Diagnostic Accuracy of NT-ProBNP for Heart Failure with Sepsis in Patients Younger than 18 Years

This clinical study investigated plasma NT-proBNP levels as a potential predictor of heart failure in pediatric patients with sepsis. Plasma NT-ProBNP levels of 211 pediatric patients with sepsis and 126 healthy children were measured. Patients were stratified as with heart failure (HF) or without heart failure (non-HF). Patients were graded as having sepsis, severe sepsis, or septic shock. The optimal cut-off values of plasma NT-ProBNP for heart failure were determined by analyzing the receiver operating characteristic (ROC). In the HF, non-HF and control groups, the median plasma NT-proBNP levels were 3640, 656, and 226 ng/L, respectively. For all patients with sepsis, the optimal diagnostic cut-off value was 1268 ng/L for differentiating heart failure. In the severe sepsis patients and septic shock patients, the optimal diagnostic cut-off values were 1368 ng/L and 1525 ng/L, respectively. This report is the first one to reveal that NT-proBNP may predict heart failure in children with sepsis. It provides an important clinical reference for the diagnosis of heart failure in pediatric patients with sepsis, and enables monitoring septic children for cardiac involvement.     

Promising therapeutic agents for sepsis

The incidence of sepsis is expected to increase at a rate of 1.5% per year. Advances in our understanding of the sepsis syndrome have enabled researchers to identify new therapeutic targets and design therapies for existing mediators of sepsis. Drotrecogin alfa (activated) was the first biological treatment for serious sepsis approved by the Food and Drug Administration in 2001. There have also been promising research results involving ethyl pyruvate, glycogen synthase kinase-3 inhibitors and 3-hydroxy-3-methylglutaryl coenzyme A reductase inhibitors. Here, we review these four compounds and compound classes as examples of emerging pharmacological treatments of severe sepsis and describe the current status of sepsis research.     

Plasma Proteome Signature of Sepsis: a Functionally Connected Protein Network

Sepsis is an extreme host response to infection that leads to loss of organ function and cardiovascular integrity. Mortality from sepsis is on the rise. Despite more than three decades of research and clinical trials, specific diagnostic and therapeutic strategies for sepsis are still absent. The use of LFQ‐ and TMT‐based quantitative proteomics is reported here to study the plasma proteome in five mouse models of sepsis. A knowledge‐based interpretation of the data reveals a protein network with extensive connectivity through documented functional or physical interactions. The individual proteins in the network all have a documented role in sepsis and are known to be extracellular. The changes in protein abundance observed in the mouse models of sepsis have for the most part the same directionality (increased or decreased abundance) as reported in the literature for human sepsis. This network has been named the Plasma Proteome Signature of Sepsis (PPSS). The PPSS is a quantifiable molecular readout that can supplant the current symptom‐based approach used to diagnose sepsis. This type of molecular interpretation of sepsis, its progression, and its response to therapeutic intervention are an important step in advancing our understanding of sepsis, and for discovering and evaluating new therapeutic strategies.     

