Yansong Li’s research while affiliated with U.S. Army Institute of Surgical Research and other places

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Publications (41)


Impact of Immunopathy and Coagulopathy on Multi-Organ Failure and Mortality in a Lethal Porcine Model of Controlled and Uncontrolled Hemorrhage
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  • Full-text available

February 2024

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66 Reads

International Journal of Molecular Sciences

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James Bynum

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Bin Liu

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Yansong Li

Uncontrolled hemorrhage is a major preventable cause of death in patients with trauma. However, the majority of large animal models of hemorrhage have utilized controlled hemorrhage rather than uncontrolled hemorrhage to investigate the impact of immunopathy and coagulopathy on multi-organ failure (MOF) and mortality. This study evaluates these alterations in a severe porcine controlled and uncontrolled hemorrhagic shock (HS) model. Anesthetized female swine underwent controlled hemorrhage and uncontrolled hemorrhage by partial splenic resection followed with or without lactated Ringer solution (LR) or Voluven® resuscitation. Swine were surveyed 6 h after completion of splenic hemorrhage or until death. Blood chemistry, physiologic variables, systemic and tissue levels of complement proteins and cytokines, coagulation parameters, organ function, and damage were recorded and assessed. HS resulted in systemic and local complement activation, cytokine release, hypocoagulopathy, metabolic acidosis, MOF, and no animal survival. Resuscitation with LR and Voluven® after HS improved hemodynamic parameters (MAP and SI), metabolic acidosis, hyperkalemia, and survival but resulted in increased complement activation and worse coagulopathy. Compared with the LR group, the animals with hemorrhagic shock treated with Voluven® had worse dilutional anemia, coagulopathy, renal and hepatic dysfunction, increased myocardial complement activation and renal damage, and decreased survival rate. Hemorrhagic shock triggers early immunopathy and coagulopathy and appears associated with MOF and death. This study indicates that immunopathy and coagulopathy are therapeutic targets that may be addressed with a high-impact adjunctive treatment to conventional resuscitation.

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Figure 1. Coagulation disturbances after hemorrhagic and fluid resuscitation. Whole blood Shear elastic modulus (G) parameter (A) and maximum amplitude (MA) were measured by thromboelastography. Plasma prothrombin time (PT), Activated Partial Thromboplastin Time (aPTT), and fibrinogen concentrations were assessed using the BCSTM XP system. * H+Voliuven/H+LR vs. H and † H+Voluven vs. H+LR, p<0.05 using two-way ANOVA followed by Bonferroni posttests. Data are presented as mean ± SEM.
Figure 2. Systemic inflammatory immune responses after hemorrhagic shock and fluid resuscitation. Serum hemolytic terminal complement activation was measured by CH50 assay (A), and blood levels of C3a (B), TNαF (C), IL-6 (D), and IL-8 (E) were assessed by ELISA. * vs. Sham, † vs. H, and ‡ vs. H+LR, p<0.05 using two-way ANOVA followed by Bonferroni posttests. Data are presented as mean ± SEM.
Figure 3. Multiple organ dysfunctions in posthemorrhagic shock and fluid resuscitation. Blood creatinine (A), aspartate aminotransferase (AST, B), muscle myocardium isoenzyme B (MMB, C), and creatine kinase (CK, D) were determined by Siemens Dimension Xpand Plus Chemistry 6 Analyzer. * vs. Sham, † vs. H, ‡ vs. H+LR, p<0.05 using two-way ANOVA followed by Bonferroni posttests. Data are presented as mean ± SEM.
Figure 4. Myocardial inflammatory responses after hemorrhagic shock and fluid resuscitation. Immunostaining and semiquantitative fluorescent intensity of C4d (A & B), C3 (C & D), C5 (E & F), C5b-9 (G & H), and IL-6 (I & J) in heart tissues were evaluated by immunohistochemistry. Scale bars = 50 µm. * vs. sham, † vs. H, and ‡ vs. H+LR, p<0.05 using one-way ANOVA followed by Bonferroni posttests. Data are presented as mean ± SEM. Vol, voluven ® .
Figure 5. Pulmonary/intestinal inflammatory responses after hemorrhagic shock and fluid resuscitation. Immunostaining and semiquantitative fluorescent intensity of C3 (A & B) and C5b-9 (C & D) in lungs, and C3 (E & F) and IL-6 (G & H) in jejunum were evaluated by immunohistochemistry. Scale bars = 50 µm. * vs. sham, p<0.05 using one-way ANOVA followed by Bonferroni posttests. Data are presented as mean ± SEM.

