View clinical trials related to Enterocolitis.
Filter by:Food protein-induced enterocolitis syndrome (FPIEES) is a particular non-Immunoglobulin E-mediated food allergy. A retrospective descriptive single-center study was conducted. Subjects included were children with acute FPIES who consulted the allergy department of the Nancy Regional University Hospital between November 2013 and June 2016.
Since 1987, red blood cell (RBC) transfusions have been proposed as a potential risk factor for necrotizing enterocolitis (NEC), which is one of the most severe gastrointestinal complications of prematurity. Evidence from Doppler studies have shown a post-transfusion impairment of mesenteric blood flow in response to feeds, whereas NIRS studies have reported transient changes of splanchnic oxygenation after RBC transfusion; a possible role for these findings in increasing the risk for TANEC development has been hypothesized. The aim of this study is to evaluate SrSO2 patterns in response to enteral feeding before and after transfusion.
Hirschsprung's disease (HD) is diagnosed shortly after birth and is characterized by the presence of megacolon. HD is caused when ganglion cells of the enteric nervous system (ENS) in the wall of the large intestine do not develop before birth. This results in a lack of gastrointestinal motility and leads to stool obstruction. It is known that ablation of enteric nerves is associated with intestinal infection and inflammation. Indeed the most severe complication in HD is Hirschsprung's associated enterocolitis (HAEC), characterized by explosive diarrhea, abdominal distension, fever and impending septic shock. Bacteria overgrowth and changes in colonic mucosal immune cell populations during HAEC suggest a possible defect in mucosal immune homeostasis. Under steady state conditions, the mucosal immune system must be tightly controlled to avoid harmful reactions against commensal flora and food antigens, while allowing protective immune responses against invading pathogens. This balance between tolerance and defense is influenced by the mucosal microenvironment, which in turn determines the phenotype and stability of mucosal immune cell populations. The goal of this project is to understand if the enteric nervous system plays a role in regulating mucosal immunity and how this might contribute to the development of HAEC.
Patent ductus arteriosus (PDA) is a common problem in the neonatal intensive care unit and can be secondary to prematurity or congenital heart disease (CHD). PDA is the most common cardiovascular abnormality in preterm infants, and is seen in 55% of infants born at 28 weeks, and 1000 grams or less. In addition to producing heart failure and prolonged respiratory distress or ventilator dependence, PDA has been implicated in development of broncho-pulmonary dysplasia, interventricular hemorrhage, cerebral ischemia, and necrotizing enterocolitis (NEC). In an Israeli population study 5.6% of all very low birth weight infants (VLBW) were diagnosed with NEC, and 9.4% of VLBW infants with PDA were found to have NEC. In a retrospective analysis of neonates with CHD exposed to Prostaglandin E found that the odds of developing NEC increased in infants with single ventricle physiology, especially hypoplastic left heart syndrome. The proposed pathophysiological explanation of NEC and PDA is a result of "diastolic steal" where blood flows in reverse from the mesenteric arteries back into the aorta leading to compromised diastolic blood flow and intestinal hypo-perfusion. Prior studies have demonstrated that infants with a hemodynamically significant PDA have decreased diastolic flow velocity of the mesenteric and renal arteries when measured by Doppler ultrasound, and an attenuated intestinal blood flow response to feedings in the post prandial period compared to infants without PDA. Near Infrared Spectroscopy (NIRS) has also been used to assess regional oxygen saturations (rSO2) in tissues such as the brain, kidney and mesentery in premature infants with PDA. These studies demonstrated lower baseline oxygenation of these tissues in infants with hemodynamically significant PDA. These prior NIRS studies evaluated babies with a median gestational age at the time of study of 10 days or less. It is unknown if this alteration in saturations will persist in extubated neonates with PDA at 12 or more days of life on full enteral feedings. In the present study the investigators hypothesize that infants with a PDA, whether secondary to prematurity or ductal dependent CHD, will have decreased splanchnic and renal perfusion and rSO2 renal/splanchnic measurements will be decreased during times of increased metabolic demand such as enteral gavage feeding. To test this hypothesis the investigators have designed a prospective observational study utilizing NIRS to record regional saturations at baseline, during feedings, and after feedings for 48 hours.
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.
Secondary Data Collection Study; safety and effectiveness of Anaemetro under Japanese medical practice
Fecal microbiota transplantation (FMT) for the treatment of recurrent Clostridium difficile infection (RCDI) has traditionally been offered as fecal slurry administered by enema, nasogastric tube or endoscopy. Frozen oral capsules have also shown efficacy. The potential advantage of lyophilized FMT is the relative ease of manufacturing and storage compared with fecal slurry. Sterile fecal filtrate has previously been shown to prevent Clostridium difficile infection (CDI) recurrence, suggesting that live bacteria may not be needed. This study will compare lyophilized sterile fecal filtrate (LSFF) with lyophilized FMT (LFMT) in the treatment of recurrent Clostridium difficile infection (RCDI).
The overarching aim of this project is to determine the optimum enteral and parenteral nutrition strategy for newborns with Hypoxic Ischaemic Encephalopathy (HIE) during and after therapeutic hypothermia. To do this the investigators will perform two primary comparisons: 1. ENTERAL: to determine whether any enteral (milk) feeding, when compared to withholding enteral feeding (no milk), during therapeutic hypothermia, is associated with a difference in the incidence of necrotising enterocolitis. 2. PARENTERAL: to determine whether provision of intravenous dextrose, when compared to provision of parenteral nutrition, during therapeutic hypothermia, is associated with a difference in the incidence of blood stream infection. The investigators will use de-identified data held in an established research database called the National Neonatal Research Database (NNRD) and we will use the potential outcomes framework with application of propensity scoring to define matched subgroups for comparison.
Necrotizing enterocolitis (NEC) is a severe inflammatory disorder of the intestine that primarily affects very low birth weight (<1,500 g)/very preterm infants (≤32 weeks' gestation); it is also the leading cause of death in the neonatal intensive care unit (NICU).Perhaps the best form of treatment for NEC is prevention. Mother's breast milk is best for preventing NEC. Breast milk contains both nutritional components (proteins, amino acids, fats, carbohydrates, vitamins, and minerals) and bioactive components (macrophages, T cells, cytokines, hormones, and growth factors) that have antimicrobial and anti-inflammatory properties.The current NICU breast milk feeding procedure exists as a means of ensuring that infants have consistent access to their mother's breast milk even if the mother is not able to spend time in the NICU. The process also allows for stricter quality and infection control, as well as computerised inventory and monitoring via electronic health records.However, the process deprives infants of the benefits of the cellular content of breast milk, including the stem cells.The primary objective of this study isto evaluate the feasibility and safety ofproviding very preterm infants (born at <30 weeks' gestation) with fresh milk (within 4 hours of expression).While we acknowledge that as a pilot the study will not be powered to detect a statistically significant difference, our secondary objective is to identify if this approach has the potential to improve infant outcomes, particularly with regards to the occurrence of NEC. Our hypothesis is that it is feasible for many mothers to provide at least 1 feed of fresh breast milk (<4 hours post expression per day, and is not frozen, chilled or pasteurized) and that this may decrease the prevalence of NEC
To investigate biomarker reflects systemic or specific organ perfusion well, we are going to the observational comparison study using several hemodynamic monitoring methods in the premature infants. It includes near-infrared spectroscopy (NIRS), pulse oximetry with perfusion index (PI) and pleth variability index (PVI) and functional echocardiography.