Neutrophil-Enriched Biomarkers and Long-Term Prognosis in Acute Coronary Syndrome: a Systematic Review and Meta-analysis

Activated neutrophils release a range of inflammatory products that represent potential biomarkers, and there is interest in the prognostic value of these in acute coronary syndrome (ACS) patients. We conducted a systematic review to examine neutrophil-enriched biomarkers and the occurrence of major adverse cardiovascular events (MACE) in patients with ACS. We identified twenty-seven studies including 17,831 patients with ACS. The most studied biomarkers were neutrophil gelatinase-associated lipocalin (NGAL) and myeloperoxidase (MPO). Meta-analyses showed that elevated NGAL was associated with higher MACE rates (unadjusted risk ratio (RR) 1.52, 95% CI 1.12–2.06, p = 0.006) as were elevated MPO levels (unadjusted RR 1.61, 95% CI 1.22–2.13, p = 0.01). There was limited data suggesting that increased levels of calprotectin, proteinase-3 and double-stranded DNA were also associated with MACE. These results suggest that higher levels of neutrophil-enriched biomarkers may be predictive of MACE in patients with ACS, although higher-quality studies are needed to confirm these observations. Graphical abstract Supplementary Information The online version contains supplementary material available at 10.1007/s12265-023-10425-2.


Introduction
Acute coronary syndrome (ACS) is one of the leading causes of cardiovascular mortality and morbidity [1].Inflammation plays a pivotal role in driving the pathology of ACS, leading to the development of clinical trials targeting inflammation either acutely, such as in ASSAIL-MI, or chronically, such as in CANTOS in order to improve clinical outcomes.Alongside this, there has been extensive interest in utilising circulating inflammatory biomarkers for risk prediction post-ACS.
Hallmarks of the early inflammatory response to ACS are the exaggerated release of neutrophils from the bone marrow into circulation and infiltration of circulating neutrophils into the site of injury [2].Neutrophils are effective phagocytes [3] and exert their antimicrobial and proinflammatory effects through the generation of reactive oxygen species (ROS), secretion of granular proteins and formation of neutrophil extracellular traps (NETs) [4].In patients with myocardial infarction (MI), infiltrated neutrophils drive an inflammatory response at the site of infarction to facilitate the rapid clearance of necrotic cardiomyocytes and degradation of the surrounding extracellular matrix (ECM) [4,5].While these processes are necessary for successful scar deposition and myocardial healing post-MI, excessive neutrophil-driven inflammation has been associated with infarct expansion, maladaptive changes in left ventricular (LV) structure and function and, in turn, adverse outcomes [6].
Given the importance of neutrophils in driving a proinflammatory-sometimes excessive-response to ACS, the aim of this systematic review and meta-analysis was to assess the prognostic value of neutrophil-enriched soluble factors in predicting long-term major adverse cardiovascular events (MACE) in patients with ACS.Many circulating inflammatory mediators that are typically released during neutrophil degranulation can concurrently arise from other cellular sources.In this review, we examined markers that are known to be predominantly released by neutrophils including MPO, PR3, NGAL, calprotectin and markers of NETosis.We have termed these 'neutrophil-enriched' biomarkers.Other factors in which neutrophils are not considered the most significant source in blood circulation, including MMP-8, MMP-9, LL-37 and IL-8, were not assessed here.

Systematic Review Search Strategy and Eligibility Criteria
This systematic review was conducted in accordance with PRISMA (Preferred Reporting Items for Systematic review and Meta-Analyses) and registered with PROSPERO (The International Prospective Register of Systematic Reviews; ID: CRD42021293391) [21,22].Circulating biomarkers which are described in prior literature to be predominantly, though not necessarily exclusively, released by neutrophils were considered 'neutrophil-enriched' in this study.These include double-stranded DNA (dsDNA), MPO-DNA, NE-DNA, citrullinated histone H3 (CitH3) (all of which are described as surrogate markers of NETosis), NE, MPO, NGAL, calprotectin, PR3, neutrophil α-defensin, azurocidin, cathepsin G, lactoferrin, ficolin and neutrophil-derived extracellular vesicles (EVs) (Supplementary Table 1).A comprehensive review of studies published from 1946 until October 2021 was conducted using the MEDLINE, EMBASE and EMBASE Classic, Scopus, SCIE (Web of Science) and Cochrane Central Register of Controlled Trials databases.Search terms are given in Supplementary Table 2. Duplicates were removed and additional studies were identified by manual searching of reference lists (Supplementary Table 3).Titles and abstracts were screened, and studies reporting the association of neutrophil-enriched biomarker levels with adverse outcome in patients with ACS were retrieved as full-text articles.Two independent reviewers (JY and AH) examined studies for eligibility using a standardised tool based on the PICOS format (Population, Intervention, Comparison, Outcomes, Studies) (Supplementary Figure 1).Studies were considered for inclusion according to the following criteria: the study population comprised ≥ 70% of patients with confirmed ACS; neutrophil-enriched biomarkers were sampled during hospital admission with ACS; and outcomes included, at minimum, all-cause mortality at ≥ 6 months following admission.Where disagreements arose, consensus was reached through discussion.