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Impact of immunopathy and coagulopathy on multi-organ failure and mortality in a lethal porcine model of uncontrolled hemorrhagic shock

December 2023

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38 Reads

Background: Uncontrolled hemorrhage is a major preventable cause of death in patients with trauma. However, the majority of large animal models of hemorrhage have utilized controlled hemorrhage rather than uncontrolled hemorrhage to investigate the impact of immunopathy and coagulopathy on multi-organ failure (MOF) and mortality. This study evaluates these alterations in a severe porcine-controlled and uncontrolled hemorrhagic shock (HS) model. Methods: Anesthetized female swine underwent controlled hemorrhage (22 ml/kg) and uncontrolled hemorrhage by partial splenic resection followed with or without lactated Ringer solution (LR) or Voluven® resuscitation. Blood chemistry, physiologic variables, systemic and tissue levels of complement proteins and cytokines, coagulation parameters, organ function, and damage were recorded and assessed. Results: HS resulted in systemic and local complement activation, cytokine release, metabolic acidosis, hyperkalemia, MOF, and no animal survival. Resuscitation with LR and Voluven® after HS improved hemodynamic parameters (MAP and SI), metabolic acidosis, hyperkalemia, and survival but resulted in increased complement activation and worse coagulopathy. Compared with the LR group, the HS animal treated with Voluven® had worse dilutional anemia, coagulopathy, renal and hepatic dysfunction, increased myocardial complement activation and renal damage, and decreased survival rate. Conclusions: Hemorrhagic shock triggers early immunopathy and coagulopathy that appear associated with MOF and death. This study indicates that immunopathy and coagulopathy are therapeutic targets that may be addressed with a high-impact adjunctive treatment to conventional resuscitation.



Figure 5. Parallelism of the blood plasma levels of HMGB1 (A) and C3a (B) without myocarditis (C) and neuroinflammation (F), and with myocarditis (D), Purkinje fiber edema/inflammation (E), neuroinflammation (G, yellow arrows)/neuronal death (G, green arrows), and cytotoxic brain edema (H, orange arrows) in a porcine BI+HS model. The data were expressed as mean ± SD.
Blast wave parameters obtained from the shock tube.
Circulating levels of organ injury biomarkers in a porcine BI+HS model.
Immunopathological Alterations after Blast Injury and Hemorrhage in a Swine Model of Prolonged Damage Control Resuscitation

April 2023

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79 Reads

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3 Citations

International Journal of Molecular Sciences

Trauma-related hemorrhagic shock (HS) remains a leading cause of death among military and civilian trauma patients. We have previously shown that administration of complement and HMGB1 inhibitors attenuate morbidity and mortality 24 h after injury in a rat model of blast injury (BI) and HS. To further validate these results, this study aimed to develop a swine model and evaluate BI+HS-induced pathophysiology. Anesthetized Yucatan minipigs underwent combined BI and volume-controlled hemorrhage. After 30 min of shock, animals received an intravenous bolus of PlasmaLyte A and a continuous PlasmaLyte A infusion. The survival rate was 80% (4/5), and the non-survivor expired 72 min post-BI. Circulating organ-functional biomarkers, inflammatory biomarkers, histopathological evaluation, and CT scans indicated evidence of multiple-organ damage, systemic innate immunological activation, and local tissue inflammation in the injured animals. Interestingly, a rapid and dramatic increase in plasma levels of HMGB1 and C3a and markedly early myocarditis and encephalitis were associated with early death post-BI+HS. This study suggests that this model reflects the immunopathological alterations of polytrauma in humans during shock and prolonged damage control resuscitation. This experimental protocol could be helpful in the assessment of immunological damage control resuscitation approaches during the prolonged care of warfighters.


