European journal of pediatrics
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Cell-mediated immunosuppression due to interleukin (IL)-10 may contribute to normal pregnancy. By contrast, delivery is associated with a predominance of T-helper-1 (Th1) cytokines (IL-12, interferon-gamma) and might be regarded as a graft rejection process. The aim of the study was to assess IL-10 and IL-12 levels in cord blood samples from newborns and their normal mothers in relation to the gestational age and type of delivery. Cord blood and serum samples were obtained from 31 term newborns (gestational age 38-42 weeks) and 40 preterm newborns (mean gestational age 32 weeks). Serum samples were obtained from 26 mothers of term newborns at birth. There were 18 term and preterm infants born by caesarean section. Measurements of IL-10 and IL-12 levels by ELISA were repeated in mothers 15 days after delivery and in 11 preterm infants (median 14 days of age). Cord blood IL-10 levels were significantly higher in preterm than in term newborns (median 17.0 versus 3.2 pg/ml, P = 0.0001), but were similar to term newborns and paired mothers (2.2 versus 1.0 pg/ml). Term and preterm newborns also showed similar cord blood IL-12 levels (median 349 versus 320 pg/ml), and these levels were significantly higher when compared to their paired mothers (median 14.5 pg/ml, P = 0.0003). Cord blood IL-10 levels showed a significant inverse correlation with gestational age (P = 0.0001). When preterm infants, at several weeks post-delivery, were compared to gestational age matched newborns, their IL-10 levels were similar (median 8.3 pg/ml) whereas IL-12 levels were clearly lower (147 pg/ml; P = 0.0007). The type of delivery (vaginal versus caesarean) did not influence cord blood IL-10 and IL-12 results. ⋯ Cord blood IL-10 levels are increased in preterm newborns and may be due to the immunosuppression occurring during pregnancy and to fetal immaturity because these levels are inversely correlated with gestational age.
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Randomized Controlled Trial Meta Analysis Clinical Trial
Elective use of nasal continuous positive airways pressure following extubation of preterm infants.
The aim of this study was to determine whether elective use of nasal continuous positive airways pressure (CPAP) following extubation of preterm infants was well tolerated and improved short- and long-term outcomes. A randomized comparison of nasal CPAP to headbox oxygen was undertaken and a meta-analysis performed including similar randomized trials involving premature infants less than 28 days of age. A total of 150 infants (median gestational age 30 weeks, range 24-34 weeks) were randomized in two centres. Fifteen nasal CPAP infants and 25 headbox infants required increased respiratory support post-extubation and 15 nasal CPAP infants and nine headbox infants required reintubation (non significant). Eight infants became intolerant of CPAP and were changed to headbox oxygen within 48 h of extubation; 19 headbox infants developed apnoeas and respiratory acidosis requiring rescue nasal CPAP, 3 ultimately were re-intubated. Seven other trials were identified, giving a total number of 569 infants. Overall, nasal CPAP significantly reduced the need for increased respiratory support (relative risk, 0.57, 95% CI 0.43-0.73), but not for re-intubation (relative risk 0.89, 95% CI 0.68-1.17). Nasal CPAP neither influenced significantly the intraventricular haemorrhage rate reported in four studies (relative risk 1.0, 95% CI 0.55, 1.82) nor that of oxygen dependency at 28 days reported in six studies (relative risk 1.0, 95% CI 0.8, 1.25). In two studies nasal CPAP had to be discontinued in 10% of infants either because of intolerance or hyperoxia. ⋯ Elective use of nasal continuous positive airways pressure post-extubation is not universally tolerated, but does reduce the need for additional support.