23 Clinical Trials for Various Conditions
The purpose of this study is to determine if the RAM cannula is as effective as conventional binasal prongs to deliver CPAP to low birth weight infants with respiratory distress.
In this observational pilot project, the investigators plan to document duration and sources of exposure to plasticizers in infants born at birth weights less than 1500 grams. The investigators will examine the association between exposure to plasticizers and outcomes such as performance on a neurological screening tool, extrauterine growth, and thyroid function.
Evaluate the safety, PK and efficacy comparing Pagibaximab Injection to placebo in preventing staphylococcal sepsis in very low birth weight infants. 1550 infants will be enrolled prior to 48 hours of life and will be randomized 1:1 to receive active drug or placebo on study days 0, 1, 2, 9, 16, and 23.
Our hypothesis is that treatment of known Ureaplasma spp. infection of the airways in very low birth weight (VLBW) infants with azithromycin will eradicate the organisms and lessen the proinflammatory state caused by infection that puts them at risk for Bronchopulmonary Dysplasia (BPD). We propose to conduct a randomized trial of early (less than 3 days of age) treatment with intravenous azithromycin versus expectant management for VLBW infants with Ureaplasma spp. respiratory tract infection with the following specific aims: (1) Determine microbiological efficacy, pharmacokinetics, and safety of azithromycin treatment for eradication of Ureaplasma spp. in preterm infants, (2) Determine the respiratory outcomes of infants in the two treatment groups and those without respiratory tract Ureaplasma spp. infection
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.
The goal of this protocol is to establish a randomized clinical trial comparing the use of cord blood vs. infant blood with the primary outcome of comparing both the absolute hemoglobin concentration and the percent change in hemoglobin concentration from baseline around 24 hours of life.
Premature infants have high rates of bronchopulmonary dysplasia (BPD) due to prematurity of the participants' lungs and the need for prolonged respiratory support. These infants are at increased risk for gastroesophageal reflux and aspiration which may exacerbate lung injury. Transpyloric feeds, specifically duodenal feeds, may be used to bypass the stomach and directly feed the duodenum decreasing the amount of gastric reflux contributing to aspiration. Duodenal feeds are equivalent to gastric feeds with regards to nutritional outcomes, and have been shown to decrease events of apnea and bradycardia in premature infants. This study will evaluate the feasibility and safety of duodenal feeds in premature infants. The hypothesis is that duodenal feeds may be safely and successfully performed in premature very low birth weight infants.
This study evaluates the effectiveness of individualized human milk fortification for very low birth weight (\<1500 g) babies in the NICU (Neonatal Intensive Care Unit) to optimize their growth. Breast milk analysis will occur on a weekly basis using the Miris Human Milk Analyzer. In the Control group, participants will receive standard TPN (total parenteral nutrition) and lipids and breast milk fortification according to MetroHealth's NICU guidelines. The Intervention group will receive TPN and lipids optimized depending on the results of breast milk analysis, followed by additional individualized fortification using additional microlipids and/or liquid protein to achieve the goal of 4g protein/kg/day and 100-130 kcal/kg/day.
Delayed cord clamping (DCC) from 30 to 60 seconds allows blood to continue to flow from the placenta through the umbilical cord to the infant, thus resulting in a placental transfusion. This transfusion may improve circulating volume at birth leading to a smoother postnatal transition and overall improved outcome for preterm infants. The average blood volume delivered with DCC up to 90 seconds in preterm infants has been estimated to be about 12 ml per kg with vaginal deliveries resulting in slightly higher transfusions compared to cesarean deliveries. Several several short-term benefits have been described including a reduction in the need for blood transfusions as well as a possible reduction in intraventricular hemorrhage and necrotizing enterocolitis. All mothers with threatened preterm delivery between 28 and 34 6/7 weeks will be approached for the study. Following consent, the infant will be randomly assigned to either a 30 or 60 second delay in cord clamping in the delivery room. If the infant is not breathing by 30 seconds, the cord will be clamped and the infant moved to a resuscitation area. The primary outcome is a 3 percent difference in the hematocrit at one hour (routinely obtained on all babies). With approximately 75 neonates in each group (30 and 60 second DCC), there is 80% power to detect a difference in the mean hematocrit of 3% using a two-sample t-test with a 0.05 two-sided significance level.
The purpose of this study is to determine the safety and effectiveness of the Babylog VN500 in high frequency oscillatory ventilation (HFOV) mode as a method for treating very low birth weight (VLBW) neonates requiring invasive respiratory support in the treatment of respiratory distress.
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.
The purpose of the study is to determine whether packed red blood cell (PRBC) transfusion affects intestinal blood flow of premature infants during feedings and if so, whether return of normal intestinal blood flow pattern occurs within 48 hours of blood transfusion. Abnormal intestinal responses to the feedings (insufficient postprandial blood flow increase in order to digest given feeding volume or overall decrease of intestinal blood flow) may predispose infants to feeding intolerance and to serious intestinal disease called necrotizing enterocolitis (NEC). Patent ductus arteriosus (PDA) is a relatively common heart condition found in young preterm infants that can lead to decreased blood flow in different organs, including intestines. Thus, the determination of the presence or absence of PDA is an important part of the study, since it can be a relevant confounding variable. In this study, the investigators will assess intestinal blood flow by using sonogram to measure velocity through the superior mesenteric artery (SMA), the artery supplying most of the intestine, both pre- and 45 minutes post feeding. The investigators will also use echocardiogram to determine the presence or absence of PDA. Each set of measurements will be done immediately before and after the transfusion, and again 24 and 48 hours after the transfusion. Specific Hypothesis: The investigators hypothesize that infants will have attenuated postprandial blood flow velocities in immediate posttransfusion state when compared to the pretransfusion values. The investigators further hypothesize that normal, pretransfusion postprandial blood flow velocities will be achieved 48 hrs after the blood transfusion.
