View clinical trials related to Growth Failure.
Filter by:Mortality and incidence of severe complications is still high among extremely premature infants. Common causes of severe complications in this population are poor nutrition, necrotizing enterocolitis, and severe infections. Feeding intolerance is also a common problem resulting in prolonged need for intravenous lines and poor nutrition. The aim of the study is to evaluate whether supplementation with the probiotic bacterium Lactobacillus reuteri DSM 17938 daily to premature infants with extremely low birth weight increases feeding tolerance to breast milk and thereby improves nutrition, increases growth and reduces serious complications and mortality in this population. Beyond this, possible mechanisms underlying these effects will be analyzed in stool, breast milk and blood samples.
Postnatal intestinal function in cardiac infants. The overall goal of this proposal is to address a widespread health problem in the pediatric cardiac infant population - poor postnatal growth - through a collaborative effort between pediatric cardiology, cardiothoracic surgery, neonatology, microbiology, and immunology. The hypothesis is that term neonates with complex congenital heart disease (CHD) who receive trophic breastmilk feeds in the pre-operative period will show improved gut function than neonates who were strictly NPO (nothing by mouth) in the pre-operative period.
Cystic fibrosis (CF) is a life-shortening disease that causes breathing and digestive problems, but can now be diagnosed at the time of birth. Lung function is very hard to measure in infants, but growth is not. In this study the investigators aim to define growth in infants with CF in the first year of life with research quality precision and to understand factors that interfere with good growth. Pancreatic enzyme replacement therapy (PERT) will be also be studied in a subgroup of infants. Two different doses of PERT will be evaluated for improving fat and nitrogen absorption in infants with CF.
A major consequence of chronic liver disease in childhood is growth failure. This is because a chemical essential for growth called growth factor is created in the liver. Lack of response to growth hormone in people with chronic liver disease is characterized by high levels of growth hormone and low levels of growth factors. This growth hormone resistance is reflected in a variety of factors including insulin resistance and low nutritional intake. Unfortunately, growth hormone therapy has no effect for children with liver disease. In addition, failure of normal growth or malnutrition makes liver disease even worse in children, and growth hormone therapy is not likely to reverse this. A lack of proper nutrition is associated with hospitalizations and frequent complications. Poor growth is a predictor of poor outcomes after liver transplantation. Thus the management of children with liver disease remains a challenge. Children who have successful orthotopic liver transplants (OLT) show much improvement in some aspects of growth, including skin fold thickness, mid-arm circumference, and normalization of growth factor levels. However, some studies have recently reported that the growth of 15-20% of children remains poor even after a liver transplant. This can be explained by persistent abnormalities in growth factors after transplant. Growth factor was found to be a good tool for prognosis in patients with chronic liver disease. Studies showed that patients with liver cirrhosis and growth factor levels below normal values showed lower long-term survival rates compared with patients who had above normal values. This suggests that growth factor can be a good predictor of survival and early marker of poor liver function. In this case, aggressive feeding may modestly improve growth factor levels leading to improved growth but it is unlikely that effects will be optimal. The investigators propose that growth factor administration may have a positive effect that leads to better growth which is a major predictor of good outcome. To date, no reports study the use of growth factor in children with chronic liver disease. This study proposes to examine the effect of growth factor therapy in childhood chronic liver disease.
This study will evaluate the status of the growth hormone/ insulin-like growth factor-1 (GH/IGF-1) axis in relation to growth failure, body weight and composition and neuroprotection in children with Ataxia telangiectasia (AT).
The primary objective of the trial was to assess the bioequivalence for two concentrations (5.83 mg/mL and 8 mg/mL) of the new r-hGH liquid multidose formulation using the r hGH freeze-dried multidose formulation (Saizen® 8 mg, 8.8 mg/1.51 mL) as reference. Each volunteer received three r hGH treatments, with each treatment being administered as a single subcutaneous dose of 4 mg r-hGH in a randomized sequence with at least one week of wash-out period between successive treatments.
The study will be a randomized, double-blind, prospective trial. Newborn infants (enrollment age 0-14 days) will be assigned randomly to receive one of two products, provided in identical packages except for the lid color. Neither the investigators nor the parents will know which product the infant is receiving. The infants will be monitored at study enrollment, and at 4, 8, and 12 weeks of age. There will be two study groups, each receiving one of the following formulas: 1. The new partially hydrolyzed whey formula (NF) - Materna cow's milk infant formula containing partially hydrolyzed whey protein, produced and packaged by Materna Laboratories, Maabarot. 2. The currently marketed partially hydrolyzed whey formula (CF) - Nan HA, produced by Nestlé. In order to maintain blinding, the Nan HA will be repacked in packaging identical to the Materna product, except for the lid color
This study will evaluate the safety and effectiveness of insulin-like growth factor-1 (IGF-1) to treat patients with X-linked severe combined immunodeficiency (XSCID). Those who have XSCID lack white blood cells that protect their bodies from invasion by all types of germs. IGF-1 is the main hormone responsible for the body's growth and metabolism. As a medication, IGF-1 is Increlex[(Trademark)] (mecasermin), Patients ages 2 to 20 who have not yet begun puberty, have a diagnosis of XSCID, and are shorter than the 3rd percentile for their age may be eligible for this study. This study will last about 3 years, and patients' visits will be scheduled at 3-month intervals. Patients will have a physical history and exam, X-rays, electrocardiogram, blood tests, and body measurements. Patients will take estradiol orally for 2 days, to help avoid false results of growth hormone (GH) levels in blood samples. Then provocation testing is done, with two tests back to back. It determines blood levels of GH and the body's response to testing with drugs called arginine and clonidine. Patients are admitted to the pediatric inpatient unit and will have an intravenous (IV) line placed in the arm. Arginine is given by IV over 30 minutes, and blood samples are taken. Right after arginine testing, the clonidine tablet is given. The IGF-1 generation test is then done to see if the body makes IGF-1 as a product in response to injections of GH for 5 consecutive days. This test does not require that patients are inpatients, but after Day 8, patients must be admitted to the pediatric unit to have blood sampling, start Increlex injections, and start close monitoring of blood sugar levels. They will learn how to do a self-injection and follow other advice. They will complete records about the injection site, symptoms, and side effects-keeping records for at least the first 2 days after going home, with each dose change, and as needed. Patients stick their fingertip and place a small drop of blood on a blood sugar monitoring strip. The strip is put into a glucometer-a small hand-held device to measure the blood sugar level. Patients will be instructed to always have a source of sugar available in case blood sugar is too low.