24 Clinical Trials for Various Conditions
The purpose of this research is to determine if the use of RELiZORB™ improves nutrition tolerance and helps critically ill patients meet their nutrition goals. RELiZORB™ is a digestive enzyme cartridge that contains lipase and works as a pancreatic enzyme replacement. It promotes breaking down fat and helps the body absorb it. The device connects with tube feedings to help the body with digestion. RELiZORB™ is approved by the U.S. Food and Drug Administration (FDA) for use with tube feedings in patients 5 years of age or older. While the use of RELiZORB™ in this study is consistent with the FDA approval, the use of RELiZORB™ in patients with multi organ failure is not in the current standard of care practice at Inova Health Care facilities.
The purpose of this study is to assess the treatment effect of intravenous TAK-954 in improving the average daily protein adequacy received through enteral nutrition in critically-ill participants developing EFI.
The purpose of this study is to investigates serum and stool biomarkers as predictors for post-operative feeding intolerance in infant patients with complex congenital heart defects who undergo single ventricle staged palliation surgery.
The purpose of this study is to evaluate the effect Ulimorelin in patients with enteral feeding intolerance.
The present pilot study is aimed to obtain preliminary data on the effect of three ascending oral dose levels of nepadutant on the relief of symptoms associated with feeding intolerance. In addition, the assessment of drug exposure (PK assessment) will provide additional information on the dose-effect relationship, thus supporting the dose selection and dosing schedule in the future studies.
Feeding intolerance is a common problem in the NICU. Feeding intolerance complicates the hospitalization, lengthens the hospital stay, and adds substantially to the cost of care. We developed a method aimed at treating intestinal villous atrophy. We accomplished preclinical testing of the product, and four Phase I clinical trials, including two at McKay-Dee Hospital in 2004. Our preparation is a sterile, isotonic, solution that simulates human amniotic fluid in electrolyte composition, albumin concentration, and two enterocyte growth factors that are present in human amniotic fluid; erythropoietin and granulocyte colony-stimulating factor. We termed the product SAFEstart, using the acronym Simulated Amniotic Fluid for Enteral administration. This trial on the efficacy and safety of SAFEstart administration as a treatment for neonates who have feeding intolerance. Hypothesis is that infants with feeding intolerance, randomized to the SAFEstart will have a greater enteral calories per kilogram per day for the seven days following conclusion of the SAFEstart administration.
Serial EGC measurements in premature infants attempting to correlate EGC measurements with signs of feeding intolerance and response to metoclopramide therapy.
Blenderized diets consist of a wide range of table foods such as fruits, vegetables, meat and legumes, pureed in a blender and administered via gastrostomy tube. In a recent study, the investigators reported that children receiving blenderized feeds via gastrostomy had fewer total admissions and respiratory admissions, total emergency room visits, and improved gastrointestinal symptom scores compared to those fed formula. The goal of this project is to understand how these diets affect gastroesophageal reflux burden.
Retrospective review of nutrition enteral formula data documented in medical records.
A randomized controlled trial comparing current standard blind method to CORTRAK enteral access system (CEAS), an FDA approved electromagnetic device to place enteric tubes.
The current study will enroll patients who are going to require enteral nutrition support for at least 4 weeks and randomize them to standard polymeric formulas or blenderized tube feeding. They will be asked to fill out a questionnaire about their tolerance of enteral feeds. They will also be asked to provide stool samples before enrollment and after 4-6 weeks. The study is trying to assess whether the use of whole food in blenderized tube feeding will be better tolerated and also lead to greater diversity of microbiome.
Doctors have tried many different methods of feeding to try to decrease feeding intolerance in preterm babies so that they spend less time receiving liquid nutrition and have fewer problems with feeding intolerance. The purpose of this study is to test two different methods of feeding preterm babies in the hopes of identifying a method that will decrease some of the feeding intolerance that can occur when feeding premature babies.
Hospitalized infants with severe bronchopulmonary dysplasia (BPD) and feeding intolerance will be randomized to 2 weeks of continuous gastric feeding or continuous transpyoloric feeding. Subjects will crossover after 2 weeks and receive 4 weeks of each feeding mode. Respiratory status will be assessed to determine the optimal feeding mode for each infant.
In this proposed clinical trial, the investigators will randomize 80 very preterm (VPT) infants to receive either early (between day 4 and 7) or delayed (between day 10 and 14) fortification and determine if providing early protein supplementation through early fortification results in higher FFM-for-age z scores and more diversity in the gut microbiome.
To test the hypothesis that early exclusive enteral nutrition with the minimal use of parenteral nutrition will improve preterm infants' nutritional outcomes when compared to delayed progression of enteral nutrition and prolonged use of parenteral nutrition.
This is a retrospective review of data documented in medical records.
Premature infants, especially those less than 1250 gm at birth are extremely difficult to feed. For unknown physiologic reasons oral feeding also called enteral feeding is not well tolerated in these immature babies. Because of this challenge these infants require intravenous fluids solution called parenteral nutrition (TPN). Intravenous nutrition is inadequate because it cannot supply sufficient calories for growth both of body and brain. The composition of intravenous nutrition is also toxic to the liver. For those reasons it is very important to achieve adequate enteral nutrition in premature infants as soon as possible after birth. However the best feeding method for those babies has not been defined. Since premature babies are unable to suck and swallow properly, feeding is administered by a tube inserted into the infant's stomach. The timing between feeds is inconsistent. Some infants are fed every 3 hours, whereas others are fed every 4 hours. The purpose of this study is to determine which feeding method is better. We hypothesize that feeding every 4 hours by allowing more time for digestion will improve feeding tolerance in premature infants. In addition it will also facilitate discontinuation of TPN sooner, thus causing less side effects.
