Loading clinical trials...
Loading clinical trials...
Showing 1-5 of 5 trials
NCT07045844
The goal of this clinical trial is to evaluate whether supplementing with pasteurized donor human milk (pHDM) or preterm formula (PTF) when own mother's milk (OMM) is insufficient can improve outcomes in very preterm infants born before 29 weeks of gestation. It also aims to assess whether routine use of human milk fortifiers benefits this population. The main questions it aims to answer are: Does supplementing OMM with pHDM or PTF improve survival without surgery-requiring necrotizing enterocolitis (NEC) by 34 weeks corrected gestational age? Is routine fortification of human milk better than selective fortification based on growth faltering? Researchers will compare: pHDM vs. PTF to see which better supports survival without severe NEC. Routine fortification vs. selective fortification to assess the impact on growth and long-term neurodevelopment. Participants will: Be randomized twice: * First, within the first week of life to receive either pHDM or PTF when OMM is insufficient * Second, in the second week of life to receive either routine fortification or selective fortification only if growth faltering occurs Receive feeding and care as per standard clinical practice Complete neurodevelopmental assessment at 2 years corrected age using the PARCA-R tool (no additional study visits required) This multicenter, double-randomized, open-label randomized controlled trial is embedded in routine neonatal care and uses real-world data to assess both short- and long-term outcomes. COLLABORATE-China is being run in partnership with the UK-wide COLLABORATE trial sponsored by Imperial College London.
NCT00747851
This is a prospective in vitro cell biology study of polymorphonuclear leukocyte (PMN) protein synthesis in response to PAF. PMNs from cord blood of premature human infants at risk for NEC (birth weight between 501 - 1500 grams) and PMNs from cord blood of healthy term infants will be isolated and stimulated with PAF, a biologically active phospholipid implicated in the pathogenesis of NEC. NEC, a disease of prematurity with an incidence of 10.1% of infants born weighing between 501 - 1500 grams, is associated with significant morbidity and mortality. We will compare the protein synthesis of inflammatory modulators, including Interleukin 6 Receptor alpha (IL-6R alpha) and Retinoic Acid Receptor alpha (RAR alpha) proteins to protein synthesis responses already observed in PMNs isolated from healthy adults. Furthermore, we will characterize the expression and activity of the mammalian target of rapamycin (mTOR) translational protein synthesis control pathway in PMNs isolated from preterm and term infants and compare those results with previous observations in PMNs isolated from adults. This pathway is known to regulate IL-6R alpha and RAR alpha protein expression in PMNs isolated from adults. We will also follow those premature infants at risk for NEC clinically to determine which infants develop NEC and what risk factors may be associated with NEC in this population.
NCT06727877
Prematurity affects around 7% of births in France. Necrotizing enterocolitis (NEC) is a dreaded digestive complication. It is responsible for a mortality rate ranging from 15 to 40%, a rate that has remained stable in recent years, and for medium- and long-term digestive and neurodevelopmental morbidity. Its onset is unpredictable and sudden, usually between 10 and 20 days of life, and requires immediate, aggressive management: hemodynamic support, fasting, systemic antibiotic therapy or even surgery. Prevention is therefore essential, but systematic measures with proven efficacy (breastfeeding, early enteral feeding, multiple probiotics) are few and far between. What's more, these preventive measures cannot be modulated and adapted individually, since it is not possible to finely predict the risk of developing enterocolitis. Thus, the use of a predictive diagnostic test for NEC would make it possible to identify high-risk premature babies and develop personalized preventive measures. Changes in the digestive microbiota precede the onset of NEC, but it has not been possible to identify a reproducible and reliable microbial signature. As a result, the limited power of microbiota analysis and interpretation means that it cannot be used in practice to predict ECUN. Our partner team (MEDiS) has developed a bioinformatics chain (RiboTaxa) to obtain the precise structure of complex microbial communities from direct metagenomic sequencing data. Stool samples from international cohorts (1562 samples, 208 preterm infants) were then mined to train a deep neural network and generate a predictive diagnostic test for NEC. In a local study (10 cases and 10 controls), the predictive diagnostic performance of this test was 90%, with the 1ère stool identified as "at risk" preceding NEC by 8 days (extremes 4 - 17 days), and the 2nde by 2 days (extremes 0-7 days). We would now like to test our predictive diagnostic technique on a larger number of premature babies in the AURA region. 1000 children included, 200 children tested (50 NEC - 150 controls)
