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Abstract

Sepsis-related mortality and morbidity are major health care problems worldwide. More effort is required to identify factors associated with adverse outcome. Evaluate the prognostic capacity of tumor necrosis factor (TNF), kidney injury molecule (KIM), and lactate and TNF-α-308 G > A gene polymorphism for prediction of 28 days-intensive care unit (ICU) mortality. TNF-α-308 G > A single nucleotide polymorphisms was detected by real-time-PCR on 112 had septic shock and 88 were septic. Serum TNF-α and urinary KIM were assessed by enzyme-linked immunosorbent assay. This study included 200 critically ill patients, 125 (62.5%) of them died within 28 days in ICU (nonsurvivors). Frequencies of TNF-308 G > A was (70.7) GG, (28) GA and (1.3) AA in survivors versus (85.6) GG, (12) GA and (2.4) AA for nonsurvivors, revealed significant association with ICU mortality but not sepsis severity (p = 0.15) or sepsis-induced acute kidney injury (AKI). In contrast, urinary KIM-1 revealed significant association with sepsis severity (p = 0.036) and AKI (p = 0.0001), but not 28-days ICU mortality. The relative risk of death in patients with GG genotype was 2.5 mainly in ICU younger male patients (odds ratios 24 and 4.9, p = 0.001). The genotype GG and GA were significantly associated with [increased urinary KIM-1 (0.29 ± 0.1) (p = 0.0001), terminal creatinine (1.67 ± 0.8) (p = 0.0001)] and [increased terminal urea (109 ± 0.001) (p = 0.001) and basal serum TNF (60 ± 0.001) (p = 0.0001)], respectively. In linear regression analysis, AKI 0.0001 (0.4–0.67), basal serum TNF 0.04 (0.0001–0.04), and TNF-308 GG 0.007 (0.05–0.33) were associated with 28 days ICU mortality [p value (95% confidence interval)]. The same results were observed for initial urea 0.024 (0.0001–0.003) and lack of diuretic usage 0.0001 (0.35–0.7) mainly in septic patients. Major frequency of TNF-308 G > A polymorphism (mainly in young age male patients), AKI and serum TNF were associated with increased risk for 28 days-ICU mortality. Furthermore, sepsis severity was influenced by TNF and urinary KIM-1, which reflects in AKI.

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References

Acar

, Atalan

, Karagedik

, and Ergen

(2018). Tumour necrosis factor-alpha and nuclear factor-kappa B gene variants in sepsis. Balkan Med J, 35, 30–35.

Afonina

, Zivarts

, Kutyavin

, et al. (1997). Efficient priming of PCR with short oligonucleotides conjugated to a minor groove binder. Nucleic Acids Res, 25, 2657–2660.

Allam

, Alsulaimani

, Alzaharani

, and Nasr

(2015). Neonatal infections in Saudi Arabia: association with cytokine gene Polymorphisms. Centr Eur J Immunol, 40, 68–77.

Baghel

, Srivastava

, Chandra

, Goel

, Agrawal

, Kazmi

, et al. (2014). TNF-α, IL-6, and IL-8 Cytokines and their association with TNF-α-308 G>A polymorphism and postoperative sepsis. J Gastrointest Surg, 18, 1486–1494.

Brakenridge

S.C.

, Efron

P.A.

, Stortz

J.A.

, et al. (2018). The impact of age on the innate immune response and outcomes after severe sepsis/septic shock in trauma and surgical intensive care unit patients. J Trauma Acute Care Surg, 85, 247–255.

Cardinal-Fernandez

P.A.

, Ferruelo

, El-Assar

, Santiago

, et al. (2013). Genetic predisposition to acute kidney injury induced by severe sepsis. J Crit Care, 28, 365–370.

Dong

G.H.

, Gong

J.P.

, Li

J.Z.

, et al. (2013). Association between gene polymorphisms of IRAK-M and the susceptibility of sepsis. Inflammation, 36, 1087–1093.

Garnacho-Montero

, Aldabo-Pallas

, Garnacho-Montero

, et al. (2006). Timing of adequate antibiotic therapy is a greater determinant of outcome than are TNF and IL-10 polymorphisms in patients with sepsis. Crit Care 10, R111.

Helmig

, Aliahmadi

, Stephan

, Döhrel

, and Schneider

(2011). TNF-308 G>A genotypes are associated with TNF-a and TGF-b1 mRNA expression in blood leucocytes of humans. Cytokine, 53, 306–310.

10.

Knaus

, Draper

, Wagner

, and Zimmerman

(1985). APACHE II: a severity of disease classification system. Crit Care Med, 13, 818–829.

11.

Knaus

, and Wagner

(1989). Multiple systems organ failure: epidemiology and prognosis. Crit Care Clin, 5, 221–232.

12.

Levy

, Fink

, Marshall

, Abraham

, Angus

, and Ramsay

(2003). International sepsis definitions conference. Intensive Care Med, 17, 530–538.

13.

Lyle

N.H.

, Pena

O.M.

