Active clinical trials for "Enterocolitis"

The purpose of this study was to evaluate the safety of a probiotic foodstuff and its influence on emergence and development of natural intestinal flora and the clinical status of premature very low birth weight neonates. The study was also intended to investigate reduction of colonisation by pathogenic bacteria and to estimate the incidence of gastrointestinal disorders. Probotic bacteria contained in the investigational product administered directly after birth are beneficial for the development of normal gut microflora and can prevent or significantly limit gastrointestinal colonisation by pathogenic bacteria and the development of pathogenic flora in a hospital setting. Permanent colonisation with commensal flora in very early life improves gastrointestinal function in premature neonates by reducing the onset of or by decreasing the severity of the signs and symptoms of feeding intolerance and generalised bacterial infections, including sepsis and necrotizing enterocolitis.

Very preterm infants (<32 weeks gestation) show the immaturity of organs and have high nutrient requirements for growth and development. In the first weeks, they have difficulties tolerating enteral nutrition (EN) and are often given supplemental parenteral nutrition (PN). A fast transition to full EN is important to improve gut maturation and reduce the high risk of late-onset sepsis (LOS), related to their immature immunity in gut and blood. Conversely, too fast increase of EN predisposes to feeding intolerance and necrotizing enterocolitis (NEC). Further, human milk feeding is not sufficient to support nutrient requirements for growth of very preterm infants. Thus, it remains a difficult task to optimize EN transition, achieve adequate nutrient intake and growth, and minimize NEC and LOS in the postnatal period of very preterm infants. Mother´s own milk (MM) is considered the best source of EN for very preterm infants and pasteurized human donor milk (DM) is the second choice if MM is absent or not sufficient. The recommended protein intake is 4-4.5 g/kg/d for very low birth infants when the target is a postnatal growth similar to intrauterine growth rates. This amount of protein cannot be met by feeding only MM or DM. Thus, it is common practice to enrich human milk with human milk fortifiers (HMFs, based on ingredients used in infant formulas) to increase growth, bone mineralization and neurodevelopment, starting from 7-14 d after birth and 80-160 ml/kg feeding volume per day. Bovine colostrum (BC) is the first milk from cows after parturition and is rich in protein (80-150 g/L) and bioactive components. These components may improve gut maturation, NEC protection, and nutrient assimilation, even across species. Studies in preterm pigs show that feeding BC alone, or DM fortified with BC, improves growth, gut maturation, and NEC resistance during the first 1-2 weeks, relative to DM, or DM fortified with conventional HMFs. On this background, the investigators hypothesize that BC, used as a fortifier for MM or DM, can reduce feeding intolerance than conventional fortifiers.

Very preterm infants (<32 weeks gestation) with very low birth weight (VLBW, <1500 g) show immaturity of organs and have high nutrient requirements forgrowth and development. In the first weeks, they have difficulties tolerating enteral nutrition (EN) and are often given supplemental parenteral nutrition (PN). A fast transition to full EN is important to improve gut maturation and reduce the high risk of late-onset sepsis (LOS), related to their immature immunity in gut and blood. Conversely, too fast increase of EN predisposes to feeding intolerance and necrotizing enterocolitis (NEC). Further, human milk feeding is not sufficient to support nutrient requirements for growth of VLBW infants. Thus, it remains a difficult task to optimize EN transition, achieve adequate nutrient intake and growth, and minimize NEC and LOS in the postnatal period of VLBW infants. Mother´s own milk (MM) is considered the best source of EN for VLBW infants and pasteurized human donor milk (DM) is the second choice, if MM is absent or not sufficient. The recommended protein intake is 4-4.5 g/kg/d for VLBW infants, when the target is a postnatal growth similar to intrauterine growth rates. This amount of protein cannot be met by feeding only MM or DM. Thus, it is common practice to enrich human milk with human milk fortifiers (HMFs, based on ingredients used in infant formulas) to increase growth, bone mineralization and neurodevelopment, starting from 7-14 d after birth and 80-160 ml/kg feeding volume per day. Bovine colostrum (BC) is the first milk from cows after parturition and is rich in protein (80-150 g/L) and bioactive components. These components may improve gut maturation, NEC protection and nutrient assimilation, even across species. Studies in preterm pigs show that feeding BC alone, or DM fortified with BC, improves growth, gut maturation and NEC resistance during the first 1-2 weeks, relative to DM, or DM fortified with conventional HMFs.On this background, we hypothesize that BC, used as a fortifier for MM or DM, can induce similar growth and better NEC and LOS resistance, than conventional fortifiers. A pilot trial is required 1) to test the feasibility and initial safety of BC as a fortifier (e.g. similar growth rates and clinical variables as conventional fortification), 2) to calculate the sample size for a later, larger RCT with NEC +LOS as the primary outcome, and 3) record paraclinical outcomes associated with type of fortifier.

