View clinical trials related to Necrotizing Enterocolitis.
Filter by:The overall objective of our study is to determine the clinical usefulness of BUS for NEC evaluation in diverse NICU settings.
The recording or bowels is easy and cheap. The investigators wonder if these sounds are modified in babies with high risk of necrotizing enterocolitis. In this study, the investigators suggest to record and do a spectral analysis of 30 seconds of bowel sounds in preterm babies of less than 32WA before and after enteral nutrition, every day until the end of hospitalization. A spectral analysis will be made for each record to determine frequencies of the signal. The investigators will try to determine physiological frequencies and look for modifications in pathological situations.
This study was to see the effectiveness of azithromycin in preventing the incidence of bronchopulmonary dysphasia in extremely preterm and very premature infants. Inclusion criteria were infants with a gestational age of 25-31 weeks 6 days who experienced respiratory distress and their families had agreed to participate in the study, then randomized. The intervention was in the form of giving azithromycin in the intervention group and no intervention was carried out in the control group and then followed up to 36 weeks PMA
Necrotizing enterocolitis (NEC) is a serious intestinal disease of preterm and term neonates which remains a major cause of intestinal failure, and an unsolved clinical challenge in pediatrics. While overall mortality of preterm infants continues to decrease due to improvements in general neonatal care, mortality caused by NEC remains high (up to 30-50%) and survivors suffer from reduced quality of life, and long-term disabilities such as debilitating complications of intestinal failure, poor growth and neurodevelopmental delay. Besides prevention, there have been hardly any innovations in the treatment of NEC which underwent trial evaluation. NEC pathogenesis is multifactorial, but bowel ischemia is known to play an essential role in the development of NEC. Remote ischemic conditioning (RIC) is a therapeutic maneuver that involves brief cycles of non-lethal ischemia and reperfusion applied to a limb, which protects distant organs (such as the intestine) from ischemic damage. The investigators have shown that in preclinical models of NEC, RIC effectively reduces intestinal damage and prolongs survival. The investigators have also demonstrated the safety of RIC in preterm neonates with NEC. Before the investigators can evaluate the effectiveness of RIC in treating neonates with NEC in a Phase III randomized clinical trial (RCT), a Phase II Feasibility RCT must be conducted to evaluate issues related to the enrollment and randomization of neonates, masking of the RIC intervention, and measurement of clinical outcomes. The investigators hypothesize that it is feasible to conduct a multicenter RCT to evaluate RIC during the management of neonates with medical NEC.
PrePhage - Fecal bacteriophage transfer for enhanced gastrointestinal tract maturation in preterm infants This pilot triol has the primary goal of demonstrating the safety of transferring viruses and proteins from healthy term infants to preterm infants born between gestational age (GA) 26 + 0 and 30+6. The long-term goal is to develop a safe and effective treatment to prevent the severe gut disease called necrotizing enterocolitis (NEC). NEC is a common disease in neonatal intensive care units affecting 5-10% of all admitted patients. 15-30% of the affected children die from the disease, and many of the survivors suffer from the effects of extensive gut surgery. While the disease is caused by many different factors, recent research has shown the gut microbiome to be a central factor in the development of NEC. Furthermore, in the recent years special viruses called bacteriophages have shown potential in the treatment of various diseases. By collecting feces from healthy, term infants and filtering it thoroughly, the investigators can provide a treatment that contains practically only viruses, proteins and nutrients. It is our belief that giving the preterm infants a mix of viruses including bacteriophages will prevent NEC. To do this, the investigators will go through 3 stages: 1. Recruiting and following healthy donor infants to study the microbiota and use feces from them to donate in stage 2 and 3 2. Examining the safety of the treatment as well as how it works in preterm piglets STAGE 3 will be performed only if stage 2 shows no serious risks for the infants 3. Testing the treatment in preterm infants. 10 preterm infants will receive the treatment and 10 preterm infants will receive placebo. The investigators expect to see no serious side effects to the treatment. The investigators hope, but do not expect to be able to see a beneficial effect of the treatment. If this pilot trial shows promising results, it will be followed be a larger clinical trial.
Human Milk alone is unable to meet the high nutritional requirements of preterm infants. The American Academy of Pediatrics recommends fortification of human milk as a standard practice in all very low birth weight (VLBW) infants. Multi-nutrient human milk fortifiers (HMFs) are designed to meet the macro and micro-nutrient needs of VLBW infants. HMFs differ by the origin of milk and by nutrient composition. Traditionally, bovine milk has been the main source of multi-nutrient HMFs.
The WHEAT International trial is a comparative effectiveness trial exploring whether withholding enteral feeds around the time of blood transfusion in very premature infants (<30 weeks) will reduce the occurrence of Necrotizing Enterocolitis (NEC). Currently both continued feeding and withholding feeding are approved care practices. The current study will randomize infants from Neonatal Intensive Care Units (NICUs) across Canada and the United Kingdom (UK) into one of the two care approaches (withholding or continued feeds) to determine if any significant outcomes are found.
Necrotizing enterocolitis (NEC) is the most common life-threatening gastrointestinal emergency of prematurity, associated with a significant morbidity and mortality. Early diagnosis and early treatment interventions may reduce the risk of mortality and morbidity. The Primary goal of this observational study is to gather survey data to establish a national database of NEC in newborns in order to better understand the risk factors underlying NEC. Survey data will be used along with a medical history to identify the mechanism(s) underlying the increased prevalence of NEC in non-breast fed, formula fed premature infants.
Bloody stool is a main focus in non-neonatal intensive care unit ward, and it is one of the risk factors in neonates with subsequent necrotizing enterocolitis(NEC) and usually lead to longed duration of hospitalization. NEC is one of the most serious disease in the newborn infants, and two and more grades of NEC might lead to surgery, even death. But, it is difficult to predict when the bloody stool comes and develop to two and more grades of NEC.
Prematurity is still one of the primary causes of death in children under 5. 1-2. According to the WHO, 60% of all preterm births occur in Asia, with the Philippines accounting for around 348,900 every year. 3. Necrotizing enterocolitis is one of the fatal complications (NEC) 3, 4. Preterm newborns weighing 1500 grams or less are considered high risk. 5-6. Melatonin is one chemical that may help prevent NEC. Melatonin is an endogenous indolamine derived from serotonin. It is a ubiquitous molecule that is crucial to the body's physiologic function. Melatonin, also known as N-acetyl-5-methoxytryptamine, is an immunomodulator, antioxidant, anti-inflammatory, and free radical scavenger7-10. It is a naturally occurring chemical that is simply replenished. With this in mind, the researcher wants to see if providing high dose melatonin to premature babies can prevent NEC.