62 Clinical Trials for Various Conditions
Preterm neonates born at less than 30 weeks' gestation are commonly maintained on invasive or non-invasive respiratory support to facilitate gas exchange. While non-invasive respiratory support (NIS) can be gradually reduced over time as the infant grows, most weaning strategies often lead to weaning failure. This failure is evidenced by an increase in significant events such as apneas, desaturations, and/or bradycardias, increased work of breathing, or an inability to oxygenate or ventilate, resulting in escalated respiratory support. Although the optimal approach to weaning NIS remains uncertain, neonatal units that delay Continuous Positive Airway Pressure (CPAP) weaning until 32-34 weeks corrected gestational age exhibit lower rates of chronic lung disease. Therefore, the investigators aim to compare the duration on respiratory support and oxygen exposure in infants born at less than 30 weeks' gestational age who undergo a structured weaning protocol that includes remaining on CPAP until at least 32-34 weeks corrected gestational age (CGA). The hypothesis posits that preterm infants following a structured weaning protocol, including maintaining CPAP until a specific gestational age, will demonstrate lower rates of weaning failure off CPAP (defined as requiring more support and/or experiencing increased stimulation events 72 hours after CPAP weaning) than those managed according to the medical team's discretion.
To evaluate whether utilizing a standardized patent ductus arteriosus (PDA) treatment algorithm in managing ELBW (extremely low birth weight) neonates ≤1000 grams (g) improves clinical outcomes and helps prevent undesirable side effects from PDAs.
Infants delivered weighing less than 1 kg at birth (ELBW) are at high risk for the development of bronchopulmonary dysplasia (BPD) and Ventilator-Induced Lung Injury (VILI), in part because of the need for mechanical ventilation utilizing an endotracheal tube (MVET). In spite of strategies to minimize the need for MVET, the incidence of BPD in ELBW infants continues to be 20-80%. The hypothesis is that synchronized NIPPV will decrease the need for MVET and reduce BPD in ELBW infants as compared to NIPPV.
While new innovations in the care of extremely premature infants have led to decreased morbidity and mortality, poor postnatal growth remains as a major challenge. Early growth in the postnatal period influences neurodevelopmental and growth outcomes. This proposed study will challenge current nutritional regimens for infants \< 1000 g birth weight (BW) by providing an exclusive human milk based diet with a higher amount of protein based on individual caloric and protein analysis of human milk utilizing targeted fortification. The investigators will evaluate the effects of a high versus standard protein enteral diet on growth and body composition in infants \< 1000 g BW. There are no published studies evaluating the effect of an exclusive human milk protein diet on body composition in premature infants. Research has shown that infants who receive this diet achieve growth at targeted standards but body composition has not been evaluated. As an all human milk diet is well tolerated and associated with improved outcomes in the highest risk neonates, it is imperative to evaluate the benefits of a high protein exclusive human milk diet and the possible positive changes in body composition, specifically lean mass, in these infants. Results from this proposed study will immediately influence current nutritional practices and will provide landmark information regarding targeted fortification with provision of adequate protein providing the most optimal body composition in the most fragile and vulnerable infants.
Extremely low birth weight infants have significant water loss through their skin immediately after birth. This significant fluid loss is because they have large amounts of fluids, have immature skin and large surface area. Loss of fluids is associated with many complications. The investigators hypothesize that application of sterile water to the skin of these infants is associated with decreased fluid requirements in the first week of life , improve skin integrity and decrease some complications of prematurity.
We hypothesize that premature infants who receive their mothers' expressed breast milk supplemented with liquid protein early in their hospitalization will have a growth velocity in the first 28 days of life that is 20% greater than the growth velocity of premature infants that do not receive protein fortification.
The Milk Trial seeks to determine the effect on neurodevelopmental outcomes at age 22-26 months of donor human milk as compared to preterm infant formula as the in-hospital diet for infants whose mothers choose not to provide breast milk or are able to provide only a minimal amount. Infants will be randomized to receive donor breast milk or formula during their hospital stay. Infant's will be followed until they reach 22-26 months of age.