Complement as a vital nexus of the pathobiological connectome for acute respiratory distress syndrome: An emerging therapeutic target

March 2023

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54 Reads

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12 Citations

The hallmark of acute respiratory distress syndrome (ARDS) pathobiology is unchecked inflammation-driven diffuse alveolar damage and alveolar-capillary barrier dysfunction. Currently, therapeutic interventions for ARDS remain largely limited to pulmonary-supportive strategies, and there is an unmet demand for pharmacologic therapies targeting the underlying pathology of ARDS in patients suffering from the illness. The complement cascade (ComC) plays an integral role in the regulation of both innate and adaptive immune responses. ComC activation can prime an overzealous cytokine storm and tissue/organ damage. The ARDS and acute lung injury (ALI) have an established relationship with early maladaptive ComC activation. In this review, we have collected evidence from the current studies linking ALI/ARDS with ComC dysregulation, focusing on elucidating the new emerging roles of the extracellular (canonical) and intracellular (non-canonical or complosome), ComC (complementome) in ALI/ARDS pathobiology, and highlighting complementome as a vital nexus of the pathobiological connectome for ALI/ARDS via its crosstalking with other systems of the immunome, DAMPome, PAMPome, coagulome, metabolome, and microbiome. We have also discussed the diagnostic/therapeutic potential and future direction of ALI/ARDS care with the ultimate goal of better defining mechanistic subtypes (endotypes and theratypes) through new methodologies in order to facilitate a more precise and effective complement-targeted therapy for treating these comorbidities. This information leads to support for a therapeutic anti-inflammatory strategy by targeting the ComC, where the arsenal of clinical-stage complement-specific drugs is available, especially for patients with ALI/ARDS due to COVID-19.


Immunopathology of terminal complement activation and complement C5 blockade creating a pro‐survival and organ‐protective phenotype in trauma

November 2022

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99 Reads

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9 Citations

Background and Purpose Traumatic haemorrhage (TH) is the leading cause of potentially preventable deaths that occur during the prehospital phase of care. No effective pharmacological therapeutics are available for critical TH patients yet. Here, we identify terminal complement activation (TCA) as a therapeutic target in combat casualties and evaluate the efficacy of a TCA inhibitor (nomacopan) on organ damage and survival in vivo. Experimental Approach Complement activation products and cytokines were analysed in plasma from 54 combat casualties. The correlations between activated complement pathway(s) and the clinical outcomes in trauma patients were assessed. Nomacopan was administered to rats subjected to lethal TH (blast injury and haemorrhagic shock). Effects of nomacopan on TH were determined using survival rate, organ damage, physiological parameters, and laboratory profiles. Key Results Early TCA was associated with systemic inflammatory responses and clinical outcomes in this trauma cohort. Lethal TH in the untreated rats induced early TCA that correlated with the severity of tissue damage and mortality. The addition of nomacopan to a damage‐control resuscitation (DCR) protocol significantly inhibited TCA, decreased local and systemic inflammatory responses, improved haemodynamics and metabolism, attenuated tissue and organ damage, and increased survival. Conclusion and Implications Previous findings of our and other groups revealed that early TCA represents a rational therapeutic target for trauma patients. Nomacopan as a pro‐survival and organ‐protective drug, could emerge as a promising adjunct to DCR that may significantly reduce the morbidity and mortality in severe TH patients while awaiting transport to critical care facilities.


