View clinical trials related to Infant, Premature.
Filter by:This pilot study is a randomized, placebo-controlled, clinical trial to measure changes in blood and urine levels of inositol in premature infants at high risk for retinopathy of prematurity (ROP) following repeated doses of inositol. Based on previous studies, the premise is that maintaining inositol concentrations similar to those occurring naturally in utero will reduce the rates of ROP and bronchopulmonary dysplasia in premature infants. The objective is to evaluate pharmacokinetics, safety, and clinical outcomes of multiple doses of three different dose amounts of myo-inositol (provided by Abbott Laboratories) in very low birth weight premature infants. This study will enroll an estimated 96 infants at 17 NICHD Neonatal Research Network sites. Infants will be randomly assigned to receive either 10 mg/kg of 5% inositol, 40 mg/kg of 5% inositol, 80 mg/kg of 5% inositol, or 5% glucose given in the same volumes and timings as the inositol dosage to maintain masking. Enrollees will receive their assigned dose or placebo daily, starting within 72 hours of birth, and continuing until they reach 34 weeks post-menstrual age, 10 weeks chronologic age, or until the time of hospital discharge, whichever occurs first. The study drug will be administered first intravenously; as the infants progress to full feeding, the drug will be given enterally (orally or via feeding tube). Enrollees will be seen for a follow-up examination at 18-22 months corrected age. This pilot study is in preparation for a future Phase III multi-center randomized controlled trial.
This study will compare the effectiveness of two surgical procedures -laparotomy versus drainage - commonly used to treat necrotizing enterocolitis (NEC) or isolated intestinal perforations (IP) in extremely low birth weight infants (≤1,000 g). Infants diagnosed with NEC or IP requiring surgical intervention, will be recruited. Subjects will be randomized to receive either a laparotomy or peritoneal drainage. Primary outcome is impairment-free survival at 18-22 months corrected age.
Periventricular leukomalacia (PVL) is one of the most common brain injuries that occur in preterm infants. Inflammation, hypoxia-ischemia, free oxygen radical formation and excitotoxicity are all known pathogenic mechanisms that mediate this injury. Erythropoietin (EPO) has been shown to be protective against hypoxic-ischemic and inflammatory injuries. During the past decade, recombinant human Epo (rhEpo) has been widely used in preterm infants to prevent or treat the anemia of prematurity, in general, rhEpo has been considered to be safe and well tolerated in preterm infants. EPO was considered not capable of passing through blood-brain-barrier at low dose. Evidence from animal experiments reveals that rhEpo must be given in high doses at the beginning or within a short (up to 6 hours), critical time period after the onset of brain injury to achieve a significant neuroprotective effect. A recent study using high-dose rhEpo (3000 U rhEpo/kg body weight at birth) for neuroprotection in very preterm infants revealed that no signs of adverse effects of early high-dose rhEpo treatment in very preterm infants were identified. Contrary to this, a recent study in PVL of a rat model revealed that using a low dose rhEpo (50-100 U/kg) was effective in the treatment of brain damage induced by hypoxia-ischemia and did not affect normal oligodendrocyte maturity. On this basis, the researchers intent to investigate (1) whether low-dose rhEpo (100 U/kg) or high-dose rhEpo (3,000 U/kg) given to very preterm infants (gestation age < 32 weeks) immediately after birth and subsequently during the first 2 days is safe and possesses neuroprotective properties;(2) whether there are gender differences in response to the hypoxia-ischemic insult and EPO treatment; (3)the pharmacokinetics of low dose and high dose rhEPO. Very preterm infants with gestational age of < 32 weeks and admitted to the NICU are eligible for enrollment.