The main objective of the proposed study is to evaluate if oral intake of EN formula preceding Gtube placement will impact tolerance upon placement and feeding via Gtube in pALS. This single arm intervention study all participants will receive the intervention and researchers will utilize validated indicators combined with clinical expertise to assess gastrointestinal symptoms of feeding intolerance before and after the intervention. The main questions this study aims to answer are: 1. Wil participants meeting a greater percentage of their estimated nutritional needs at baseline present a slower disease progression rate and a lower incidence of GI symptoms of feeding intolerance when feeding via Gtube? 2. Will there be significant change in feeding intolerance when oral intake of enteral nutrition formula precedes feeding via Gtube? This proposed study consists of three stages, as follows: 1. Pre-Intervention: The lead in period of one-week preceding intervention phase I will be timed to initiate 3 weeks before the scheduled Gtube placement procedure. Patients will be advised to maintain their usual food and beverage intake. Dietary intake and GI symptoms data will be collected by research personnel. 2. Phase I: Dietary intake data collected from the pre-intervention stage will be averaged and used to determine the number of cartons of enteral nutrition formula needed to meet the participants estimated nutritional needs. For two weeks +- 2 days participants will be directed to drink the number of cartons of a pre-selected enteral nutrition formula to meet their estimated nutritional needs when combined to their current oral dietary intake. A plant based EN formula (Kate Farms 1.4 Standard) commonly prescribed for pALS was selected to be provided to all patients in the study to keep this variable constant. Weekly data collection of dietary intake and GI symptoms will be ongoing. 3. Phase II: At the end of phase I, patients will undergo a Gtube placement at their selected medical facility. For the following two weeks +- 2 days participants will be directed to feed via Gtube the same number of cartons of the enteral nutrition formula used orally on phase I and make no changes to their current oral intake.
Premature infants fed with a protein hydrolyzed formula will have better tolerance needing shorter time to achieve full feeds when compared to those fed with an intact protein formula.
Prematurely born infants with ductal-dependent congenital heart disease (CHD) are at increased risk to develop necrotizing enterocolitis (NEC). Abnormal left to right blood flow through a patent ductus arteriosus can cause intestinal ischemia and compromise the gastrointestinal tract as a barrier to infection. In some infants, bacterial translocation leads to NEC which may result in death, intestinal perforation, cholestasis and, at the very least, feeding problems. Predicting which infants with CHD will develop NEC will potentially decrease the severity of disease if interventions were started earlier. Near-infrared spectroscopy (NIRS) allows determination of regional oxygen saturation levels in tissues such as brain, kidney, and as recently reported, intestine. This study will test whether or not decreasing intestinal oxygen saturations can predict the development of NEC in this at risk population before the symptoms become severe. NIRS probes will be placed on the forehead, flank and abdomen of eligible infants and regional oxygen saturations will be recorded prospectively and continuously with the clinical care team blinded to the data. The development of NEC and significant feeding problems will then be correlated with the regional oxygen saturations to determine whether decreased intestinal oxygen saturations predicted early signs and symptoms of NEC. We anticipate generating pilot data in 30 infants who meet inclusion criteria. Support of this research will be provided partially by Somanetics, the manufacturer of the INVOS regional oxygen saturation monitors. They will, however, have no control over the data generated by this study.
Since the first description of citrulline as a potential marker for intestinal function in 1998, its use has been investigated in a variety of disease processes including Short Bowel Syndrome, Celiac disease, chemotherapy and radiation induced intestinal injury, infections producing intestinal cytopathic effects like Adenovirus, and predicting rejection in intestinal transplantation. The use of citrulline levels as a diagnostic tool to predict gastrointestinal disease in the premature population has not been properly addressed. The introduction of enteral nutrition in the premature infant is a process of trial and error, knowing that the immaturity of the gastrointestinal system may lead to frequent episodes of feeding intolerance. This is augmented by the fear of the development of necrotizing enterocolitis (NEC) once feeds are commenced. NEC is a condition characterized by disruption of the intestinal epithelial barrier, a pathogenic process shared with some of the conditions mentioned above for which citrulline has proven clinically useful. A normal pattern of citrulline production has not been established in the premature population. Previous studies have shown decreased levels of glutamine and arginine in premature infants up to 10 days prior to the development of necrotizing enterocolitis. Glutamine and arginine are two amino acids closely involved in the synthesis and catabolism of citrulline. The investigators therefore hypothesize that defining a normal pattern of citrulline production in the premature population may prove to be a clinically useful diagnostic tool to screen for gastrointestinal disease.
The purpose of this study is to determine whether advancing the timing of home parenteral nutrition from overnight to daytime regimens leads to improved glucose profiles and sleep quality, and other changes in plasma metabolic signatures.
The purpose of this study is to determine whether modifying the timing of nutrition support from overnight to daytime enhances sleep quality, preserves circadian rhythms, and improves overall inflammation and cardiometabolic profiles in postoperative patients in the cardiac surgical ICU on enteral nutrition.
This study, at the Western Human Nutrition Research Center (WHNRC), will focus on whether or not achieving and maintaining a healthy body weight is the most important health promoting recommendation of the Dietary Guidelines for Americans (DGA).The investigators hypothesize that improvement in cardiometabolic risk factors resulting from eating a DGA style diet will be greater in people whose energy intake is restricted to result in weight loss compared to those who maintain their weight. The investigators further propose that during a state of energy restriction, a higher nutrient quality diet such as the DGA style diet pattern, will result in greater improvement in cardiometabolic risk factors compared to a typical American diet (TAD) pattern that tends to be lower nutrient quality (more energy-dense and less nutrient-rich.)