Figure 2. DAF attenuates hemorrhage-induced lung injury in rats. Histopathological changes of the lung on H&E slides. Representative photomicrographs are shown. (A) Quantification of the staining intensity of the lung tissue from the enrolled rats was performed using ImageJ software as described in Materials and Methods. (B) Cumulative histopathological lung injury scores for the sham, H, H + DAF, HR, and HR + DAF. (C) The numbers (5, 6, 7) in the figures mark the number of rats/tested samples per group. Original magnification ×400. Scale bar = 200μm. *** p < 0.001 vs. sham; † p < 0.05 vs. H; ‡ p < 0.05 and ‡ ‡ p < 0.01 vs. HR (one-way ANOVA followed by Tukey's test).
Decay-Accelerating Factor Creates an Organ-Protective Phenotype after Hemorrhage in Conscious Rats

November 2022

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24 Reads

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4 Citations

International Journal of Molecular Sciences

Preclinical and clinical studies have shown that traumatic hemorrhage (TH) induces early complement cascade activation, leading to inflammation-associated multiple-organ dysfunction syndrome (MODS). Several previous studies have demonstrated the beneficial effects of complement inhibition in anesthetized (unconscious) animal models of hemorrhage. Anesthetic agents profoundly affect the immune response, microcirculation response, and coagulation patterns and thereby may confound the TH research data acquired. However, no studies have addressed the effect of complement inhibition on inflammation-driven MODS in a conscious model of hemorrhage. This study investigated whether early administration of decay-accelerating factor (CD55/DAF, a complement C3/C5 inhibitor) alleviates hemorrhage-induced organ damage and how DAF modulates hemorrhage-induced organ damage. DAF was administered to unanesthetized male Sprague Dawley rats subjected to pressure-controlled hemorrhage followed by a prolonged (4 h) hypotensive resuscitation with or without lactated Ringer’s (LR). We assessed DAF effects on organ protection, tissue levels of complement synthesis and activation, T lymphocyte infiltration, fluid resuscitation requirements, and metabolic acidosis. Hemorrhage with (HR) or without (H) LR resuscitation resulted in significantly increased C3, C5a, and C5b-9 deposition in the lung and intestinal tissues. HR rats had significantly higher tissue levels of complement activation/deposition (particularly C5a and C5b-9 in the lung tissues), a higher but not significant amount of C3 and C5b-9 pulmonary microvascular deposition, and relatively severe injury in the lung and intestinal tissues compared to H rats. DAF treatment significantly reduced tissue C5b-9 formation and C3 deposition in the H or HR rats and decreased tissue levels of C5a and C3 mRNA in the HR rats. This treatment prevented the injury of these organs, improved metabolic acidosis, reduced fluid resuscitation requirements, and decreased T-cell infiltration in lung tissues. These findings suggest that DAF has the potential as an organ-protective adjuvant treatment for TH during prolonged damage control resuscitation.


Traumatized triad of complementopathy, endotheliopathy, and coagulopathy ˗ Impact on clinical outcomes in severe polytrauma patients

October 2022

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114 Reads

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10 Citations

Complementopathy, endotheliopathy, and coagulopathy following a traumatic injury are key pathophysiological mechanisms potentially associated with multiple-organ failure (MOF) and mortality. However, the heterogeneity in the responses of complementopathy, endotheliopathy, and coagulopathy to trauma, the nature and extent of their interplay, and their relationship to clinical outcomes remain unclear. Fifty-four poly-trauma patients were enrolled and divided into three subgroups based on their ISS. Biomarkers in blood plasma reflecting complement activation, endothelial damage, and coagulopathy were measured starting from admission to the emergency department and at 3, 6, 12, 24, and 120 hours after admission. Comparative analyses showed that severely injured patients (ISS>24) were associated with longer days on mechanical ventilation, in the intensive care unit and hospital stays, and a higher incidence of hyperglycemia, bacteremia, respiratory failure and pneumonia compared to mildly (ISS<16) or moderately (ISS=16-24) injured patients. In this trauma cohort, complement was activated early, primarily through the alternative complement pathway. As measured in blood plasma, severely injured patients had significantly higher levels of complement activation products (C3a, C5a, C5b-9, and Bb), endothelial damage markers (syndecan-1, sTM, sVEGFr1, and hcDNA), and fibrinolytic markers (D-dimer and LY30) compared to less severely injured patients. Severely injured patients also had significantly lower thrombin generation (ETP and peak) and lower levels of coagulation factors (I, V, VIII, IX, protein C) than less severely injured patients. Complement activation correlated with endothelial damage and hypocoagulopathy. Logistic regression analyses revealed that Bb >1.57 μg/ml, syndecan-1 >66.6 ng/ml or D-dimer >6 mg/L at admission were associated with a higher risk of MOF/mortality. After adjusting for ISS, each increase of the triadic score defined above (Bb>1.57 µg/ml/Syndecan-1>66.6 ng/ml/D-dimer>6.0mg/L) was associated with a 6-fold higher in the odds ratio of MOF/death [OR: 6.83 (1.04-44.96, P=0.046], and a 4-fold greater in the odds of infectious complications [OR: 4.12 (1.04-16.36), P=0.044]. These findings provide preliminary evidence of two human injury response endotypes (traumatized triad and non-traumatized triad) that align with clinical trajectory, suggesting a potential endotype defined by a high triadic score. Patients with this endotype may be considered for timely intervention to create a pro-survival/organ-protective phenotype and improve clinical outcomes.


