BACKGROUND: Systemic inflammation, typically attributed to sepsis, has been repeatedly linked to adverse long-term outcomes in infants born prematurely. However, it is unclear whether other factors can contribute to potentially harmful systemic inflammatory responses. OBJECTIVE: To determine the timing and extent of systemic inflammation occurring in absence of infection in preterm infants exposed to intensive care. METHODS: First, we screened for inflammation biomarkers most strongly linked to infection in a large prospective cohort of 425 newborns (gestational age 24-42 weeks). Second, we longitudinally measured levels of infection-related inflammation biomarkers up to 42 days of post-natal life in a series of 58 infants born ≤30 weeks of gestation exposed to intensive care. Ante- or post-natal infections were excluded using stringent definitions including rigorous histological placental examination. Spearman correlations were used to identify putative clinical factors potentially linked to inflammation. RESULTS: Three biomarkers were most strongly associated with neonatal sepsis (IL-6, IL-8 and G-CSF) in the first cohort. Using these markers, we found a predominant early high intensity systemic inflammation period within the first 72 h of preterm infants' extra-uterine life. Remarkably, this systemic inflammatory response was of magnitude comparable to that observed during sepsis in absence of ante- or post-natal signs of infection, and correlated with the amount of supplemental oxygen exposure (r=0.51-0.60). CONCLUSIONS: Non-infectious sources of systemic inflammation are significant in preterm infants exposed to intensive care and may contribute to intensive care-related organ injury.
BACKGROUND: Systemic inflammation, typically attributed to sepsis, has been repeatedly linked to adverse long-term outcomes in infants born prematurely. However, it is unclear whether other factors can contribute to potentially harmful systemic inflammatory responses. OBJECTIVE: To determine the timing and extent of systemic inflammation occurring in absence of infection in preterm infants exposed to intensive care. METHODS: First, we screened for inflammation biomarkers most strongly linked to infection in a large prospective cohort of 425 newborns (gestational age 24-42 weeks). Second, we longitudinally measured levels of infection-related inflammation biomarkers up to 42 days of post-natal life in a series of 58 infants born ≤30 weeks of gestation exposed to intensive care. Ante- or post-natal infections were excluded using stringent definitions including rigorous histological placental examination. Spearman correlations were used to identify putative clinical factors potentially linked to inflammation. RESULTS: Three biomarkers were most strongly associated with neonatal sepsis (IL-6, IL-8 and G-CSF) in the first cohort. Using these markers, we found a predominant early high intensity systemic inflammation period within the first 72 h of preterm infants' extra-uterine life. Remarkably, this systemic inflammatory response was of magnitude comparable to that observed during sepsis in absence of ante- or post-natal signs of infection, and correlated with the amount of supplemental oxygen exposure (r=0.51-0.60). CONCLUSIONS: Non-infectious sources of systemic inflammation are significant in preterm infants exposed to intensive care and may contribute to intensive care-related organ injury.
Authors: C Dani; E Martelli; G Bertini; M Pezzati; M Rossetti; G Buonocore; P Paffetti; F F Rubaltelli Journal: Arch Dis Child Fetal Neonatal Ed Date: 2004-09 Impact factor: 5.747
Authors: Hannah C Glass; Sonia L Bonifacio; Vann Chau; David Glidden; Kenneth Poskitt; A James Barkovich; Donna M Ferriero; Steven P Miller Journal: Pediatrics Date: 2008-08 Impact factor: 7.124
Authors: Elizabeth A Marchant; Bernard Kan; Ashish A Sharma; Alice van Zanten; Tobias R Kollmann; Rollin Brant; Pascal M Lavoie Journal: Pediatr Res Date: 2015-07-17 Impact factor: 3.756