IL-27 和PCT 联合检测在不同分型的脓毒症危重患者中的诊断价值

目的：探讨白细胞介素-27（Interleukin 27,IL-27）对成人全身炎症反应综合征（systemic inflammatory response syndrome, SIRS）和脓毒症的诊断价值。方法：214 例SIRS患者按入院诊断结果及感染源不同分为非脓毒症组（n＝80）、肺源性脓毒症组（n＝ 73）和非肺源性脓毒症组（n＝ 61）。采用酶联免疫吸附试验（ELISA）检测各组患者血清IL-27 和降钙素原（PCT）水平;绘制受试者 工作特征曲线（ROC）,判断各指标的诊断价值,分析各生物标志物的性能,判断潜在的预测变量。结果：肺源性脓毒症患者体温符 合SIRS 标准的比例为65.8%,明显高于非脓毒症患者（45.0%）及非肺源性脓毒症患者（45.9%）（P ＜ 0.05）;非肺源性脓毒症患者白 细胞数符合SIRS标准的比例为68.9%,明显高于非脓毒症患者42.5%,（P ＜ 0.05）。确诊脓毒症后的患者血清IL-27 的AUC 为 0.655,PCT的AUC 为0.649。根据不同感染源进一步分析,肺源性和非肺源性脓毒症患者血清IL-27 水平明显高于非脓毒症患 者,肺源性和非肺源性脓毒症患者PCT 水平明显高于非脓毒症患者（P＜0.01）。ROC曲线分析发现,肺源性和非肺源性脓毒症患 者血清IL-27 的AUC分别为0.657 和0.652,肺源性和非肺源性脓毒症患者PCT 的AUC 为0.667 和0.629。分别联合检测三组患 者的血清IL-27 和PCT值,肺源性脓毒症患者的AUC为0.728,非肺源性脓毒症患者的AUC 为0.703。对肺源性脓毒症患者与非 肺源性脓毒症患者诊断的准确性均有所提升。结论：肺源性和非肺源性脓毒症患者较非脓毒症患者更加符合SIRS 标准。IL-27 作 为脓毒症诊断的生物标志物,对病情变化的反应不敏感,而IL-27 和PCT 结合可以使诊断的准确性提高。     

Selective macrophage suppression during sepsis

Polymicrobial sepsis induces suppression of macrophage function as determined by a reduction of pro-inflammatory cytokine production upon re-exposure to lipopolysaccharide (LPS) in vitro. We examined whether macrophages were refractory to only LPS challenge or if they were immunoparalyzed and unable to respond to other stimuli such as lipoteichoic acid (LTA) or zymosan (ZYM). This study evaluated the capacity of peritoneal macrophages to produce pro-inflammatory and anti-inflammatory cytokines as well as chemokines following mild or severe sepsis induced by cecal ligation and puncture (CLP). Peritoneal macrophages were isolated 29 h after CLP and challenged with different stimuli. LPS was a more potent stimulus for cytokine induction than LTA or ZYM in both mild and severe sepsis. In mild sepsis, the macrophage cytokine response to LPS was selective and less refractory than in severe sepsis. While production of IL-6 and KC was reduced, secretion of TNF-alpha and MIP-1alpha was enhanced in those cells isolated from mice with mild sepsis. Production of IL-10 and the IL-1 receptor antagonist , MIP-2, and MCP-1 in response to LPS stimulation was equivalent to the amount produced by naive macrophages. Our results indicate that macrophages are not immunoparalyzed during sepsis and may still be induced to secrete some inflammatory mediators.     

重症监护室烧伤感染患者脓毒症的病原菌分布及影响因素研究

目的:探讨重症监护室(ICU)烧伤感染患者脓毒症的发生情况及病原菌分布,并分析其危险因素,为防治ICU烧伤感染患者脓毒症提供理论依据。方法:收集我院2016年7月-2019年7月期间的86例ICU烧伤感染患者的临床资料,依据是否发生脓毒症,将其分为脓毒症组和非脓毒症组,比较两组的基本资料等情况,分析ICU烧伤感染患者脓毒症的发生率及病原菌分布,并分析ICU烧伤感染患者脓毒症发生的影响因素。结果:86例ICU烧伤感染患者中有33例发生脓毒症,发生率为38.37%;ICU烧伤感染患者脓毒症病原菌主要是革兰阴性杆菌(占54.55%),其次是革兰阳性球菌(占42.42%);单因素结果分析发现,烧伤至入院时间、合并糖尿病、吸入性损伤、首次手术时间以及烧伤面积与ICU烧伤感染患者脓毒症的发生有关(P<0.05);多因素Logistic回归分析发现,首次手术时间>2d、TBSA>50%是ICU烧伤感染患者脓毒症发生的独立危险因素(P<0.05)。结论:ICU烧伤感染患者易发生脓毒症,首次手术时间>2d以及TBSA>50%是其发生的独立危险因素,临床应采取针对性预防措施,以降低ICU烧伤感染患者脓毒症发生率。     

