In conclusion, this study may indicate that TNF-alpha-308G/A and IL-10-592C/A polymorphisms involved in subsequent activation of cytokine network had a larger effect on clinical outcome in patients with sepsis than TLR4Asp299Gly, Thr399Ile, and CD14-159C/T polymorphisms associated with the initial host-microbial interaction.
Polymorphisms of IL-1beta/-1470, IL-1beta/-511, IL-1beta/-31, IL-4/-589, IL-6/-572, IL-8/-251, IL-10/-819, and TNFalpha/-308 are susceptibility loci for the development of sepsis and organ dysfunction in major trauma patients.
The TNFA minor A-allele group also had a higher Multiple Organ Failure score of 0.26 (95% CI: 0.03, 0.49; p = 0.024) after adjustment for sex, race, age, and sepsis.
While the genotype TNF-beta1/beta2 has a higher risk for developing complications in general, the TNF-beta2/beta2 genotype is associated with more severe complications and mortality from sepsis.
This meta-analysis suggests that the -308G/A gene polymorphism in the TNF-α gene may contribute to risk of sepsis and septic shock, but not risk of mortality.
In conclusion, in this pilot study the biallelic Ncol polymorphism within the TNF locus was not a prognostic marker for disease progression in high-risk NICU-admitted term and preterm infants with culture-proven sepsis.
<b>Expert opinion</b>: TNFα antagonists may be more immunosuppressive than non-TNF-targeted biologic agents and increase the risk of systemic infections.
<b>Conclusion</b> We uncovered an association between IL-10 1082 gene variation and sepsis in VLBW infants but did not identify associations between neonatal sepsis and TNF-α 308 or IL-6 gene variation.
We found an association between the SNP LTA +252 with the development of sepsis [OR 1.29 (1.00-1.68)]; the SNP IL10 -1082 with sepsis severity [OR 0.53 (0.29-0.97)]; the TNF -308 with mortality [OR 0.33 (0.12-0.95)]; and the IL10 -592 and IL10 -1082 with admission to the intensive care unit (ICU) [OR 3.36 (1.57-7.18)] and [OR 0.18 (0.04-0.86)], respectively.
Both rs187084 and rs352162 were significantly associated with TNF-α production by peripheral blood leucocytes in response to bacterial DNA stimulation and a higher sepsis morbidity rate in patients with major trauma.
Distribution of TNF-α(308) genotypes is associated with outcome, IL-10(1082) with type of microorganism and underlying cause of sepsis, and CD14(159) with type of microorganism.
Thus, we investigated the possible association between 12 polymorphisms located in the interleukin-6 (IL6), IL10, TLR-2, Toll-like receptor-4 (TLR-4), tumor necrosis factor-α and tumor necrosis factor-β (lymphotoxin α--LTA) genes and sepsis.
The -308G >A TNF-α SNP effect was analyzed in the entire patient group, in patients with sepsis (349/520), and in those who developed septic shock (248/520).
We conducted a systematic review and meta-analysis to determine whether the TNF-alpha -308 A/G polymorphism TNF2 (G/A or A/A) confers susceptibility to sepsis or is associated with increased risk of death from sepsis.
Considering combinations of genotypes, the TNF-alpha high and IL-10 low producer genotype combination was associated with a approximately 6-fold increased risk of death compared to the TNF-alpha-low and IL-10 intermediate/high producer genotype combination, after adjustment for either APACHE II (P=0.004), MOF score (P=0.004) or sepsis (P=0.006).
Patients with IL-10 (-1082A/A) genotypes were found significantly higher in post traumatic sepsis patients and had a significantly higher risk to developed sepsis complication (p < 0.05, OR = 0.86, C.I = 0.08-8.8).In case of TNF-α (-308) position, GA and GG genotype patients have a significantly lower risk of poor outcome (p < 0.05, OR = 0.25, C.I = 0.01-1.3) and (p < 0.05, OR = 0.22, C.I = 0.01-0.5) in comparison to AA genotype.