This pilot study was designed to determine the feasibility of randomizing extremely low birth weight (ELBW) infants \<28 weeks' gestation who required resuscitation to one of two resuscitation methods, either: (a) 100% oxygen by facemask and continuous positive airway pressure (CPAP) or positive pressure ventilation (PPV) with positive end-expiratory pressure (PEEP), if the infant required PPV (the intervention group); or (b) 100% oxygen and no CPAP and no PEEP if the infant required PPV (the control group).
The improved survival rate of extremely low birth weight(ELBW)infants has resulted in new fluid and electrolyte problems that have not been encountered previously,in particular electrolyte imbalance. ELBW infants are especially vulnerable to hypernatremia(serum sodium value \>150 mEq/L). Hypernatremia may be due to rapid dehydration or excessive administration of intravenous fluids(IV)that contain sodium. The current treatment modality for hypernatremia is to increase IV fluids above daily requirements.Enteral sterile water feeds(ESWF)are theorized as an endogenous source of fluids that may decrease elevated electrolytes such as sodium and potassium in premature infants. By giving ESWF to decrease elevated electrolytes, there would be less need for large volumes of IVF that contribute to the co-morbidities of prematurity: bronchopulmonary dysplasia (BPD),intraventricular hemorrhage(IVH)and patent ductus arteriosus(PDA). The purpose of this proposed study is to determine whether enteral sterile water feedings is effective in decreasing the incidence, duration and severity of hypernatremia in ELBW infants.
This study examined the effect of magnesium sulfate (MgSO4) exposure on adverse outcome in extremely low birth weight (ELBW) infants. For infants included in the NICHD Neonatal Research Network Generic Database whose mothers were given prenatal MgSO4, data were prospectively collected on maternal/infant conditions and magnesium exposure (including indications, timing and duration of exposure).
This multi-site, randomized trial was conducted to determine the safety and effectiveness of a higher dose of vitamin A and determine if this would increase the rate of survival without bronchopulmonary dysplasia (BPD) and reduce the risk of sepsis. Infants with birth weights from 401-1000g and who were on mechanical ventilation or supplemental oxygen at 24-96 hours of age were enrolled. Subjects were randomized to either the Vitamin A or a control group. Infants in the Vitamin A group were given a dose of 5000 IU (0.1 ml) intramuscularly on Mondays, Wednesdays, and Fridays for four weeks. Control infants received a sham procedure rather than placebo injections.
The overall purpose of this research is to test whether adding a supplement to the feeding of extremely low birth weight infant (infants weighing less than 2 pound 2 oz at birth) will help him/her achieve full feeding faster and achieve better weight gain.
This is a research study that will look at the effects of giving two nutritional supplements on extremely low birth infants (infants weighing less than 1000 grams or weighing less than approximately 2 lbs 3 1/2 ounces at birth). The nutritional supplements that will be studied are Culturelle for Kids/Culturelle Kids and Align. They are nutritional supplements that each contain a different probiotic. In this study the investigators will mainly be looking at the effect that these supplements may have on how well babies tolerate their feedings and how long they require supplemental intravenous fluids for nutritional support. The investigators will also, however, look at many other factors such as rate of growth, rates of infection, survival rate and the length of time the infant needs to be in the hospital. The investigators will also look at its effect on conditions/complications of prematurity such as bronchopulmonary dysplasia and chronic lung disease (chronic diseases of the lung associated with prematurity), necrotizing enterocolitis and intestinal perforations (serious diseases of the infant's intestines), retinopathy of prematurity (eye disease associated with prematurity), intracranial hemorrhage (bleeding into the brain) and patent ductus arteriosus (a blood vessel connecting two main blood vessels coming out of the heart that does not close spontaneously (by itself).
