Improved respiratory outcomes for infants weighing less than 1000 g were evident at Middlemore Hospital. This was attributed to the use of a nasal CPAP-based respiratory support system.
Background Lactoferrin is the major antimicrobial protein in human milk. In our randomized controlled trial (RCT) of bovine lactoferrin (BLF) supplementation in preterm neonates, BLF reduced late-onset sepsis (LOS). Mother's own milk (MM) contains higher concentrations of lactoferrin than donor milk or formula, but whether BLF is more effective in infants who receive formula or donor milk is uncertain. Aim To evaluate the incidence of LOS in preterm infants fed MM and in those fed formula and/or donor milk. Study Design This is a (A) post hoc subgroup analysis, in our RCT of BLF, of its effects in preterm infants fed MM, with or without formula, versus those fed formula and/or donor milk (no-MM) and (B) post hoc meta-analysis, in our RCT of BLF and in the ELFIN (Enteral Lactoferrin in Neonates) RCT, of the effect of BLF in subgroups not exclusively fed MM. Results (A) Of 472 infants in our RCT, 168 were randomized to placebo and 304 were randomized to BLF. Among MM infants, LOS occurred in 22/133 (16.5%) infants randomized to placebo and in 14/250 (5.6%) randomized to BLF (relative risk or risk ratio (RR): 0.34; relative risk reduction (RRR): 0.66; 95% confidence interval (95% CI) for RR: 0.18–0.64; p < 0.0008). Among no-MM infants, LOS occurred in 7/35 (20.0%) randomized to placebo and in 2/54 (3.7%) randomized to BLF (RR: 0.19; RRR: 0.81; 95% CI for RR: 0.16–0.96; p = 0.026). In multivariable logistic regression analysis, there was no interaction between BLF treatment effect and type of feeding (p = 0.628). (B) In 1,891 infants not exclusively fed MM in our RCT of BLF and in the ELFIN RCT, BLF reduced the RR of LOS by 18% (RR: 0.82; 95% CI: 0.71–0.96; p = 0.01). Conclusion Adequately powered studies should address the hypothesis that BLF is more effective in infants fed formula or donor milk than those fed MM. Such studies should evaluate whether a specific threshold of total lactoferrin intake can be identified to protect such patients from LOS.
BACKGROUND: In spite of widespread use of nasal CPAP there are comparatively few studies to guide the choice of nasal prongs. OBJECTIVES: To determine whether the Fisher & Paykel Healthcare (FPH) neonatal continuous positive airway pressure (CPAP) interface was effective in providing bubble CPAP when compared to the Hudson prong interface. METHODS:The study was a randomized cross-over study of twenty newborn infants 500 g or more requiring CPAP for respiratory support at birth. Infants were randomized to either the Fisher & Paykel Healthcare or Hudson CPAP interface for twenty four hours. Crossover between interfaces occurred after subsequent twenty four hour periods. The primary outcome was the provision of desired CPAP pressures, defined as provision of CPAP within ± one cm H 2 O of set pressure. RESULTS: The percentage time CPAP was within ± one cm H 2 O of set pressure was 66.5% for the Hudson and 71.8% for the FPH interface (p = 0.66). Oxygen saturations for the Hudson interface were in target range for a median of 97.8% of the time, and, with the FPH interface, for a median of 98.2% of the time (p = 0.76). Clinically significant differences in primary or secondary outcomes between the two groups were not detected. CONCLUSIONS: The nasal CPAP interfaces studied were equally effective in achieving desired bubble CPAP pressures and target saturations.
BACKGROUND: Little is known about normative ammonia concentrations in extremely low birthweight (ELBW) babies and whether these vary with birth characteristics. We aimed to determine ammonia concentrations in ELBW babies in the first week after birth and relationships with neonatal characteristics and protein intake. METHODS: Arterial blood samples for the measurement of plasma ammonia concentration were collected within 7 days of birth from ProVIDe trial participants in six New Zealand neonatal intensive care units. RESULTS: Three hundred and twenty-two babies were included. Median (range) gestational age was 25.7 (22.7-31.6) weeks. Median (interquartile range (IQR)) ammonia concentration was 102 (80-131) µg/dL. There were no statistically significant associations between ammonia concentrations and birthweight or sex. Ammonia concentrations were weakly correlated with mean total (Spearman's r s = 0.11, P = 0.047) and intravenous (r s = 0.13, P = 0.02) protein intake from birth, gestational age at birth (r s = −0.13, P = 0.02) and postnatal age (r s = −0.13, P = 0.02). CONCLUSIONS: Plasma ammonia concentrations in ELBW babies are similar to those of larger and more mature babies and only weakly correlated with protein intake. Currently, recommended thresholds for investigation of hyperammonaemia are appropriate for ELBW babies. Protein intake should not be limited by concerns about potential hyperammonaemia.
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