NCT06870318
Research has shown that provision of mother's milk is the optimal way to feed very low birthweight (VLBW) infants. Many infants will require a supplement to mother's milk, pasteurized donor human milk (PDHM) compared to preterm formula is the most appropriate supplement as it has been shown to reduce the risk of necrotizing enterocolitis (NEC). Most available evidence suggests neither mother's milk nor PDHM will meet the elevated nutritional requirements of VLBW infants without multi-nutrient fortification. Globally, the current standard of care is to use bovine protein-based nutrient fortifiers to meet these elevated nutrient requirements. Given the known benefits of mother's milk, the reduction in the risk of NEC with use of PDHM as a supplement, and the availability of human milk-based multi-nutrient fortifiers (HMBF), there has been considerable interest in the efficacy of HMBF over the less costly bovine milk-based fortifiers (BMBF). This study is an analysis of individual participant data merged from randomized control trials that examined the efficacy of HMBF compared to BMBF during hospitalization, on the risk of death and severe morbidity or major feeding interruption. Participants of the trials included in the analyses were fed exclusively with human milk or a supplement of pasteurized donor human milk (PDHM). Only two RCTs met this criteria -OptiMoM and the N-forte trial. In both studies the intervention aligned to commence upon randomization into the HMBF or BMBF groups. The difference between the OptiMoM and N-forte feeding protocols was that the later allowed for individualized fortification based on milk analysis whereas OptiMoM used standard fortification, predominant in Canada and globally. For OptiMoM, the feeding intervention continued until infants were 84 days of age, discharge, or when the infant consumed ≥2 complete oral feeds daily. For N-forte trial, the feeding intervention ended when babies reached 34 weeks (zero days). Both studies followed participants and continued data collection if transferred to a level II NICU for convalescence (OptiMoM) or home care service followed closely by NICU nurses (N-forte) until discharge.
NCT01674478
Necrotizing enterocolitis (NEC) and spontaneous intestinal perforation (SIP) are common devastating gastrointestinal diseases in premature infants. These infants often need surgical intervention to remove the dead bowel and create temporary enterostomies, resulting in short bowel syndrome (SBS), a malabsorption state due to insufficient bowel length or dysfunction to digest and absorb nutrients adequately. These infants are often nourished primarily with parental nutrition (PN) which can lead to many complications including PN-associated liver disease. However, with enteral feeding, the remaining bowel can adapt somewhat to the shortened state, reducing the need for PN. Enteral fats appear to be the most trophic macronutrients with the long chain polyunsaturated fatty acids (LCPUFA) being the most beneficial in promoting bowel adaptation. Fish oil (FO), a main source of n-3 LCPUFA, has been shown to promote bowel adaptation. Microlipid (ML) primarily contains n-6 PUFA and has been found to decrease ostomy output and increase weight gain in some SBS infants. WThe investigators will soon have completed a randomized clinical trial (EMLFO trial) (WFUHS IRB00011501, NCT01306838) entitled "Early Supplementation of Enteral Lipid with Combination of Microlipid and Fish Oil in Infants with Enterostomies". The preliminary data suggest that (a) by supplementing enteral ML/FO, we were able to decrease the use of IL; (b) premature infants in the treatment group who received ML/FO achieved higher enteral calorie (% of total calorie) intake before reanastomosis and better weight gain (g/day) after reanastomosis than those who received routine care in control group; and (c) the direct bilirubin level before reanastomosis tended to be lower in the treatment group than the control group although the difference was not statistically significant. Because the intervention consisted of both an increase in enteral fat intake as well as a specific type of fat intake (i.e. FO), it is unclear whether improved outcomes in the ML/FO group are attributable to FO's anti-inflammatory effects or the increased fat intake. Therefore, the investigators have designed a next randomized clinical trial to compare ML alone versus ML plus FO. We hypothesize that as compared to ML alone, ML plus FO will result in decreased systemic inflammation, as indicated by blood levels of inflammation-related proteins and indicators of oxidative stress.