们旨在检验创伤及其相关继发感染是否会改变血浆代谢组学通量和单核细胞生物能学。
创伤患者在入院后第 0、3 和 7 天采集 3 个时间点的血浆样本。从创伤幸存者(n=24)和健康对照个体(HC,n=10)的血浆中测量代谢物(140 种)。在创伤队列内的进一步分析中,包括创伤/感染阴性(TIneg,n=12)和创伤/感染阳性患者(TIpos,n=12)的亚组。使用线粒体和糖酵解应激测试来确定单核细胞的生物能学特征。
在创伤队列中,直接影响 11 个主要代谢途径的 29 种代谢物发生显著改变,而 34 种代谢物改变影响了 9 个途径中的 8 个途径,与 TIneg 患者相比。受影响最大的代谢途径包括蛋白质合成、尿素循环/精氨酸代谢、苯丙氨酸、酪氨酸、色氨酸生物合成和肉碱化合物家族。在创伤患者的单核细胞中,线粒体指数降低和糖酵解可塑性丧失与三羧酸循环和糖酵解中血浆代谢物特征的改变一致。
我们的研究表明,代谢谱显著且持续地受到创伤和相关感染的影响。在创伤幸存者中,血浆代谢物的改变与单核细胞生物能学降低有关。这些探索性发现为未来旨在增强我们对创伤和继发性细菌感染相关代谢/生物能学改变相互作用的理解的临床研究奠定了基础。