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.
The goal of the study is to determine if parenteral nutrition-associated cholestasis (PNAC) is related to the amount of parenteral (intravenous) fat administered to premature babies until full enteral nutrition is achieved.
"Phase I/II, Randomized, Double Blind, Placebo Controlled, Dose Escalating, Safety and Pharmacokinetics Study in Very Low Birth Weight Neonates of Four Doses of BSYX-A110 for the Prevention of S. epidermidis Infection." The purpose of this study is to evaluate the safety and pharmacokinetics of escalating doses of BSYX-A110 administered on Study Days 0 and 14.
The purpose of this study is to evaluate the safety (including tolerability), pharmacokinetics, pharmacodynamics and clinical activity of BSYX-A110 administered in a 3-dose regimen on Study Days 0, 7, and 14.
The purpose of this study is to test the safety of silver alginate (Algidex™) dressing in VLBW infants in preparation for a large efficacy trial.
Hypothesis: Fewer neonates managed using information from heart rate characteristics (HRC) will require intubation and mechanical ventilation as a result of sepsis and sepsis-like illness. Infants will be randomly assigned to one of two groups. One group of infants will have the HRC index known to the physicians caring for them, and physicians will use the HRC index as they desire to aid in clinical management. Infants in the other group will have the HRC index recorded, but this information will not be displayed to the physicians caring for the infants.
Preterm infants (gestational age (GA) at birth \< 31 weeks) admitted to the University of Minnesota Masonic Children's Hospital NICU will have a Dexcom G6 sensor Continuous Glucose Monitor (CGM) placed shortly after consent and wear the device for up to 10 days. The low alarm threshold will be set at 60 mg/dL or 80mg/dL (depending on whether they are receiving continuous insulin) to detect the potential for hypoglycemia. A suggestion will be made to the clinical team to draw a blood glucose to correlate with CGM values ≤60 mg/dL and the infant will be treated according to Neonatal Intensive Care Unit (NICU) protocol for corroborating blood glucose levels. Infants will also be monitored per current NICU protocol (blood glucose checks every 1-2 hours while on insulin) and treated accordingly. Clinical data and long-term growth, body composition and neurodevelopmental outcomes will be recorded.
This study aims to compare the short-term effects on growth and feeding tolerance of a liquid high calorie formula added to human milk versus powdered human milk fortifier in small preterm infants.
Prolacta Bioscience has developed the first purely human fortifier, Prolact-Plus, that can provide a source of many of the required nutrients for premature, newborn infants, particularly protein and calories. This product is made from donor human milk from which the skim (non-lipid portion) has been separated and then concentrated. A certain amount of the lipid content has been added back to achieve higher caloric content within a small delivery volume. The product is then pasteurized and filled in small quantities in order to allow for the addition of mother's own milk (or, possibly, milk from another donor). The goal of the preparation is to achieve an increase of approximately 4 cal/oz of mother's milk and to provide a protein level (when mixed with average pre-term milk) of about 3.5-3.8 g/100 Kcal of feed. The data on Prolact-Plus will be obtained prospectively from infants who will receive human milk fortified in this fashion. The data on standard,bovine (cow)-fortified milk will be obtained retrospectively from medical records at the participating institutions. While this design is not necessarily optimal in this setting, it is an efficient and quick approach to evaluating the acute clinical effect of Prolact-Plus. It is anticipated that further studies will be conducted that will examine longer-term accounts and possibly do this in a controlled, randomized environment. The goal of this study is to evaluate the short-term effect of Prolact-Plus fortified human milk when compared with bovine-based fortification of human milk on parameters such as growth and short-term development, infectious complications and incidence of feeding intolerance in a cohort design. Statistically, the study will attempt to evaluate a null hypothesis of equivalent results with respect to these parameters between the two types of fortifiers as compared with a two-sided alternative (difference between the groups). In addition, data will be collected on overall survival and length of stay in the NICU. These data will be collected for descriptive purposes, although an attempt will be made to compare the findings with those obtained from the bovine-based fortifier.
Umbilical artery catheters (UACs) are associated with significant morbidity in preterm neonates however are necessary for the management of this high risk population. UACs have been linked to serious adverse events (SAEs) including arterial thrombosis, necrotizing enterocolitis, limb ischemia, and renal failure. Resonance Raman Spectroscopy (RRS), raman for short, is a technology that utilizes vibrational spectroscopy, rather than absorbance spectroscopy, to determine the oxyhemoglobin concentration in tissues. In this prospective, observational study, daily measurements of StO2 of low birth weight neonates using raman spectroscopy will be correlated with UACs.The study team hypothesizes that raman can detect changes in peripheral tissue oxygenation in the ipsilateral extremity to the UAC and that raman is more sensitive at detecting changes in peripheral tissue oxygenation then common metrics used to monitor neonatal hemodynamics. If successful, this study would demonstrate that raman can be used as an early marker of tissue oxygen deprivation in neonates with UACs and maybe used to guide management in other clinical scenarios where StO2 is affected.
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.