Figure 2 Alteration of coagulation parameters correlates with the severity of injury score in trauma patients (n=100). The blood samples were collected from healthy volunteers (normal, n=20) or trauma patients at admission (admi.), 45, 90, 135 minutes, and 18 hours postadmission, and coagulation parameters such as PT (A), PTT (B), D-dimer (C), factor I (D), factor II (E), and factor XII (F) in the plasma fractions were measured. Statistical analyses were performed by two-way ANOVA, *, †, and ‡p<0.05 vs healthy volunteers, ISS<10 patients (n=63), and ISS=10-20 patients (n=19), respectively. ANOVA, analysis of variance; ISS, injury severity score; PT, partial thromboplastin; PTT, partial thromboplastin time.
Figure 4 Correlation between complement activation and coagulation alteration. Plasma levels of C5b-9 at 45 minutes after admission positively correlated with PT at 45 minutes after admission (A), PTT at 135 minutes after admission (B) and D-dimer at 90 minutes after admission (C). Plasma concentrations of Bb at 45 minutes after admission positively correlated with PT at 45 minutes after admission (D), PTT at 45 minutes after admission (E) and D-dimer at 90 minutes after admission (F). Inverse correlation of plasma levels of Bb at 45 minutes after admission with plasma concentrations of factor II at 45 minutes after admission (G) and fibrinogen at 135 minutes after admission (H). The Pearson correlation coefficient was calculated, including 95% CI. P<0.05 values were considered to be significant for all analyses. PTT, partial thromboplastin time.
Clinical parameters of UTHSCSA trauma patients
Indices of complement activation and coagulation changes in trauma patients

September 2022

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32 Reads

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6 Citations

Trauma Surgery & Acute Care Open

Objectives Early complementopathy and coagulopathy are shown often after trauma. However, the prevalence of any interplay between complement cascade (ComC) and coagulation cascade (CoaC) after trauma remains unclear. This study intended to explore whether complement-coagulation crosstalk exists, which may provide a reliable guide to clinical implications in trauma patients. Methods This single-center cohort study of trauma patients enrolled 100 patients along with 20 healthy volunteers. Blood samples from patients were collected at admission, 45, 90, 135 minutes, and 18 hours after admission. Demographic characteristics were recorded, blood levels of ComC and CoaC factors, and inflammatory cytokines were measured by ELISA, clot-based assays, or luminex multiplex assay, and partial thromboplastin (PT) and partial thromboplastin time (PTT) were assessed using a Behring blood coagulation system. Results Compared with the healthy controls, plasma levels of complement factors (C5b-9 and Bb) and 11 tested inflammatory cytokines increased in moderately and severely injured patients as early as 45 minutes after admission and sustained higher levels up to 18 hours after admission. C5b-9 correlated positively to patients’ hospital stay. In parallel, the consumption of coagulation factors I, II, X, and XIII was shown throughout the first 18 hours after admission in moderately and severely injured patients, whereas PT, PTT, D-dimer, factor VII, and factor VIII values significantly increased from the admission to 135 minutes in moderately and severely injured patients. Along with an inverse correlation between plasma Bb, factors I and II, a positive correlation between C5b-9, Bb, D-dimer, PT, and PTT was evident. Conclusions This study demonstrates trauma-induced early activation of plasma cascades including ComC, CoaC, and fibrinolytic cascade, and their correlation between plasma cascades in severe trauma patients. Our study suggests that the simultaneous modulation of plasma cascades might benefit clinical outcomes for trauma patients. Level of evidence Prospective study, level III.