Bacterial virulence plays a crucial role in MRSA sepsis

Bacterial sepsis is a major global cause of death. However, the pathophysiology of sepsis has remained poorly understood. In industrialized nations, Staphylococcus aureus represents the pathogen most commonly associated with mortality due to sepsis. Because of the alarming spread of antibiotic resistance, anti-virulence strategies are often proposed to treat staphylococcal sepsis. However, we do not yet completely understand if and how bacterial virulence contributes to sepsis, which is vital for a thorough assessment of such strategies. We here examined the role of virulence and quorum-sensing regulation in mouse and rabbit models of sepsis caused by methicillin-resistant S. aureus (MRSA). We determined that leukopenia was a predictor of disease outcome during an early critical stage of sepsis. Furthermore, in device-associated infection as the most frequent type of staphylococcal blood infection, quorum-sensing deficiency resulted in significantly higher mortality. Our findings give important guidance regarding anti-virulence drug development strategies for the treatment of staphylococcal sepsis. Moreover, they considerably add to our understanding of how bacterial sepsis develops by revealing a critical early stage of infection during which the battle between bacteria and leukocytes determines sepsis outcome. While sepsis has traditionally been attributed mainly to host factors, our study highlights a key role of the invading pathogen and its virulence mechanisms.     

以线粒体通透性转换孔为靶点的脓毒症器官功能保护研究进展

脓毒症是由宿主对感染的反应失调引起的危及生命的器官功能障碍.对于脓毒症的治疗主要是抗感染、抗休克、维持机体组织器官灌注等.但近年来,在对脓毒症诱导的组织器官功能障碍的研究中发现,脓毒症时出现多器官功能障碍的原因不仅在于组织器官的缺血缺氧,而且与线粒体通透性转换孔(mitochondrial permeability t...     

Sepsis-induced alterations in sleep of rats

Sepsis is a systemic immune response to infection that may result in multiple organ failure and death. Polymicrobial infections remain a serious clinical problem, and in the hospital, sepsis is the number-one noncardiac killer. Although the central nervous system may be one of the first systems affected, relatively little effort has been made to determine the impact of sepsis on the brain. In this study, we used the cecal ligation and puncture (CLP) model to determine the extent to which sepsis alters sleep, the EEG, and brain temperature (Tbr) of rats. Sepsis increases the amount of time rats spend in non-rapid eye movement sleep (NREMS) during the dark period, but not during the light period. Rapid eye movements sleep (REMS) of septic rats is suppressed for about 24 h following CLP surgery, after which REMS increases during dark periods for at least three nights. The EEG is dramatically altered shortly after sepsis induction, as evidenced by reductions in slow-frequency components. Furthermore, sleep is fragmented, indicating that the quality of sleep is diminished. Effects on sleep, the EEG, and Tbr persist for at least 84 h after sepsis induction, the duration of our recording period. Immunohistochemical assays focused on brain stem mechanisms responsible for alterations in REMS, as little information is available concerning infection-induced suppression of this sleep stage. Our immunohistochemical data suggest that REMS suppression after sepsis onset may be mediated, in part, by the brain stem GABAergic system. This study demonstrates for the first time that sleep and EEG patterns are altered during CLP-induced sepsis. These data suggest that the EEG may serve as a biomarker for sepsis onset. These data also contribute to our knowledge of potential mechanisms, whereby infections alter sleep and other central nervous system functions.     

Cytokines in sepsis due to Candida albicans and in bacterial sepsis.