Background: Heparin is an anticoagulant commonly used in the neonatal population as a means to prevent catheter related occlusion and malfunction by thrombosis (clot). Given the recent overdoses of infants using heparin, there is concern as to whether heparin should be used in peripherally inserted central venous catheters (PICC). Scientific evidence comparing the duration of use of heparin versus no heparin in PICCs is conflicting. Purpose: The purpose of this study is to evaluate the effect of continuous IV fluids with heparin versus IV fluids without heparin on the duration of percutaneously inserted central venous catheters (PICC) in neonates. Design: Prospective, double-blind, randomized controlled trial Hypothesis: The use of heparin in PICC fluids has no difference on duration of catheter patency. Design and Methods: The study will be conducted at the Neonatal Intensive Care Unit at University Hospital, San Antonio, TX. Randomization to either the experimental group (no-heparin) or the standard medical group (with heparin) will occur once parental consent is obtained and prior to PICC insertion. PICC placement will be done by the PICC certified neonatal nurses. Correct placement of the PICC will be assured by radiography which is standard procedure. Parents, NICU team members and staff, and investigators will be masked to the grouping. Pharmacy will be responsible for randomization. Both the heparin group and the no heparin group solutions will be dispensed in identical containers, compounded by the pharmacy. The study medication, heparin, will be mixed by the pharmacy at a standard dose of 0.5 units/mL for the intravenous infusions used in the heparin group. The experimental group will receive only the base solution, whether it is 5% dextrose, 0.9% sodium chloride, or total parenteral nutrition infused into the PICC line. Pharmacy and the NICU staff will ensure compatibility of heparin with other infusions. Heparin bonded catheters, heparin flushes, and hep-lock solutions are not used by the NICU service. The primary outcome, duration of catheter use, is defined as the time (in hours) between insertion and removal of the catheter due to occlusion. Occlusion will be defined as the inability to push 1 mL of 0.9% sodium chloride, via a 5 mL syringe, through the catheter in situ or detection of clots along the catheter after removal. Secondary outcomes include septicemia vs. catheter-related septicemia, phlebitis, death before discharge, and thrombosis. Septicemia is identified as clinical signs and symptoms associated with sepsis in the presence of a positive peripheral blood culture obtained irrespective of the catheter tip culture result. Catheter-related sepsis will be defined as positive blood culture obtained from the catheter fluid as well as a positive blood culture obtained from a peripheral venous specimen. Both cultures must demonstrate the same organism. Phlebitis is defined by visual detection, swelling, and change of skin color associated with an inflamed vein. Thrombosis is defined as a thrombus along catheter path diagnosed by visual inspection upon removal of the catheter. Elective versus non-elective removal will also be recorded. Adverse events monitored include: heparin induced thrombocytopenia (HIT), defined as a platelet count dropping below 50 x 103/mL with a positive antibody titer, aPTT > 100 seconds (This will be measured upon clinical evidence of bleeding), hemorrhage from > 2 sites, intraventricular hemorrhage, extravasation, and dislodgement or breakage of catheter. The sample size will be determined based on retrospective data collection to reach a statistical power of 80% with a type I error or 0.05. The investigators expect the sample size to be approximately 102 patients in each arm of the study. The study will terminate once the PICC is discontinued or if there is an indication to stop the study early for safety reasons. These could include increased adverse events in one group versus the other. A Safety Control Panel composed of 2 neonatologists from another site will review the data at the points when 1/3 and then 2/3 of total patient enrollment has been achieved. Data Collection and Analysis: Data will be collected and tabulated on a Microsoft Excel spreadsheet using unique patient identifiers and stored at a secure location at UHS then analyzed using appropriate statistical tests.
This trial tests the feasibility of enrolling 60 extremely preterm infants in a randomized, double-blinded study of blood pressure management within 12 months. Eligible infants will receive an infusion drug (dopamine or a dextrose placebo) and a syringe drug (hydrocortisone or a normal saline placebo). Enrolled infants will be randomized to receive one of the following drug pairs: - dopamine and hydrocortisone - dopamine and normal saline - dextrose and hydrocortisone - dextrose and normal saline. In addition to the intervention above, the NRN is conducting a 6-month time-limited prospective observational study of all infants born at an NRN center between 23 and 26 weeks gestational age. All clinical decisions made for these babies will be at the discretion of the attending neonatologist/infant care team according to standard practice at each institution. Data on blood pressure management in the first 24 postnatal hours collected for each infant.
In this observational study, the NICHD Neonatal Research Network (NRN) is conducting surveillance of all infants born at NRN centers to identify all newborns who are diagnosed with early-onset sepsis (EOS) and/or meningitis. The study will: establish current hospital-based rates of EOS among term and preterm infants in the era of intrapartum antibiotic prophylaxis; monitor the organisms associated with EOS and meningitis; compare asymptomatic and symptomatic infants by gestational age and pathogen; and monitor sepsis-associated mortality rates by pathogen group.
This observational study tests the feasibility of enrolling subjects and obtaining an amplitude-integrated electroencephalogram (aEEG) within the first 72 hours of life, a second aEEG recording between 72-168 hours of life, and weekly thereafter up to 36 weeks post-menstrual age. It will enroll 85-100 infants between 401-1,000 grams birth weight OR between 23 0/7 and 28 6/7 weeks gestational age born at the 7 participating NICHD Neonatal Research Network sites.
The aim of the study is to evaluate urine NT-proBNP levels and new Echocardiographic Findings in VLBW infants. The investigators hypothesize that high urine NT-proBNP concentrations are associated with a hemodynamically significant ductus arteriosus. The investigators also hypothesized that new echocardiographic parameters such as isovolumic relaxation time (IVRT)is useful for the prediction of ductus intervention.
In this study, we want to see how feeding affects breathing in small premature babies. Using a special feeding tube in the stomach, we can measure how the diaphragm (a large breathing muscle) might be affected by feeding. We also want to see if slowing down the feeding may lessen this effect.
The highest risk for perinatal brain injury occurs among extremely premature infants who weigh less than 1250 grams at birth. Such perinatal brain injury is currently irreversible, associated with neurodevelopmental disability, and without adequate treatment modalities. Research in recent years suggest in both animal and human studies that erythropoietin (Epo) may have significant neuroprotective effects. Given the historical safe medical profile of Epo when used for anemia of prematurity but the likely need for a greater dosage regimen for activation of neuroprotective pathways against neonatal brain injury, we therefore propose this phase II study of high-dose Epo in very low birth weight infants for the prevention and/or attenuation of prematurity-related cerebral hemorrhagic-ischemic injury.