10 Clinical Trials for Various Conditions
20 high-risk parent-infant dyads hospitalized in a 58-bed level IV NICU will be randomized to either receive Telehealth or in-person Baby Bridge services. Baby Bridge is a program to bridge the gap between NICU discharge and initiation of community-based early intervention services. Weekly therapy services are provided in the child's home, either via telehealth or in-person. An in-person evaluation in the NICU is attempted for each child prior to NICU discharge. Cost, adoptability, feasibility, adaptations, and acceptability amongst caregivers will be compared between the two groups.
The purpose of this study is for the researchers to examine the safety and efficacy of liquid human milk fortifier (HMF) in moderately preterm infants compared to powdered human milk fortifier.
Mortality related to neonatal sepsis exceeds 1 million deaths worldwide; the highest risk of mortality is in preterm neonates, especially low birth weight (LBW), and very low birth weight (VLBW) neonates. The estimated cost of caring for these patients is approximately $700 million in the US alone. In an effort to help mature the neonatal immune system, several adjuvant therapies have been studied; however, none have been implemented in clinical practice. One of the most frequently considered targets for adjuvant therapy is toll-like receptors (TLRs). TLRs detect conserved molecular products of microorganisms (lipopolysaccharide (LPS), and initiate immunity and inflammation. Early adjuvant administration in VLBW infants may be a viable approach to reducing the incidence of early and late sepsis. This research study will characterize immune genomic expression and functional capacity at the time of birth in both term and preterm neonates and determine what effects, if any, that adjuvants have on this function. Additionally, this study will seek to determine if immune function correlates with certain microbiota.
The PEPI study is designed to provide a patterned feeding experience. By using a regularly occurring and necessary caregiving event, feeding, as the vehicle for the patterned experience, the intervention should be effective at promoting and reinforcing neuronal growth and connections that are critical for neurobehavioral and cognitive function while at the same time being cost effective in its delivery.
There is a growing focus on short- and long-term kidney health in neonates, including those with acute kidney injury (AKI). AKI occurs commonly in the Neonatal Intensive Care Unit (NICU) and is associated with adverse outcomes. In addition to poor outcomes during the hospitalization, infants discharged from the NICU may have an increased burden of kidney disease during childhood. Studies of long-term kidney function in children born prematurely show a fourfold increase in chronic kidney disease (CKD) by adolescence and into adulthood. Despite the landmark findings of the Assessment of Worldwide Acute Kidney Injury Epidemiology in Neonates (AWAKEN) study, the limitations of this study are notable. First, the AWAKEN study enrolled infants admitted in 2014, making the data now over 10 years old. Much has changed in neonatal practice (e.g. increased AKI awareness, treatment strategies). Secondly, the findings of the AWAKEN study were geographically limited. While the AWAKEN study was multi-national and multi-center, it represented only 24 centers (22 from North America, 1 from India and 1 from Australia). Finally, information collected from AWAKEN ended at hospital discharge. The investigators seek to leverage the strength of the Neonatal Kidney Collaborative along with other organizations and collaboratives interested in neonatal kidney health to address these gaps. Therefore, the investigators are conducting a second, modified iteration of this study entitled "AWAKEN 2.0". AWAKEN 2.0 will be a multi-center multi-national retrospective analysis utilizing similar methodology to the AWAKEN study.
This was a quasi-experimental pilot study comparing blood glucose values 30 minutes after feeding alone or feeding + dextrose gel in newborns at risk for transient neonatal hypoglycemia.
Premature infants are at high risk for variations in blood pressure and oxygenation during the first few days of life. The immaturity of the premature brain may further predispose these infants to death or the development of neurologic problems. The relationship between unstable blood pressure and oxygen levels and brain injury has not been well elucidated. This study investigates the utility of near-infrared spectroscopy (NIRS), a non-invasive oxygen-measuring device, to identify preterm infants at highest risk for brain injury or death.
The purpose of this study is to determine if a repeat course of betamethasone given to pregnant women with preterm premature rupture of membranes (PPROM) will decrease the infant's length of stay in the neonatal intensive care unit (NICU) and the overall neonatal morbidity associated with this condition.
Objective: To study the natural history of normal pregnancy and the most frequent pregnancy complications responsible for the excessive rate of perinatal morbidity and mortality, in order to develop models to predict the occurrence of these complications of pregnancy at the earliest possible time. The study focuses on the prediction of preterm labor with intact membranes, preterm prelabor rupture of membranes (PROM), preeclampsia, small for gestational age, gestational diabetes, and fetal death. These complications account for a minimum of $30 billion annually in the US alone. Study population: A cohort of pregnant women seeking care at the prenatal clinic of the Perinatology Research Branch in Detroit, Michigan. Design: A prospective observational cohort study of the natural history of women with a normal pregnancy, a history of adverse outcome, or those with a complication in the index pregnancy; therefore, this study will include nulliparous and parous women. Data will be collected at the time of clinic visits and will include interviews, clinical measurements, and ultrasound studies. We will assemble a biorepository of maternal biological fluids (blood, urine, saliva, cervicovaginal fluid, gingival crevicular fluid, swabs to characterize microbiota, amniotic fluid when a clinically indicated amniocentesis is performed). Placentas will be collected at the time of delivery as well as umbilical blood, and swabs to characterize the neonatal microbiota. We will use a retrospective case control and case-cohort design to generate models for the prediction of the most common pregnancy complications. These models will be developed by classifying obstetrical complications according to clinical presentation and histologic placental lesions. Models will be developed and subsequently validated in an independent cohort. Outcome measures: The goal is to develop sensitive, specific, and parsimonious predictive models to identify the patients at risk for developing complications of pregnancy using a combination of clinical and biological markers (biochemical and biophysical).
The purpose of this application is to request permission to use a bank of biological specimens and clinical information collected by the investigators prior to their joining the intramural program. The samples have been gathered under the sponsorship and approval of the Human Investigations Committees at Yale University, Wayne State University and Pennsylvania Hospital in the United States, the Sotero del Rio Hospital, the Hospital of the Universidad de Chile and the Universidad Catolica de Chile , in Chile. The investigators have generated a bank of amniotic fluid, maternal blood and urine, and fetal blood obtained at the time of delivery (from the umbilical cord and by cordocentesis), neonate s urine and sonographic examinations of the fetus, including echocardiography, stored on videotapes. Clinical information with patient identifiers is available for these samples and sonographic examinations.