Cytokines, such as tumor necrosis factor-alpha (TNF-alpha), interleukin-6 (IL-6) and tumor necrosis factor-soluble receptor (TNF-sR), and adhesion molecules, e.g. vascular adhesion molecule-1 (VCAM-1) and E-selectin, play an important role in the pathogenesis of bacterial sepsis. Experimental data on cytokine expression during candidaemia are controversial. In this study, plasma concentrations of cytokines and adhesion molecules were compared between patients with sepsis due to Candida albicans and bacterial sepsis. Plasma levels of TNF-alpha, TNF-sR, IL-6, VCAM-1 and E-selectin, were determined in 20 patients with sepsis due to C. albicans, in 20 patients with bacterial sepsis, and in 20 controls on days 1, 7 and 14. On day 1, elevated plasma levels of TNF-alpha, TNF-sR and IL-6 were detected in both sepsis groups compared to controls. On day 1, VCAM-1 levels were higher, and E-selectin levels were lower in patients with Candida sepsis than in patients with bacterial sepsis (p < 0.05). At any time, VCAM-1 levels were significantly greater in patients with Candida sepsis than in patients with bacterial sepsis (p < 0.05). Non-survivors, regardless of the etiology of sepsis, had higher blood levels of IL-6, TNF-sR and E-selectin than survivors. The cytokines, TNF-alpha, IL-6 and TNF-sR, and the adhesion molecules, VCAM-1 and E-selectin, are involved in sepsis due to C. albicans as in bacterial sepsis.     

Early Prediction of Sepsis Incidence in Critically Ill Patients Using Specific Genetic Polymorphisms

Several diagnostic methods for the evaluation and monitoring were used to find out the pro-inflammatory status, as well as incidence of sepsis in critically ill patients. One such recent method is based on investigating the genetic polymorphisms and determining the molecular and genetic links between them, as well as other sepsis-associated pathophysiologies. Identification of genetic polymorphisms in critical patients with sepsis can become a revolutionary method for evaluating and monitoring these patients. Similarly, the complications, as well as the high costs associated with the management of patients with sepsis, can be significantly reduced by early initiation of intensive care.     

Prognostic and pathogenic role of CXC motif ligand 16 in sepsis

Chemokine CXC motif ligand 16 (CXCL16) is an important mediator that has been shown to participate in various human diseases. The role of CXCL16 in the immunopathology of sepsis remains unidentified. In this study, we found that human patients with sepsis had significantly higher soluble levels of serum CXCL16 than healthy volunteers on day of intensive care unit (ICU) admission. Soluble CXCL16 remained significantly up-regulated in the patients with sepsis, which correlated with disease severity. Furthermore, nonsurvivors displayed significantly higher admission levels of soluble CXCL16 compared with survivors of septic patients. Soluble CXCL16 levels revealed significant prognostic value for 28-day mortality, and CXCL16 was shown to be an independent predictor of 28-day mortality in the patients with sepsis. In a murine model of cecal ligation and puncture (CLP)-induced nonsevere sepsis, supplementation of recombinant CXCL16 protein could increase sepsis-induced mortality and tissue injury. Conversely, neutralizing CXCL16 by anti-CXCL16 monoclonal antibody could decrease mortality and tissue injury in CLP-induced severe sepsis. However, CXCL16 did not affect the ability of these mice to clear bacteria in CLP. Taken together, CXCL16 could be related to sepsis not only as a novel biomarker of prognosis, but also as a potential target for therapeutic intervention.     

Angiopoietin-1, Angiopoietin-2 and Bicarbonate as Diagnostic Biomarkers in Children with Severe Sepsis

Severe pediatric sepsis continues to be associated with high mortality rates in children. Thus, an important area of biomedical research is to identify biomarkers that can classify sepsis severity and outcomes. The complex and heterogeneous nature of sepsis makes the prospect of the classification of sepsis severity using a single biomarker less likely. Instead, we employ machine learning techniques to validate the use of a multiple biomarkers scoring system to determine the severity of sepsis in critically ill children. The study was based on clinical data and plasma samples provided by a tertiary care center''s Pediatric Intensive Care Unit (PICU) from a group of 45 patients with varying sepsis severity at the time of admission. Canonical Correlation Analysis with the Forward Selection and Random Forests methods identified a particular set of biomarkers that included Angiopoietin-1 (Ang-1), Angiopoietin-2 (Ang-2), and Bicarbonate (HCO) as having the strongest correlations with sepsis severity. The robustness and effectiveness of these biomarkers for classifying sepsis severity were validated by constructing a linear Support Vector Machine diagnostic classifier. We also show that the concentrations of Ang-1, Ang-2, and HCO enable predictions of the time dependence of sepsis severity in children.     