Data Extraction and Quality Assessment
Data extraction and quality assessment of eligible studies were conducted following the recommendations of the Cochrane Review Group [23].When required, authors were contacted to provide further clarification.Data were extracted regarding study design, inclusion criteria, patient characteristics, biomarker measurement (including interassay and intra-assay variability) and duration of follow-up.Categorical variables were reported as frequency (percentage), and continuous variables were given as median (interquartile range; IQR).For each reported MACE outcome, we extracted the odds ratio (OR), hazard ratio (HR), risk ratio (RR) or biomarker concentrations (median and IQR) and event rates, as applicable.Study quality (ranging from poor to high) was assessed using tools for cohort and casecontrol studies (Supplementary Figures 2 and 3), based on existing instruments [24][25][26][27].Studies were excluded from further analysis if the overall quality rating was deemed poor due to lack of consideration of confounding variables in the study design and analysis, or if the minimum data required for meta-analysis was unable to be extracted.

Meta-analyses
We conducted meta-analyses of unadjusted summary statistics for neutrophil-enriched markers that were investigated in n > 3 studies.For studies reporting multiple MACE endpoints, only the outcome comprising the highest number of events was analysed.Different measures (RR, OR, HR) were used to report effect sizes across studies and required transformation prior to meta-analysis.For completeness of data, extracted unadjusted measures were transformed to unadjusted RR (95% CI).Crude event rates were compared across binary groupings of marker concentration (most commonly median) to estimate RR and concentrations given without sufficient event data were approximated to RR from standardised mean differences (Cohen's d).For studies with rare outcomes (≤ 15%), OR were approximated to RR, while HR were directly pooled with RR.Pooled effect sizes with RR and 95% CI were calculated using the weighted inverse-variance method and restricted maximum likelihood (REML) estimations [28].A random effects model with Hartung-Knapp adjustment was used to account for residual variability between studies [29,30].Heterogeneity was assessed with Cochran's Q test (high heterogeneity was defined as p < 0.10) and the I 2 test (high heterogeneity was defined as I 2 > 75%) [29,31,32].Potential publication bias was evaluated by assessment of funnel plot asymmetry with Egger's regression test [33,34].All statistical tests were two-tailed, and significance was determined by p < 0.05.Statistical analyses were performed using R packages "meta", "metafor" and "MetaUtility" in R Statistical Software version 4.1.2(R Foundation for Statistical Computing, Vienna, Austria).

Study Characteristics
Of 872 articles identified, 27 studies (24 observational cohort and three case-control) were included in the systematic review (Fig. 1).A total of eight neutrophil-enriched soluble factors were measured in 17,831 patients with ACS.These factors were dsDNA, MPO-DNA, NE-DNA Fig 1 Overview of study selection for the systematic review and meta-analysis.The selection, screening, and inclusion of studies evaluating the association between neutrophilenriched soluble markers and major cardiovascular events in ACS patients are detailed in the flow diagram, adapted from the PRISMA 2020 guidelines for systematic review reporting [6] and CitH3-all surrogate markers of NETosis-as well as NGAL, MPO, calprotectin and PR3.The study characteristics are presented in Table 1.Patients were predominantly male (74 (67-79)%) with a median age of 62 (61)(62)(63)(64)(65) years.ACS encompasses a heterogenous population of STEMI, NSTEMI and unstable angina (UA) diagnoses.For this systematic review, five studies (19%) recruited patients with ACS, while 19 studies (70%) included patients with acute MI only (STEMI and/or NSTEMI); 11 of these studies specified a diagnosis of STEMI.Potential confounders such as renal dysfunction, inflammatory disease or cancer were excluded in a majority of the study populations (19 of 27 studies: 70%).
The median length of follow-up was 1 (1-2.7)year from index admission, during which 16 (11-21) % of patients experienced MACE.Endpoints were variably defined among studies, and commonly included all-cause or cardiovascular death, non-fatal MI, stroke, repeat revascularisation and new-onset heart failure.

