Morbidity associated with patent ductus arteriosus in preterm newborns: a retrospective case-control study

Introduction: Association between persistency of a patent ductus arteriosus (PDA) and morbidity in preterm newborns is still controversial. We aimed to investigate the relation between PDA and morbidity in a large retrospective study. Methods: A case-control study including neonates consecutively admitted to the Neonatal Intensive Care Unit (NICU), with gestational age (GA) < 32 weeks or body birth weight (BW) < 1500 g, over a 5-year period. Newborns were divided into Cases and Controls, according with the presence or absence of a hemodynamically significant PDA (hs-PDA). Results: We enrolled 85 Cases and 193 Controls. Subjects with hs-PDA had significantly (p < 0.001) lower GA (26.7 w, 95%CI 27.1–28.0 vs. 30.1 w, 95%CI 29.7–30.4), BW (1024 g, 95% CI 952–1097 vs. 1310 g 95%CI 1263–1358) and an increased morbidity (60.0% vs. 18.7%). In a sub-group of extremely preterm newborns (GA ≤ 28 weeks and BW ≤ 1000 g), the rate of bronchopulmonary dysplasia (BPD) was significantly increased in Cases (31.7%) compared with Controls (5.9%, p = 0.033). Multivariate analysis showed that morbidity significantly depended on hs-PDA, GA and BW, and that, in extremely preterms, the hs-PDA represented an independent risk factor for BPD. Conclusions: Occurrence of the main morbidities of prematurity depended by hs-PDA, in association with GA, BW, and use of prenatal steroids. In extremely premature babies, hs-PDA is a risk factor for BPD, one of the most important morbidity of prematurity, independently by other confounding variables

Nutritional intake influences zinc levels in preterm newborns: an observational study

(1) Background: Zinc is a key element for protein synthesis in preterm newborns. Early aggressive nutrition, promoting protein synthesis, may increase zinc consumption; (2) Methods: We performed a prospective observational study, to assess the relationship between early macronutrients intake and serum zinc levels, in preterm newborns with Gestational Age (GA) of 24-35 weeks, consecutively observed in Neonatal Intensive Care Unit (NICU). (3) Results: We enrolled 130 newborns (GA 31.5 ± 2.8). A significant negative correlation between serum zinc level at 28 days of life and energy (r -0.587, p < 0.001) and protein intake (r -0.556, p < 0.001) in the first week of life was observed. Linear regression analysis showed that zinc levels depended on energy (β -0.650; p < 0.001) and protein (β -0.669; p < 0.001) intake given through parenteral nutrition (PN) in the first week of life; (4) Conclusions: zinc status of preterm neonates was influenced by early protein and energy intake. An additional zinc supplementation should be considered when high protein and energy intake are received by preterm newborns in the first week of life

Early Enteral Feeding Improves Tolerance of Parenteral Nutrition in Preterm Newborns

(1) Background: The tolerance of preterm newborns for the high nutritional intakes given by parenteral nutrition (PN) is still debated because of the risk of metabolic complications. Despite enteral nutrition (EN) being the preferred route of nutrition, an exclusive enteral feeding is not always possible, as in preterm newborns, the gut is immature and less tolerant of EN. We aimed to study the impact of a minimal enteral feeding (MEF) on the possible early metabolic complications of PN in a cohort of preterms with gestational age at birth GA ≤ 29 + 6/7 weeks of postmenstrual age. (2) Methods: We divided the study sample in two cohorts: 1) Late-Feeding (cohort 1), newborns who received MEF starting from the 8th day of age, and (2) Early-Feeding (cohort 2), newborns who received MEF, consisting of the administration of at least 4–5 mL/kg/day by the enteral route, in the first 7 days of age. The primary outcome of the study was the rate of at least one metabolic complication, including hyperglycemia, hypertriglyceridemia, or metabolic acidosis. (3) Results: We enrolled 80 newborns (Late-Feeding cohort 51 vs. Early-Feeding cohort 29). The rate of all metabolic complications was statistically higher in the Late-Feeding cohort compared to the Early-Feeding cohort. Binary logistic regression analysis showed that late administration of MEF negatively influenced the rate of all metabolic complications. (4) Conclusions: Early minimal administration of EN is associated with less frequent PN-related metabolic side effects and a higher rate of survival in critically ill newborns

Nutritional Intake Influences Zinc Levels in Preterm Newborns: An Observational Study