Feeding preterm infants is of great challenge in the NICUs. Mother's own milk is considered as the best for the digestive system followed by donor milk. Preterm infant formula is related to more feeding problems and other gut complications in these babies, such as necrotizing enterocolitis. Bovine colostrum contains higher amounts of protein, growth factors and immuno-regulatory components (e.g. immunoglobulins), which has been used in many other situations to promote health. The investigators plan to give bovine colostrum to preterm infants with birth weights between 1000 and 1800 g, or born between 27+0 and 32+6 weeks of gestational age, in order to promote feeding and intestinal health in these babies. This current study is a feasibility pilot study and the investigators hypothesized that supplementing BC to MM (if available) is safe and tolerable when used within the first 10-14 days of life in preterm infants.

Feeding intolerance is a common problem in very preterm infants due to their immature digestive system. This intolerance extends the time to full enteral feeding and thereby also prolongs the time on parenteral nutrition (PN). Prolonged time to full enteral feeding may predispose these infants to a higher risk of growth retardation, infections and organ dysfunctions (e.g. liver, brain). Mother's own milk (MM) is considered the optimal nutrition for preterm infants and is superior to infant formula (including preterm formula, PF) in stimulating gut maturation, feeding tolerance, resistance against necrotizing enterocolitis (NEC) and late-onset sepsis (LOS), and long-term neurodevelopmental outcomes. However, MM is often absent, or not available in sufficient amounts, during the first days or weeks after preterm delivery. Human donor milk (DM) is probably a better supplement to MM than PF, but DM is not available for all hospitals. To supplement insufficient MM during the early neonatal period in hospital settings with no access to donor milk, we suggest that bovine colostrum (BC) may be used instead of PF for very preterm infants during early life. BC, the first milk from cows after birth, is a rich source of protein and bioactive components, including lactoferrin, lysozyme, lactoperoxidase, immunoglobulins, and various growth factors, such as IGF-I and -II, EGFs, and TGF-β. BC has repeatedly been shown to improve gut maturation and NEC/LOS resistance in a well-established piglet model of preterm infants. We suggest a randomized, controlled trial to investigate the effects of BC vs. PF, supplemented to MM during the first 2 weeks, on the time to full enteral feeding in very preterm infants.

Methicillin-resistant Staphylococcus aureus (MRSA) is one of the major sources of nosocomial infection. Along with the widely application of antibiotics around perioperative period, MRSA infection is increasing by years.Fecal microbial transplantation (FMT),infusion of fecal preparation from a healthy donor into the GI tract of a patient is being proposed as a novel therapeutic approach to modulate diseases associated with pathological imbalances within the resident microbiota, termed dysbiosis.It has been used to treat intestinal disease such as inflammatory bowel diseases and Clostridium difficile infection, but no reports are available on its role in treating MRSA enteritis yet. vancomycin is the first choice to treat MRSA but can also lead to an increase in antibiotic resistant organisms such as vancomycin-resistant enterococci, methicillin-resistant Staphylococcus aureus and transfer of antibiotic resistance genes among the microbial community. So FMT seems a more harmless and reasonable measure to treat similar diseases.

During the first four days of life, intestinal fatty acid binding protein (iFABP) is elevated in the urine of premature babies who go on to develop necrotizing enterocolitis (NEC) days to weeks later. This study aims to determine whether the withholding of feedings in babies with an elevated urinary iFABP can reduce the incidence of NEC.

The aims are to 1) compare two probiotic treatments (multi-strain synbiotic vs. multi-strain probiotic) on bifidobacteria fecal colonization counts at 1, 2, 3, and 4 weeks of life, 34 weeks corrected gestation age (CGA) ; 2) compare infants successfully colonized with probiotic organisms to infants not successfully colonized at 1, 2, 3, and 4 weeks of life, 34 weeks CGA on infant outcomes and on stress biomarker patterns at birth, day of life (DOL) 1, DOL 7; 3) determine long-term safety and outcomes of probiotic treatments at 6, 16, and 24 months CGA.

Circulating markers to diagnose complications (sepsis, necrotizing enterocolitis) in preterm infants are often inaccurate, partly due to the lack of comprehensive studies with temporal evaluation from birth until a disease onset. The investigators plan to collect weekly blood samples of preterm infants from birth until 4 weeks of age to comprehensively characterize differential protein and epigenetic markers in infants with and without complications (sepsis, necrotizing enterocolitis, chorioamnionitis).

Premature birth is a major cause of neonatal death in addition to neonatal asphyxia and infections. Early in life, premature babies must get aggressive nutrition so that there is no extrauterine growth restriction (EUGR) in the Intrauterine Growth Restriction (IUGR) group compared to the non-IUGR group. Other factors that also play a role are long episodes of fasting, the fulfillment of nutrition (macro and micronutrients) from the start, time to start breastfeeding (ASI), duration of parenteral total administration, the incidence of respiratory distress syndrome and incidence of necrotizing enterocolitis. Zinc is one of the micronutrients which is very risky for deficiency in premature babies. Babies with zinc deficiency experience growth disorders as much as 67%. In India, infants who received zinc supplementation increased after being given 10 days of zinc supplementation and lower mortality rates in the group with supplementation. Very low birth weight babies and bronchopulmonary dysplasia who received zinc supplementation during the week showed good clinical progress and the growth rate also increased. The investigators believe this study has the potential for decreasing infant mortality from its current level and can be a growth indicator for preterm babies.