Quality Assessment
The quality of the 24 cohort studies and the three case-control studies are summarised in Supplementary Table 4 and Supplementary Table 5, respectively.Three (12%) cohort studies were deemed of poor quality, while the remaining 24 studies were deemed of acceptable quality.A poor quality rating was given for three cohort studies due to potential confounders being inadequately addressed [40,43] or for unclear outcome assessment methods [44].Only one study was excluded from the final analysis for failure to adequately discuss the possible implications of inadequate adjustment for confounders and the inability to extract the minimum data required to create a risk ratio value [40].Study objectives, inclusion criteria and methodology were generally well-defined and outcomes for primary endpoints were largely assessed using objective measures.Complete outcome data was provided for all participants in 22 studies, and participants who were reported as lost to follow-up or with incomplete data were generally excluded from analysis from the remaining papers.In total, 22 cohort studies sufficiently controlled for potential confounding factors in multivariate models.All three case-control studies addressed confounders either by sample matching or statistical adjustment based on clinical covariates.

Association of Neutrophil-Enriched Biomarkers and Cardiovascular Outcomes
NGAL The relationship between NGAL and either mortality and/or MACE was examined in 11 cohort studies ranging in size from 68 to 1832 patients with follow-up ranging from 6 months to more than 13 years (Table 2).Most commonly, patients were categorised into high versus low NGAL groups based on medians, tertiles or quartiles (seven studies; 64%) or based on a threshold derived from ROC analysis (two studies, 18%).In three studies (27%), NGAL was treated as a continuous variable in statistical analysis (note that one study used both categorical and continuous approaches to analysis).A significant univariate association between higher levels of NGAL and adverse outcomes were reported in 10 of the 11 studies.In addition, statistically significant multivariate relationships were reported for NGAL and either mortality or MACE in eight (73%) of the 11 studies.NGAL can also be released into the circulation by injured renal cells and may confound the neutrophil-mediated release of NGAL in ACS patients with renal impairment [45,46].To account for this, four of the 11 studies (36%) excluded patients with severe renal impairment as indicated by chronic renal disease, serum creatinine > 1.4 mg/dL, and/or requirement for haemodialysis [44,[47][48][49].Though comparable exclusion criteria were not described in the remaining seven NGAL studies, five studies reported levels of serum creatinine (range 0.81-1.37mg/dL) and eGFR (median range 65-117 mL/min/1.73m 2 ) within normal ranges [35,40,[50][51][52], and only a small proportion of patients were reported as requiring dialysis in three studies (range 0.3-2.0%)[35,50,53].In contrast, Barbarash et al. did not state whether the moderate proportion of patients in this study (29%) with marked renal impairment (eGFR < 60 mL/min/1.73m 2 ) were accounted for in the analysis [54].

MPO
The prognostic ability of circulating MPO was assessed in 10 studies (eight cohorts and two case-control) that included 9074 patients with ACS (Table 3).Three studies (30%) treated MPO as a continuous variable, while eight (80%) studies grouped patients into high versus low MPO levels (one study did both).A total of seven studies reported an association between increased levels of MPO and adverse

Markers of NETosis
The association between markers of NETosis (dsDNA, MPO-DNA, NE-DNA and CitH3) and MACE were examined in 1649 patients across four studies (Table 4).Increased levels of dsDNA were independently predictive of MACE in three studies [37,38,55], two of which were conducted by the same institution [37,38].Neither MPO-DNA, NE-DNA nor CitH3 were found to predict MACE after ACS in three studies [37,38,41].
Calprotectin Adjusted HRs were extracted from two studies evaluating the prognostic significance of calprotectin in 207 patients with ACS [36,56] (Table 5).All-cause mortality was reported in 9.2% of patients in Jensen et al. [36] and in 17.2% of patients in Wang et al [56] within the first year after coronary revascularisation.Both studies observed a statistically significant independent association between elevated calprotectin levels and MACE.
PR3 Ng et al. [42] demonstrated a significant independent association between MACE at 1 year and PR3 (per 10-fold increase in log concentration) in 900 patients with ACS (Table 5).MACE was defined as all-cause mortality, recurrent MI and hospitalisation with HF and was reported in 16% of patients.