Study Cohorts, specimen allocations, and diagnoses included in the First and Second Study Cohorts
First Study Cohort: Pancreatitis circulating eNAMPT levels are significantly elevated in acute pancreatitis compared to controls. Positive correlation with disease severity. A Y-axis represents log base 2 transformation of plasma eNAMPT values; X-axis group comparison: healthy controls and pancreatitis by severity groups – mild, moderate, severe. Comparisons of medians between pancreatitis and healthy controls and pancreatitis by severity subgroups significantly differ (p-value < 0.01) Kruskal–Wallis test. eNAMPT levels were significantly different in the three severity categories of acute pancreatitis, with significantly higher levels in severe pancreatitis compared to mild pancreatitis, (median 67.7 vs 17.6 ng/ml, p < 0.01).B Pancreatitis ROC plots and the corresponding AUCs. eNAMPT distinguishes acute pancreatitis from healthy subjects (blue) (AUC = 0.74, 95% confidence interval: 0.62–0.86, p 0.009). High diagnostic accuracy for eNAMPT levels was observed in patients with severe (red) pancreatitis compared to mild (brown) pancreatitis (AUC = 0.92, 95% confidence interval: 0.85—1.0, p-value < 0.01)
First Study Cohort: Circulating eNAMPT are elevated in ARDS, Sepsis, and Trauma subjects compared to healthy controls. Data represented in Panels A and B reflect eNAMPT measurements in plasma samples and Panels C and D reflect eNAMPT measurements in serum samples. In Panels A and C, the Y-axis represents eNAMPT Log 2 transformed values; X-axis group comparison: healthy controls (green), ARDS (red), Sepsis (yellow or brown), and Trauma (blue). B ROC plot and the corresponding AUC show that eNAMPT (at baseline) distinguishes: i) ARDS (red) from healthy controls (AUC = 0.86, 95% confidence interval: 0.82–0.90, p-value < 0.001); ii) sepsis (yellow) from healthy controls (AUC = 0.89, 95% confidence interval: 0.85–0.93 p < 0.001) and iii) trauma (blue) vs healthy controls (AUC = 0.94, 95% confidence interval: 0.90–0.97 p < 0.001. D ROC plot and AUC of eNAMPT in serum of septic subjects, AUC 0.88, 95% CI 0.81–0.95, p < 0.01
Second Study Cohort: Circulating eNAMPT levels are significantly elevated in Sepsis and ARDS subjects compared to healthy controls. In Panel A Y-axis represents eNAMPT Log 2 transformed values; X-axis group comparison: healthy controls (green), ARDS (red), Sepsis (yellow). Median plasma eNAMPT values were significantly higher in ARDS and Sepsis compared to healthy controls—3.78 ng/ml, 4.7 ng/ml, and 1.2 ng/ml respectively; p < 0.01. B ROC Curve. Plasma eNAMPT levels accurately distinguished healthy controls from ARDS (red), AUC 0.85 (95% CI 0.8–0.9, p-value < 0.0001), and healthy controls from Sepsis (yellow), AUC 0.87 (95% IC 0.82–0.92 p-value < 0.0001). No significant differences between ARDS and Sepsis
Circulating eNAMPT as a biomarker in the critically ill: acute pancreatitis, sepsis, trauma, and acute respiratory distress syndrome