(1) Background: Zinc is a key element for protein synthesis in preterm newborns. Early aggressive nutrition, promoting protein synthesis, may increase zinc consumption; (2) Methods: We performed a prospective observational study, to assess the relationship between early macronutrients intake and serum zinc levels, in preterm newborns with Gestational Age (GA) of 24-35 weeks, consecutively observed in Neonatal Intensive Care Unit (NICU). (3) Results: We enrolled 130 newborns (GA 31.5 ± 2.8). A significant negative correlation between serum zinc level at 28 days of life and energy (r -0.587, p < 0.001) and protein intake (r -0.556, p < 0.001) in the first week of life was observed. Linear regression analysis showed that zinc levels depended on energy (β -0.650; p < 0.001) and protein (β -0.669; p < 0.001) intake given through parenteral nutrition (PN) in the first week of life; (4) Conclusions: zinc status of preterm neonates was influenced by early protein and energy intake. An additional zinc supplementation should be considered when high protein and energy intake are received by preterm newborns in the first week of life

Long-term effects on growth of an energy-enhanced parenteral nutrition in preterm newborn: A quasi-experimental study.

AIM:To assess the best energy intake in Parenteral Nutrition (PN) for preterm newborns, considering both possible benefits for growth and risk of complications. METHODS:Quasi-experimental study comparing two cohorts of newborns, receiving Energy-Enhanced vs. Standard PN (Cohort A, from 1st January 2015 to 31 January 2016 and Cohort B from 1st February 2016 to 31 March 2017; respectively) after implementation of a change in the PN protocol. The primary outcome measure was growth at 24 months of life. The PN associated complications were also measured. RESULTS:We enrolled 132 newborns in two Cohorts, similar for prenatal and postnatal clinical characteristics. Although, body weight and length at 24 months of life were significantly higher (p<0.05) in the Cohort A (11.1, 95% CI 10.6 to 11.6 Kg; 85.0 95% CI 83.8 to 86.2 cm) compared with Cohort B (10.4, 95% CI 9.9 to 10.9 Kg; 81.3 95% CI 79.7 to 82.8 cm), body weight and length Z-Score in the first 24 months of life were similar between the two Cohorts. The rate of PN associated complications was very high in both study Cohorts (up to 98% of enrolments). Multivariate analysis showed that length at 24 months was significantly associated with receiving standard PN (cohort A) in the first week of life and on the energy intake in the first week of life. We also found a marginally insignificant association between Cohort A assignment and body weight at 24 months of life (p = 0.060). CONCLUSIONS:Energy-enhanced PN in early life has not significant effects on long-term growth in preterm newborns. The high prevalence of PN associated complications, poses concerns about the utility of high energy intake recommended by current guidelines for PN

Energy-enhanced parenteral nutrition and neurodevelopment of preterm newborns: a cohort study

Objectives Preterm births are higher risk of neurodevelopment (NDV) disabilities. To limit long-term consequences, guidelines recommend aggressive Parenteral Nutrition (PN) soon after birth. Our purpose was to study the effects of an energy-enhanced PN in the first week of life on long-term NDV in preterm neonates. Methods We compared two Cohorts (A energy-enhanced PN and B energy-standard PN) of newborns with different energy intake in the first 7 days of life (DOL) given by PN but with the same protein amount, to study the influences of an energy-enhanced PN on NDV at 24 months of life evaluating with Bayley Scale of Infants Development - III edition Results We analyzed 51 newborns (A 24 vs. B 27). The two Cohorts were similar for baseline characteristics (gestational age A 29, 95 % CI 28 to 30 weeks vs. B 29, 95 % CI 28 to 30 weeks; birth weight A 1214, 95 % CI 1062 to 1365 grams vs. B 1215, 1068 to 1363 grams; male gender A 62.5% vs. B 55.6%). Infants in Cohort B showed significantly (p&lt;0.05) best gross motor, total scaled and total composite motor scores (A 8 (1) vs. B 9 (2); A 17 (4) vs. B 19 (5); A 91 (12) vs. B 97 (15); respectively). Cohort A showed a higher percentage of infants with delayed socio-emotional competence (A 30.4% vs. B 7.7%, p&lt;0.05). No differences were found in growth parameters at 24 months of life. Linear regression analysis showed that socio-emotional competence and motor score were negatively associated with energy intake of the first 7 DOL given by PN Conclusions A more aggressive PN strategy results in lower motor score ad socio-emotional competences performance at 24 months of life. More caution might be advocated for an energy-enhanced PN protocol, particularly in neonates with lower birth weight, for long-term NDV in preterm neonates