Meta-analysis of NGAL
Of the 11 studies investigating circulating NGAL levels, risk ratio data from 7 studies (64%) was extracted and pooled in a random effects model [44,[48][49][50][51][52][53].Within these studies, a total of 1384 MACE events were recorded for 5488 patients with ACS.Four studies were excluded from meta-analysis due to incomplete study data.Composite MACE [49,50,53] and all-cause mortality endpoints were each assessed in three studies [44,51,52], while CV mortality was assessed in one study [48].Meta-analysis demonstrates that, when dichotomized by high or low baseline NGAL levels, high levels were associated with a 51.6% increased risk of MACE (unadjusted RR 1.52, 95% CI 1.16-2.06,p = 0.016) compared to low levels (used as the reference) (Fig. 2A).There was evidence of substantial statistical heterogeneity in the model, with τ 2 of 0.09 (95% CI 0.03-0.57,p < 0.0001) and I 2 of 99.7% (95% CI 99.1-100.0%).Observation of a non-uniform distribution of study p-values in the contour funnel plot alongside a significant Egger's test (z = 2.65, p = 0.04) indicates likely publication bias resulting from small study effects (Fig. 2B).

Meta-analysis of MPO
Of the 10 studies describing the association of baseline MPO levels with MACE, risk ratio data was extracted from nine studies and pooled in a random effects meta-analysis.Study effect estimates could not be approximated to RR for Ng et al. due to incomplete study data [42].A total of 1577 MACE events were captured in 8174 patients with ACS, ranging from 6 months to 5 years after index admission.Elevated circulating levels of MPO were significantly associated with an increased risk of MACE (unadjusted RR 1.61, 95% CI 1.22-2.13,p = 0.004) compared to low MPO levels (Fig. 2C).Moderate heterogeneity was noted in the model (τ 2 0.07, 95% CI 0.01-0.52;p = 0.004 and I 2 70.0%, 95% CI 25.8-94.1).The funnel plot for MPO indicates the presence of asymmetry with a non-uniform distribution of p-values for the studies in the contour funnel plot; however, Egger's test was non-significant suggesting small study effects are not driving publication bias (z = 1.11, p = 0.3) (Fig. 2D).