, Boyd

J.H.

, and Hancock

R.E.

(2014). Barriers to the effective treatment of sepsis: antimicrobial agents, sepsis definitions, and host-directed therapies. Ann N Y Acad Sci, 1323, 101–114.

14.

Mayr

F.B.

, Yende

, and Angus

D.C.

(2014). Epidemiology of severe sepsis. Virulence, 5, 4–11.

15.

Mera

, Tatulescu

, Cismaru

, Bondor

, Slavcovici

, Zanc

, et al. (2011). Multiplex cytokine profiling in patients with sepsis. APMIS, 119, 155–163.

16.

Mira

J.P.

, Cariou

, Grall

, et al. (1999). Association of TNF2, a TNF-alpha promoter polymorphism, with septic shock susceptibility and mortality: a multicenter study. JAMA, 282, 561–568.

17.

Montoya-Ruiz

, Jaimes

, Rugeles

, lvaro López

, Bedoya

, and Velilla

(2016). Variants in LTA, TNF, IL1B and IL10 genes associated with the clinical course of sepsis. Immunol Res, 64, 1168–1178.

18.

Oberholzer

, Souza

S.M.

, Tschoeke

S.K.

, et al. (2005). Plasma cytokine measurements augment prognostic scores as indicators of outcome in patients with severe sepsis. Shock, 23, 488–493.

19.

Read

R.C.

, Teare

D.M.

, Pridmore

A.C.

, et al. (2009). The tumor necrosis factor polymorphism TNF (-308) is associated with susceptibility to meningococcal sepsis, but not with lethality. Crit Care Med, 37, 1237–1243.

20.

Retsas

, Huse

, Lazaridis

, Karampela

, Bauer

, Platzer

, et al. (2018). Haplotypes composed of minor frequency single nucleotide polymorphisms of the TNF gene protect from progression into sepsis: a study using the new sepsis classification. Int J Infect Dis, 67, 102–106.

21.

Sabelnikovs

, Nikitina-Zake

, Krumina

, et al. (2012). Associations between TNF-α, IL-6 and IL-10 promoter polymorphisms and mortality in severe sepsis. J Sci Res Rep, 1, 17–28.

22.

Bevc

, Ekart

, Hojs

. (2017). The assessment of acute kidney injury in critically ill patients. Eur J Intern Med, 45, 54–58.

23.

Seymour

C.W.

, Liu

V.X.

, Iwashyna

T.J.

, et al. (2016). Assessment of clinical criteria for sepsis: for the third international consensus definitions for sepsis and septic shock (sepsis-3). JAMA, 315, 762–774.

24.

Shao

, Tian

, Xu

, et al. (2014). Diagnostic value of urinary kidney injury molecule 1 for acute kidney injury: a meta-analysis. PLoS One 9. DOI: 10.1371/journal.pone.0084131.e84131

25.

Stearns-Kurosawa

D.J.

, Osuchowski

M.F.

, Valentine

, et al. (2011). The pathogenesis of sepsis. Annu Rev Pathol, 6, 19–48.

26.

Sugitharini

, Prema

, and Berla Thangam

(2013). Inflammatory mediators of systemic inflammation in neonatal sepsis. Inflamm Res, 62, 1025–1034.

27.

Suh

, Kim

, Choi

, Bae

, Ma

, and Kim

(2013). AKI in patients with sepsis and septic shock; risk factors and clinical outcomes. Yonsei Med J, 54, 965–972.

28.

Surbatovic

, Grujic

, Cikota

, Jevtic

, Filipovic

, Romic

, et al. (2010). Polymorphisms of genes encoding tumor necrosisfactor-alpha, interleukin-10, cluster of differentiation-14and interleukin-1ra in critically ill patients. J Crit Care, 25, 542.e1–542.e8.

29.

Taudien

, Lausser

, Giamarellos-Bourboulis

E.J.

, Sponholz

, Schoneweck

, Felder

, et al. (2016). Genetic factors of the disease course after sepsis: rare deleterious variants are protective. EBioMedicine, 12, 227–228.

30.

, Wang

, Sun

, Ni

, Ma

, Xv

, et al. (2014). Urinary netrin-1 and KIM-1 as early biomarkers for septic acute kidney injury. Renal Fail, 36, 1559–1563.

31.

Wang

, Guo

, Wan

, et al. (2017). Tumor necrosis factor-α-308 G>A polymorphism and risk of sepsis, septic shock, and mortality: an updated meta-analysis. Oncotarget, 8, 94910–94919.

32.

Zehnbauer

(2005). Population genetics in critical illness. Crit Care Med, 33, 242–243.

33.

Zhang

, Zhao

, and Liu

(2017). Tumor necrosis factorα-308G>A and TNF-238G>A polymorphisms are associated with increased risks of sepsis: evidence from an updated meta-analysis. APMIS, 125, 459–467.

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Association of TNF-α-308 (G >A) (rs1800629) Gene Polymorphism with Adverse Outcomes of Sepsis in Critically Ill Patients

Abstract

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