June 2022

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89 Reads

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13 Citations

BMC Anesthesiology

Background Nicotinamide phosphoribosyltransferase (NAMPT) exhibits dual functionality – as an intracellular enzyme regulating nicotinamide adenine dinucleotide metabolism and as an extracellular secreted protein (eNAMPT) to function as a cytokine regulator of innate immunity via binding to Toll-Like receptor 4 and NF-κB activation. In limited preclinical and clinical studies, eNAMPT was implicated in the pathobiology of acute respiratory distress syndrome (ARDS) suggesting that eNAMPT could potentially serve as a diagnostic and prognostic biomarker. We investigated the feasibility of circulating eNAMPT levels to serve as a biomarker in an expanded cohort of patients with ARDS and ARDS-predisposing conditions that included acute pancreatitis, sepsis, and trauma with comparisons to controls. Methods A total of 671 patients and 179 healthy controls were included in two independent cohorts. Plasma and serum eNAMPT levels were quantified using one of two complementary Enzyme-linked Immunosorbent Assays. After log base 2 variance stabilizing transformation of plasma/serum eNAMPT measurements, differences between healthy controls and each disease cohort were compared using linear regression or a generalized estimating equation (GEE) model where applicable. Complementary analyses included sensitivity, specificity, positive predictive values, negative predictive values, and the area under the receiver operating curve. Results Compared to controls, circulating eNAMPT levels were significantly elevated in subjects with acute pancreatitis, sepsis, trauma, and ARDS (all p < 0.01). In the acute pancreatitis cohort, circulating eNAMPT levels positively correlated with disease severity (p < 0.01). Conclusions Circulating eNAMPT levels are novel biomarker in the critically ill with acute pancreatitis, sepsis, trauma, and/or ARDS with the potential to reflect disease severity.


Citations (32)


... Similarly, Gulla et al. reported that the complement is a procoagulant factor leading to thrombin activation, which generates fibrin mesh [29]. We have noted the activation of complement and coagulation cascades and their interaction, impacting outcomes in preclinical animal models of traumatic hemorrhage [30,31] and clinical trauma patients [32]. Furthermore, our recent findings have shown that the synergistic effects of the traumatic triad (complementopathy, endotheliopathy, and coagulopathy) occurred soon after trauma, contributed to poor clinical outcomes (MOF/death), and led to infection complications; therefore, the triadic intercommunication model is proposed [33]. ...

Reference:

Impact of Immunopathy and Coagulopathy on Multi-Organ Failure and Mortality in a Lethal Porcine Model of Controlled and Uncontrolled Hemorrhage
Immunopathological Alterations after Blast Injury and Hemorrhage in a Swine Model of Prolonged Damage Control Resuscitation

International Journal of Molecular Sciences

... The development of ARDS, a syndrome of acute respiratory failure due to diffuse lung inflammation and edema not fully explained by cardiac failure or fluid overload [49], is common in sepsis, either as the result of infection or systemic inflammation. The inflammatory cascade initiated in the lungs propagates into circulation and can reach distal organs, thus playing a pivotal role in developing MODS [4,49,50]. The central nervous system may also regulate the inflammatory response in the lungs [51,52]. ...

Complement as a vital nexus of the pathobiological connectome for acute respiratory distress syndrome: An emerging therapeutic target

... Inflammation and coagulation are reciprocally causally related processes [35]. Hemostatic resuscitation [19] may include pharmacological agents as potential adjuncts to fluid therapy to treat severe HS at or near the point of injury [36][37][38][39][40][41][42][43][44][45][46]. ...

Decay-Accelerating Factor Creates an Organ-Protective Phenotype after Hemorrhage in Conscious Rats

International Journal of Molecular Sciences

... TIC typically develops within 30 min of sustaining an injury, often preceding a blood transfusion or fluid resuscitation, which has been documented in one-third of all trauma patients and 50-70% of patients with severe trauma [9]. The severity of TIC is directly proportional to the severity of the injury, further increasing the mortality rate of patients by four times than in those without TIC [10]. ...