Two innovative approaches, pulsatile orocutaneous entrainment of non-nutritive suck via orosensory entrainment (NTrainer) device technology and serial salivary gene expression analyses, will be merged to examine the relation between gene expression, oral somatosensory stimulation, feeding behavior, and neurodevelopmental outcomes at 18 months corrected age (CA) on 180 extremely preterm infants \[EPIs\] (24 0/7-26 6/7 GA and 27 0/7 - 28 6/7 GA) enrolled at three neonatal intensive care units: Catholic Health Initiative (CHI) Health St. Elizabeth (Lincoln, NE), Tufts Medical Center (Boston, MA), and Santa Clara Valley Medical Center (San Jose, CA). EPIs will be randomized to a blind pacifier (SHAM) or PULSED NTrainer treatment groups, and stratified by GA, sex, and bronchopulmonary dysplasia status (BPD vs non-BPD). We hypothesize that the combination of the NTrainer® intervention for improved oral feeding skills, along with objective salivary gene expression data to monitor response to treatment and feeding development, will result in a novel, objective, and personalized approach to neonatal oral feeding and reduce the duration of time to attain oral feeds while improving feeding, growth and neurodevelopmental outcomes at 18 months' CA.
The purpose of this study is to determine if buccal administration of a concentrated formulation of long-chain polyunsaturated fatty acids (LCPUFA) can help to maintain docosahexaenoic acid (DHA) levels in extremely low birth weight (ELBW) infants.
The objective of the NeoPlaTT trial is to test whether, among extremely preterm infants born at 23 0/7 to 26 6/7 weeks' gestation, a lower platelet transfusion threshold, compared to a higher threshold, improves survival without major or severe bleeding up to 40 0/7 weeks' postmenstrual age (PMA).
Study focuses on determining if daily versus every-other-day (EOD) oral iron at the same dose per kilogram per day will achieve similar incidence of iron replete status at 36 weeks post-menstrual age in premature neonates
The goal of this trial is to compare the time to first heart rate displayed for iRes Warmer with ResusView and using iRes Warmer without ResusView when used in the resuscitation (e.g. Cardiopulmonary resuscitation or breathing assistance) of premature newborns (23 to 32+6 weeks gestation).
We are attempting to improve the cerebral monitoring of extremely low gestational age (ELGA) infants, such that in the future, real-time monitoring will be possible, to aid clinicians in their management of these infants. We wish to establish a new NIRS device, diffuse correlation spectroscopy (DCS), as a safe, noninvasive and informative bedside tool for assessing and monitoring brain health in ELGA infants during the first few days of life. It is hoped that this method will provide detailed information on changes in oxygen consumption and metabolism, and cerebral perfusion. This technique will have wide applicability, but for this research study we wish to focus on the effect of blood flow instabilities, intermittent hypotension and hypoxic episodes, pressure passive CBF periods, and hypoperfusion on the preterm brain during the first days of life, and their relationship with incidence of intraventricular hemorrhage (IVH). We aim to recruit 100 premature infants to obtain data to: 1. Test the feasibility of NIRS-DCS to monitor cerebral activity, perfusion and oxygen consumption in extremely premature infants during the first week of life. 2. To assess if these baseline values are impacted by intermittent hypoxic episodes. 3. To assess if cerebral blood flow disturbances correlate with incidence of intraventricular hemorrhage. 4. Correlate the NIRS-DCS findings with clinical outcome at hospital discharge.
Cycled (intermittent) phototherapy will be compared to continuous (uninterrupted) phototherapy in the treatment of hyperbilirubinemia (newborn jaundice) in extremely low birth weight newborns in a pilot randomized controlled trial. Hypothesis: Cycled phototherapy (PT) will provide the same benefits as continuous phototherapy in extremely low birth weight (ELBW) infants without the risks that have been associated with continuous phototherapy.
The objective of the TOP trial is to determine whether higher hemoglobin thresholds for transfusing ELBW infants resulting in higher hemoglobin levels lead to improvement in the primary outcome of survival and rates of neurodevelopmental impairment (NDI) at 22-26 months of age, using standardized assessments by Bayley.