Relationship of taurine and other amino acids in plasma and in neutrophils of septic trauma patients

Summary. Recently, an interdependency of plasma taurine and other amino acids as well as metabolic and clinical variables implicating therapeutic options was reported. This result may be an indication that plasma taurine levels are directly related to intracellular levels. Therefore, the aim of this study was to analyse the possible relationship between taurine levels in plasma and in neutrophils, the relationship to other amino acids, and variables quantifying metabolic impairment and severity of sepsis in multiple trauma patients developing sepsis. After multiple trauma taurine decreased significantly in plasma in thirty-two patients as well as within the neutrophil and does not recover in sepsis. Lower individual levels in the neutrophil did not follow lower individual levels in plasma and no correlation of taurine in plasma and in the neutrophils could be observed. In sepsis, only plasma showed an interdependency of taurine, aspartate, and glutamate. No association between taurine plasma or intracellular levels and SOFA score as indicator for severity of sepsis or metabolic variables was observed. After multiple trauma and in sepsis, taurine uptake in cells (which is regulated in different ways), and intracellular taurine (which serves e.g. as an osmolyte) can be influenced. Therefore a prediction of the neutrophil taurine pool seems not fully possible from taurine plasma levels. Intracellular taurine has some unique properties explaining the missing interdependency despite some similarities in osmoregulation and metabolic interactions to other amino acids. The association of taurine, aspartate, and glutamate in plasma cannot be simply transferred to the neutrophils intracellular level. The clinical meaning of the plasma correlation remains unclear. A dependency of plasma and neutrophil taurine to severity of sepsis and to metabolic variables seems not possible because of the multifactorial pathophysiology of sepsis.     

Modeling sepsis in the laboratory: merging sound science with animal well-being

Despite impressive advances in biomedical research, few noteworthy breakthroughs have been made in the treatment of sepsis during the past several decades. This stalemate is primarily due to the intricate and heterogenic nature of the systemic immune responses characterized as the sepsis syndrome. In general, such complexity must be approached with in vivo models. Several animal models have been described, suggesting that none adequately address all of the pressing needs in sepsis research. The most clinically applicable models involve a localized infection, such as surgically induced polymicrobial sepsis, that gradually propagates a systemic immune response. Because relevant models must mimic a severe and chronic syndrome, animal well-being is often a concern in sepsis research. A balance between the needs of sepsis research and animal welfare can only be achieved through knowledge of the strengths and weaknesses of and alternatives to in vivo sepsis models.     

High Density Lipoprotein Protects against Polymicrobe-induced Sepsis in Mice

HDL has been considered to be a protective factor in sepsis; however, most contributing studies were conducted using the endotoxic animal model, and evidence from clinically relevant septic animal models remains limited and controversial. Furthermore, little is known about the roles of HDL in sepsis other than LPS neutralization. In this study, we employed cecal ligation and puncture (CLP), a clinically relevant septic animal model, and utilized apoA-I knock-out (KO) and transgenic mice to elucidate the roles of HDL in sepsis. ApoA-I-KO mice were more susceptible to CLP-induced septic death as shown by the 47.1% survival of apoA-I-KO mice versus the 76.7% survival of C57BL/6J (B6) mice (p = 0.038). ApoA-I-KO mice had exacerbated inflammatory cytokine production during sepsis compared with B6 mice. Further study indicated that serum from apoA-I-KO mice displayed less capacity for LPS neutralization compared with serum from B6 mice. In addition, apoA-I-KO mice had less LPS clearance, reduced corticosterone generation, and impaired leukocyte recruitment in sepsis. In contrast to apoA-I-KO mice, apoA-I transgenic mice were moderately resistant to CLP-induced septic death compared with B6 mice. In conclusion, our findings reveal multiple protective roles of HDL in CLP-induced sepsis. In addition to its well established role in neutralization of LPS, HDL exerts its protection against sepsis through promoting LPS clearance and modulating corticosterone production and leukocyte recruitment. Our study supports efforts to raise HDL levels as a therapeutic approach for sepsis.     