Traumatized triad of complementopathy, endotheliopathy, and coagulopathy ˗ Impact on clinical outcomes in severe polytrauma patients

... Inflammation and coagulation are reciprocally causally related processes [35]. Hemostatic resuscitation [19] may include pharmacological agents as potential adjuncts to fluid therapy to treat severe HS at or near the point of injury [36][37][38][39][40][41][42][43][44][45][46]. ...

Immunopathology of terminal complement activation and complement C5 blockade creating a pro‐survival and organ‐protective phenotype in trauma

... However, in severe cases, the immune response may not remain restricted locally but turns into a systematic proinflammatory cytokine storm initiated concurrently with leukocyte activation. In these settings, the complement system is suspected to be "traumatized" as well, for example, by consumption [5], participating in a vicious cycle of uncontrollable immunological events due to its intertwined relation to various cells and further cascade systems [6][7][8]. Additionally, the regulatory side might be outbalanced by a compelling intrinsic amplification nature of the complement system, which contributes to or even causes tissue damage [5]. ...

Indices of complement activation and coagulation changes in trauma patients

Trauma Surgery & Acute Care Open

... Highlighting the importance of narrowing in on specific DAMP entities, extracellular nicotinamide phosphoribosyltransferase is shown to be an important DAMP that serves as a biomarker for early diagnosis of ARDS associated with acute pancreatitis as well as a druggable target under investigation in an ongoing clinical trial (NCT05938036). 11 As our understanding and precision grow, I imagine that we will better distinguish these specific patterns of injury, such that we can identify early markers of ARDS risk and also develop targeted therapeutics. I applaud the authors here for moving the bar; I hope that their continued work, as well as the work of those that see this publication, will forge new collaborations, will step outside of the professional silo and potentially impact the care for not just one organ but many, because we are all in this together. ...

Circulating eNAMPT as a biomarker in the critically ill: acute pancreatitis, sepsis, trauma, and acute respiratory distress syndrome

BMC Anesthesiology

... Serum cytokine levels. Cytokine levels in rat serum were analyzed for levels of eN-AMPT, IL-6, serum chemokine C-X-C motif ligand 1 (CXCL1), and TNFα using the U-Plex MSD ELISA platform (Meso Scale Diagnostics, Rockville, MD, USA), as previously described [49,[52][53][54]67]. ...

eNAMPT neutralization reduces preclinical ARDS severity via rectified NFkB and Akt/mTORC2 signaling

... Recently, the potential for using DAMPs as physiological biomarkers of MOF to diagnose these conditions has been published (17, 19). Particularly, findings from our group and others identified HMGB1, as key DAMP that correlates well with organ failure at multiple layers, including 1) elevated serum HMGB1 levels are concurrent with ARDS in a swine polytrauma model (21); 2) HMGB1 contributes to systemic inflammation and MOF in patients with acute liver failure (ALF) (83); 3) HMGB1 levels highly correlate with systemic inflammatory response and injury severity scores (ISS) in combat casualties (84); and 4) HMGB1 inhibition significantly attenuated tissue damage in lung, brain and liver tissues as well as correlated with reduced mortality in a rat polytrauma model (84); and 5) HMGB1 plays a significant role in blast-induced MOF in a rat model. Overall, HMGB1 not only correlates to renal injury but also exerts systemic effects that can exacerbate dysfunction in other organs, especially in the lung, liver, and cardiovascular system. ...

HMGB1 Inhibition to Ameliorate Organ Failure and Increase Survival in Trauma

Biomolecules

... [5 ] Existing evidence indicates that prolonged complete REBOA (cREBOA) leads to distal organ inflammation and injury. [6] Partial REBOA (pREBOA) can maintain the normal physiological state, reduce the impact of ischemia in the distal organs of the body, and avoid the occurrence of organ failure and prolongation of hospital stay after prolonged blocking World J Emerg Med, Vol 15, No 1, 2024 time compared with cREBOA. [7,8] However, the overall survival of patients who underwent prolonged pREBOA did not significantly improve. ...

Distal organ inflammation and injury after resuscitative endovascular balloon occlusion of the aorta in a porcine model of severe hemorrhagic shock