Chronic pulmonary hypertension (cPHT) is a serious cardiopulmonary disorder that causes low oxygen levels in the blood, difficulty in breathing and ultimately heart failure. Newborn babies born extremely premature frequently suffer from cPHT while receiving treatment in neonatal intensive care units and are more likely to die than those without cPHT. Echocardiography is the investigation of choice for the assessment of heart function in premature infants however however there is a significant lack of standardization, sensitivity, and reliability for echocardiography parameters and a lack of consensus regarding optimal detection timing. In adults and older children it is known that early diagnosis and treatment, particularly before right side of the heart fails, is an important determinant of treatment success and survival. Diagnosis late in postnatal course for preterm infants remains a major barrier to timely and effective treatment. The primary objective of this study is to develop new, sensitive, quantitative echocardiographic diagnostic criteria which will allow for the identification of extreme preterm neonates suffering from significantly high pressure in their pulmonary blood vessels, early in postnatal course, when the disease is likely to be most amenable to preventative/curative treatment. This is an international initiative that will leverage expertise about echocardiography techniques and cardiopulmonary physiology of preterm infants.The results of this study will have an immediate impact on the day-to-day care of these highly vulnerable infants. The results will lead to increased awareness among clinicians, inform future surveillance protocols and diagnostic timing, and provide ideal preparation for future therapeutic trials.
Extremely low birth weight (ELBW), birth weight less than or equal to 1000 g, infants are at high risk for developing brain injury in the first week of life. Intraventricular hemorrhage (IVH) and periventricular leukomalacia (PVL) are the most common injuries in this group of infants. Their incidence is inversely proportional to gestational age (GA) and birth weight (BW). These lesions are associated with neurodevelopmental delay, poor cognitive performance, visual and hearing impairment, epilepsy, and cerebral palsy; and instability of systemic hemodynamics during transition from intra- to extra-uterine life and during the early neonatal period is believed to be at their genesis. While the incidence of ultrasound- diagnosed cystic PVL has decreased dramatically over the last 2 decades, diffuse PVL detected by magnetic resonance imaging (MRI) is still prevalent in survivors of neonatal intensive care. Moreover, PVL, even when non-cystic, is associated with decreased cortical complexity and brain volume and eventual neurocognitive impairment. Currently, clinicians lack the tools to detect changes in cerebral perfusion prior to irreversible injury. Unfortunately, the incidence of brain injury in ELBW infants has remained relatively stable. Once translated to the bedside, the goal of this research is to develop a monitoring system that will allow researchers to identify infants most at risk for IVH and PVL and in the future, intervention studies will be initiated to use the changes in cerebral perfusion to direct hemodynamic management. The purpose of this study is to first understand the physiology of brain injury and then to eventually impact the outcomes in this high-risk group of infants by assessing the ability of the diastolic closing margin (DCM), a non-invasive estimate of brain perfusion pressure, to predict hemorrhagic and ischemic brain injury in ELBW infants. The information collected for this study will help develop algorithms or monitoring plans that will maintain the appropriate brain perfusion pressure and thereby, prevent severe brain injury.
The purpose of this trial is to study the effect that anemia and Red Blood Cell (RBC) transfusions have on oxygen levels in the digestive tracts of Extremely Low Birth Weight (ELBW) infants and to look for possible markers in a baby's blood, urine and/or stool that may lead to a better understanding of what makes an ELBW infant at risk for digestive tract problems such as necrotizing enterocolitis.
Prematurity is a very important problem in this country. Prematurity can cause problems with organ (such as the brain, heart, kidneys) growth and development. A very important part of keeping premature babies healthy is ensuring good blood flow to all of these organs. Some premature babies have problems with their hearts and getting enough blood out to the rest of their bodies. This problem is referred to as hypotension (low blood pressure) and is found by looking at blood test values and while examining the baby. These babies will need medications to help their heart deliver blood to all of the important areas in their bodies. Babies who have hypotension requiring medications tend to have more problems than premature babies that don't need hypotension medication. Some of these problems include a higher risk of bleeding into their brain, kidney problems, liver problems, intestinal (gut) problems causing difficulty tolerating feeds, and a very dangerous infection of their intestines. Some long term effects include hearing loss, developmental delay, and learning problems in the future that are worse than other premature babies who did not have hypotension. Hypotensive premature babies also have a higher risk of death. The cause of hypotension in the first week of life is still not known. We know that babies have to get used to being in the outside world instead of in the womb. A lot of changes with the heart and lungs have to happen for them to not be affected by that transition. If we could gain a better understanding of those changes, we might be able to prevent some of these issues from happening. This study will look closely at premature babies with and without hypotension to assess the heart and lung changes in the first week of life. To do this, we will use monitoring machines and tests to get a better idea of all the changes that happen. This information will help all neonatologists who care for premature babies.