Cystathionine-γ-lyase gene silencing with siRNA in monocytes/macrophages attenuates inflammation in cecal ligation and puncture-induced sepsis in the mouse

Hydrogen sulphide is an endogenous inflammatory mediator produced by cystathionine-γ-lyase (CSE) in macrophages. To determine the role of H₂S and macrophages in sepsis, we used small interference RNA (siRNA) to target the CSE gene and investigated its effect in a mouse model of sepsis. Cecal ligation puncture (CLP)-induced sepsis is characterized by increased levels of myeloperoxidase (MPO) activity, morphological changes in liver and pro-inflammatory cytokines and chemokines in the liver and lung. SiRNA treatment attenuated inflammation in the liver and lungs of mice following CLP-induced sepsis. Liver MPO activity increased in CLP-induced sepsis and treatment with siRNA significantly reduced this. Similarly, lung MPO activity increased following induction of sepsis with CLP while siRNA treatment significantly reduced MPO activity. Liver and lung cytokine and chemokine levels in CLP-induced sepsis reduced following treatment with siRNA. These findings show a crucial pro-inflammatory role for H₂S synthesized by CSE in macrophages in sepsis and suggest CSE gene silencing with siRNA as a potential therapeutic approach for this condition.     

脓毒症患儿血清SAA、PCT、CRP水平与预后的关系及其诊断价值分析

摘要 目的：探讨脓毒症患儿血清淀粉样蛋白A（SAA）、降钙素原（PCT）、C反应蛋白（CRP）与预后的关系,并分析三者对脓毒症的诊断价值。方法：纳入我院于2016年8月～2020年6月期间收治的脓毒症患儿60例开展回顾性研究,作为脓毒症组,选取同期于我院进行体检的健康儿童40例作为对照组,比较两组血清SAA、PCT、CRP水平。根据脓毒症患儿1个月内的生存、死亡情况,分成生存组（n=42）、死亡组（n=18）,比较两组临床资料及血清SAA、PCT、CRP水平,经COX回归模型分析脓毒症患儿死亡的危险因素。绘制受试者工作特征（ROC）曲线分析血清SAA、PCT、CRP对脓毒症的诊断价值。结果：脓毒症组血清SAA、PCT、CRP水平显著高于对照组（P＜0.05）。死亡组器官障碍数量＞2个、脓毒性休克患儿占比分别为55.56%、44.44%,显著高于生存组的19.05%、9.52%（P＜0.05）;死亡组入院后1 h内使用抗菌治疗患儿占比为38.89%,显著低于生存组的69.05%（P＜0.05）;死亡组血清SAA、PCT、CRP水平高于生存组（P＜0.05）。COX多因素分析结果显示,器官障碍数量＞2、脓毒性休克及血清SAA、PCT、CRP水平升高是脓毒症患儿死亡的危险因素（P＜0.05）,而入院后1 h内使用抗菌治疗是脓毒症患儿死亡风险的保护性因素（P＜0.05）。血清SAA、PCT、CRP单独及三者联合诊断脓毒症的曲线下面积（AUC）分别为0.808、0.780、0.761、0.912。结论：脓毒症患儿血清SAA、PCT、CRP明显升高,三者升高均为脓毒症患儿死亡的危险因素,且对脓毒症具有一定诊断价值。