Discussion
We identified 27 studies investigating the prognostic association of either NGAL, MPO, calprotectin, PR3 or markers of NETosis (dsDNA, MPO-DNA, NE-DNA, CitH3) with MACE in patients with ACS.NGAL was the most studied marker, with 11 studies reporting associations between NGAL and MACE.Ten of these found higher levels of NGAL were associated with worse outcomes.Seven studies contained sufficient information to be incorporated into a random effects meta-analysis, which showed that increased levels of circulating NGAL during hospital admission were associated with a 52% increase in risk for long-term MACE.MPO was investigated in 10 studies, 9 of which could be incorporated into a meta-analysis.This analysis demonstrated that increased MPO levels at presentation with ACS were associated with a 61% increased risk of long-term MACE.The other markers were less well studied, but there was some evidence of an association between increased circulating levels of calprotectin, PR3 and dsDNA (used as a surrogate marker of NETosis) and long-term MACE.
Both the multivariate outcomes reported within the individual studies, and the meta-analysis of the unadjusted outcomes support the view that elevated levels of NGAL are associated with worse clinical outcomes.NGAL is an acute-phase glycoprotein contained within specific granules of neutrophils and elicits antimicrobial and chemotactic functions at sites of inflammation [51,52,57].Within the post-ischemia setting, NGAL acts to enhance MMP-9 activation by forming the stable NGAL/MMP-9 complex which, in turn, can amplify and prolong ECM degradation during infarct remodelling [57].Within the coronary and systemic circulation, neutrophils are the principal source of circulating NGAL [10,11].However, NGAL is also an early biomarker of acute kidney injury as a result of secretion from renal tubular cells [58,59].It is possible that the release of NGAL by injured renal cells in ACS patients that also have poor kidney function may confound the prognostic association of neutrophil-derived NGAL [40].
MPO is a haemoprotein released from the azurophilic granules of mature neutrophils and is also released, to a lesser degree, by other immune cells such as monocytes and tissue-associated macrophages [64].Within atherosclerotic lesions, MPO plays a prominent role in plaque destabilisation [65].The oxidation of ROS substrates such as nitric oxide (NO) and protein and lipid components in the vascular endothelium serves as important mechanisms of MPO-mediated endothelial dysfunction [66].As an early participant in acute inflammation, MPO induces proteolytic changes in tissue mediators such as MMPs and plasminogen activator inhibitor-1 (PAI-1) to promote ECM degradation in the infarct [67].Seven out of 10 studies (70%) reported a significant univariate association between increased circulating levels of MPO and long-term MACE, in which MPO remained an independent predictor of MACE in six studies [39,43,[68][69][70][71]. Meta-analysis of the unadjusted outcomes supports this association between higher levels of MPO and increased risk.
NETs are extracellular scaffolds composed of decondensed chromatin, citrullinated histones and granular proteins such as MPO and NE [72][73][74][75][76]. Beyond their antimicrobial role, NETs accumulate in coronary thrombi in ACS to exert prothrombotic functions [77,78].For example, NETs act to promote fibrin deposition and thrombin generation through the activation of tissue factors and platelet aggregation [79,80].Much of the literature investigating NETs as novel predictors of cardiovascular risk in ACS has focused on circulating dsDNA as a surrogate marker of NETosis [20,38].In this review, increased levels of circulating dsDNA in MI patients were found to be a significant predictor of MACE in three studies [37,38,55].A caveat in ACS patients is that dsDNA is not specific to NETosis but can also be released from dying cardiomyocytes.Other surrogate NET markers (namely, MPO-DNA, NE-DNA and CitH3) have greater specificity for NETosis than dsDNA [81][82][83].Yet, based on the studies identified in this review, there was no evidence supporting their individual utility for predicting MACE [37,38,41].We found less literature on PR3 and calprotectin.Like MPO, PR3 is a neutrophil-derived serine protease [84].PR3 has been associated with promoting neutrophil recruitment through its ability to activate certain chemokines and cytokines [85,86].In Ng et al., increased plasma levels of a PR3 complex were significantly associated with long-term risk of MACE post-MI [42].Calprotectin is predominantly released by neutrophils [12,17,87,88] and is involved in a myriad of inflammatory functions including phagocytosis [89], neutrophil and monocyte recruitment [90,91] and cytokine and chemokine production [92].Both Wang et al. [56] and Jensen et al. [36] reported calprotectin was associated with long-term MACE after adjustment for confounding variables.
Publication bias is an issue to be mindful of when interpreting the results from any meta-analysis.In our metaanalyses of NGAL and MPO, we observed some clustering of the studies in the p = 0.01-0.05significance bands in the contour funnel plots.Furthermore, a significant Egger's test result for NGAL suggests that publication bias due to small study effects is likely to be present.Therefore, it is possible that studies are more likely to be published if reporting a significant association between NGAL and MACE.In the case of MPO, the presence of publication bias is not as clear cut.Despite the presence of asymmetry in the standard funnel plot and the observation of a non-uniform distribution of p-values in the contour funnel plot, the Egger's test was not significant.An Egger's test is often used as an objective measure of asymmetry for funnel plots and is useful for assessing the risk of small study bias inside a meta-analysis, reflecting the fact that greater variance is often observed in smaller studies [34].However, publication bias should only be one factor when considering the presence of asymmetry in a funnel plot.Other important sources of selection bias include outcome reporting bias, clinical heterogeneity and poor methodological design, all of which are often associated with smaller studies [93].It is difficult to ascertain the definitive source of bias that may exist in our forest plots for the NGAL and MPO studies, although we present some plausible reasoning in our limitations.It must be highlighted that these meta-analyses were conducted on 7 and 9 studies respectively, which is below the minimum number of 10 studies recommended for analysing publication bias [93].Therefore, the results of bias must be interpreted cautiously from our study as the Egger's test may not be powered to distinguish real asymmetry from chance.We would like to highlight that small studies, or large effect sizes reported by small studies, are not problematic in themselves.There is valuable information to be gathered from these types of studies.However, it is the selective publication of results which favours the publication of smaller studies more commonly than from larger studies that then causes bias to become an issue.