Milking the umbilical cord from the placental end toward the infant has been shown to benefit preterm infants when compared to either clamping the umbilical cord immediately or waiting delaying the clamping of the cord. Delaying cord clamping for 30-120 seconds has been shown to improve heart and lung function, reduces the need for blood transfusion, and reduces the risk for brain bleeding seen in some preterm infants. Delaying the clamping of the umbilical cord, however in extremely premature infants is not considered safe, since it also delays the resuscitation that these infants need immediately after birth. Milking the umbilical cord is believed have similar benefits to delaying the clamping of the cord, but can be done much faster (seconds rather than minutes). In this study, the cord will milked three times over about 10-20 seconds and the infant will be passed to the awaiting newborn medical team for routine care. Participants of this study will be randomly assigned to one of two study groups: the first group will have the cord milking intervention and the second group will not have any intervention other than routine, immediate cord clamping with routine care of mother and infant. Data will be collected about the mother prior to delivery and data will also be collected about the baby using computerized health records. The data will look at short term changes in red blood cell volumes, the need for blood transfusions, and rates of known complications of prematurity, including longer term developmental complications at 18-24 months. The hypothesis is that milking the umbilical cord before cutting the cord will lead to a higher hemoglobin concentration and decrease the need for blood transfusions in extremely preterm neonates compared to the current standard of immediately clamping the umbilical cord.
The Hydrocortisone and Extubation study will test the safety and efficacy of a 10 day course of hydrocortisone for infants who are less than 30 weeks estimated gestational age and who are intubated at 14-28 days of life. Infants will be randomized to receive hydrocortisone or placebo. This study will determine if hydrocortisone improves infants'survival without moderate or severe BPD and will be associated with improvement in survival without moderate or severe neurodevelopmental impairment at 22 - 26 months corrected age.
Low blood pressure or hypotension is a very important problem that is often seen in premature babies, especially those with low birth weight. Severe hypotension leads to significant problems including brain bleeds, developmental delays, kidney and liver problems, and other issues that can affect babies for the rest of their lives. An important aspect in the management of infants with hypotension is the decision of when to treat and with what agent. Research is being conducted to try to find the best medication to use in these situations. Dopamine is often used first, but it does not always prove to be effective, and it has several concerning side effects. This study will look at vasopressin, which has fewer side effects, as a first-line medication for low blood pressure in extremely low birth weight infants. Hypotheses and Specific Aims: This study will show superiority of vasopressin to dopamine in preterm, extremely low birth weight infants who have hypotension within the first 24 hours of life. We will specifically look at its ability to raise blood pressure values, improve clinical symptoms seen, any adverse effects, and clinical outcomes of babies being treated.
This observational study was conducted to design and test a physiologic definition for bronchopulmonary dysplasia at 36 weeks of life. Infants were studied in a supine position with the pulse oximeter in position with good signal prior to collecting baseline data. Feedings and medications were given 30 minutes before the evaluation. Baseline data was collected on infant's current oxygen. Then, the infants were weaned to room air for 30 minutes. If saturations remain ≥90%, the infant was considered to have passed the oxygen reduction challenge (to NOT have BPD). The infant should then be placed back in his/her baseline oxygen. If the infant has saturations \<90% for 5 continuous minutes or \<80% for 15 seconds, the infant should be immediately placed back in his/her baseline oxygen, and the infant was considered to have NOT passed the challenge (to have BPD).
The purposes of this study were: 1) to compare mortality and postoperative morbidities in extremely low birth weight (ELBW) infants who underwent initial laparotomy or drainage for necrotizing enterocolitis (NEC) or isolated intestinal perforation (IP); 2) to determine the ability to distinguish NEC from IP preoperatively and the importance of this distinction on outcome measures; and 3) to evaluate the association between extent of intestinal disease determined at operation and outcome measures. All ELBW infants born at participating NRN centers were screened for the presence of NEC or IP that was thought by the pediatric surgeon and neonatologist to require surgical intervention. Data were collected enrolled infants, including: intraoperative findings recorded by the surgeon and specific post-operative complications. Neurodevelopmental examinations were conducted on surviving infants at 18-22 months corrected age.