Limitations
These studies discussed in this review are cohort and casecontrol designs, none of which constitute high-quality evidence for evaluating the prognostic utility of the biomarkers studied.In addition, for the most studied biomarkers, NGAL and MPO, there is evidence that publication bias may contribute to the effect observed in both meta-analyses.
The heterogeneity of timing of blood sampling among studies included within this review is a potential confounder.The exact timing of peak neutrophil activity is unclear in humans [4,[94][95][96][97].There is currently no consensus regarding an optimal timepoint to measure biomarkers in the acute stage of myocardial infarction, nor whether biomarkers measured at a single moment in time can sufficiently capture their contribution to MACE risk.Studies examining biomarkers at multiple timepoints may provide insight into the impact of timing on prognostic utility.
Length of follow-up and definitions of MACE varied between studies, contributing to the variance in MACE rates observed (from 6.4 [51] to 88.4% [54]).In Barbarash et al. [54], the high MACE rate of 88.4% may likely reflect the higher baseline risk of the population as well as the inclusion of unstable angina as a MACE endpoint.The variance in MACE rates, as well as differences in study populations and length of follow-up, are likely contributors to the high heterogeneity observed in meta-analysis of MPO and NGAL.
For clinically practical reasons, the studies included here examined biomarkers exclusively in peripheral blood samples.However, soluble mediators may exhibit biological compartmentalisation that cannot be captured in peripheral samples.Previous studies have revealed a significantly higher expression of markers of neutrophil degranulation and NETosis in coronary thrombi than in peripheral plasma [98], and in infarct-related arteries, but not in samples taken from non-infarct-related coronaries [79,99].By contrast, peripheral and coronary dsDNA are reported to be highly intercorrelated [55].It is possible that, compared to peripheral blood, coronary sinus blood may offer a better reflection of these biomarkers within the ischaemic microenvironment.However, questions concerning the clinical practicality, safety and invasiveness of coronary sinus sampling remain.
It must be noted that this systematic review and metaanalyses focused on studies reporting a correlation between neutrophil biomarkers and clinical outcome in ACS patients.These studies did not investigate a causative association between the investigated biomarker and MACE, such that interpretation of these relationships must be viewed with caution when considering what is driving adverse outcomes in these patients.However, clinical trials such as CANTOS [100] and ASSAIL-MI [101] have presented compelling results to suggest that the level of inflammation in patients with cardiovascular disease is linked with cardiac outcomes.Both CANTOS and ASSAIL-MI show that targeting specific inflammatory cytokines with a monoclonal antibody therapy can reduce cardiovascular events (CANTOS) and limit infarct expansion (ASSAIL-MI).These results give rise to a plausible mechanistic connection between the burden of inflammation during the acute phase of an MI and MACE at 1 year.Whether neutrophil biomarkers, like the ones discussed in this study, are involved in this mechanistic process remains unclear.

Conclusion
This systematic review and meta-analysis examined the prognostic utility of eight neutrophil-enriched biomarkers in patients with ACS.In a meta-analysis, increased levels of circulating NGAL and MPO were found to be significantly associated with long-term adverse cardiovascular outcomes in patients with ACS, supporting the possibility that neutrophil-mediated inflammation may play an important role in myocardial injury processes.For the remaining markers, promising data indicates the association of dsDNA, calprotectin and PR3 with long-term MACE post-ACS.However, no such association was found for MPO-DNA, NE-DNA or CitH3 (all surrogate markers of NETosis).While these eight circulating biomarkers are predominantly produced by neutrophils, the release of some of these (dsDNA and

Fig. 2
Fig. 2 Meta-analysis for neutrophil gelatinase-associate lipocalin (NGAL) and myeloperoxidase (MPO).A, C The forest plots illustrate the unadjusted individual and summary risk ratios (RR) for MACE among ACS patients with high and low baseline levels of NGAL (A) and MPO (C) during hospital admission.The summary RR is indicated by the diamond and was calculated based on random effects meta-analysis using REML estimation and Hartung-Knapp adjustment.Weightings for each of the studies included in the model are

Table 1
Summary of the characteristics of the 27 studies included in the systematic review

Table 1 (
refers to the percentage reduction of the intraluminal diameter of coronary arteries with stenosis; § denotes the mean follow-up period in months for low and high dsDNA groups, respectively; § § denotes the median time from symptom onset to sampling for patients who died and who survived at follow-up, respectively ‡

Table 2
Association between NGAL and MACE in patients with ACS

Table 4
Association between NETosis components and MACE in patients with ACS