17 Clinical Trials for Various Conditions
We will use information technology to integrate the 2004 American Academy of Pediatrics guidelines for management of neonatal hyperbilirubinemia with laboratory reporting of newborn bilirubin test results to improve physician adherence to the guidelines and quality of care.
OBJECTIVES: I. Compare the efficacy of preventive vs. therapeutic tin mesoporphyrin in direct Coombs' test-positive ABO hemolytic disease of the newborn and glucose-6-phosphate dehydrogenase deficiency in infants living in Greece. II. Assess the safety of tin mesoporphyrin in high-risk newborns.
Phototherapy has served as a primary treatment for hyperbilirubinemia in newborn populations. The light emitted through phototherapy interacts with bilirubin at the skin level to transform it into water-soluble products eliminated in urine and stool. Efficacy of phototherapy relies on the irradiance dispensed at the skin level by the treatment and on the surface area of skin exposed. The purpose of this Investigator-initiated, prospective, two-arm, randomized control investigation is to compare the effect of a novel, newly available, FDA cleared, phototherapy device (Neolight Skylife) with the standard phototherapy treatments used in HonorHealth newborn nurseries (Natus-Neo Blue Blanket and GE Bili Soft Blanket) on healthy, newborns ≥ 35 weeks + 0 days Gestational Age (GA) at the time of birth in the treatment of hyperbilirubinemia. We hypothesize that the unconjugated bilirubin level will be comparably reduced across each treatment arm from baseline to 12 and 24 hour intervals.
The purpose of this study is to find out if giving glycerin suppositories will help decrease the length of time premature infants need phototherapy. The investigators hypothesize that glycerin suppositories (initiated along with phototherapy) will have no effect on reducing duration of phototherapy in premature infants with jaundice.
The purpose of this research study is to more accurately measure the amount of true red blood cell breakdown (hemolysis) in newborn babies with potentially problematic blood type mismatch with their mothers (ABO incompatibility), and to examine how the true level of red blood cell destruction relates to other laboratory tests obtained in newborns with jaundice. A better understanding of the true amount of red blood cell destruction that is caused by blood type mismatch, as well as how it relates with other laboratory tests ordered for ABO incompatibility and red blood cell destruction, would help avoid unnecessary testing, treatment and prolonged hospital stays in such babies.
The purpose of this protocol is to make Stanate (TM) \[stannsoporfin, tin-mesoporphyrin\] available to infants who meet the following criteria: 1. the infant has a very high level of bilirubin without an adequate clinical response to phototherapy; 2. the infant requires an exchange transfusion; and 3. the family refuses to allow the administration of blood products, particularly on religious grounds, such as within the Jehovah's Witness community.
A team of researchers at Rice University in partnership with clinicians at Queen Elizabeth Central Hospital created BiliSpec, a low-cost battery-powered reader designed to immediately quantify serum bilirubin levels from a small drop of whole blood applied to a lateral flow strip. The simple and affordable BiliSpec system offers a faster and more cost-effective means to detect neonatal jaundice in under-resourced clinics and determine when phototherapy is needed. The goal of this study is to validate the accuracy of the BiliSpec device in measuring bilirubin levels in neonates relative to the laboratory spectrophotometric bilirubinometer and transcutaneous bilirubinometer measurements.
The purpose of the study is to determine if neonates (who already have an increased risk of hyperbilirubinemia due to mother's history of having previous neonate who received phototherapy for hyperbilirubinemia) have higher bilirubin levels 24 hours after birth with delayed cord clamping.
The new investigational and FDA-approved device is named "SkyLife" and is a mattress, which uses blue LEDs as the light source similar to those used in the currently-used overhead blue LED panel devices.
The investigators propose to conduct an exploratory pilot study, enrolling 30 exclusively breastfeeding newborns 36-96 hours of age, whose Total Serum Bilirubin (TSB) is within 0.1-3 mg/dl of the American Academy of Pediatrics (AAP)-recommended treatment thresholds for Phototherapy (PT). These newborns will be randomly assigned to receive either 10 cc extensively hydrolyzed formula following each breastfeeding using cup, spoon or syringe, or to continue exclusive breastfeeding. Infants will be followed at 1, 2, 3 and 6 months to assess breastfeeding duration and use of formula and complementary foods. Our hypothesis is that limited, small amounts of formula administered without a bottle immediately following breastfeeding might reduce the incidence of severe hyperbilirubinemia among newborns at increased risk of TSB exceeding AAP-recommended thresholds for beginning phototherapy.
It is a normal process in the human body for red blood cells to die, which makes bilirubin. Bilirubin is cleared away through the liver. Some babies are born with livers that don't work well enough yet, or their red blood cells are dying too fast, so the baby looks yellow (jaundice). This means there is too much bilirubin in the body. It can be dangerous if a baby's bilirubin gets too high. Phototherapy is what they call the lights they shine on newborn babies to help the liver get rid of bilirubin. This study tests an experimental drug to see if it can reduce how much bilirubin is being made in the first place.
This multi-center, randomized clinical trial compared different bilirubin levels as thresholds for timing of phototherapy in extremely low birth weight infants. The primary hypothesis was that there would be no difference in death or neurodevelopmental impairment at 18-22 months corrected age in infants treated by either aggressive or conservative threshold limits. 1,978 infants were enrolled.
It is normal for red blood cells to die, even in newborn babies. The waste from that is called bilirubin. The liver clears bilirubin out of the body. Some babies are born with illness that makes red blood cells die too fast, so the liver is not strong enough to keep up with it. The yellowish color in eyes or skin means there is too much bilirubin in the body. It can be dangerous if a baby's bilirubin gets too high. Special lights are put on jaundiced babies (called phototherapy) to help the liver get rid of bilirubin. This study tests an experimental drug to see if it can help the liver even more, by safely cutting down the amount of bilirubin the body is making in the first place.
Jaundice is a condition caused by elevated levels of bilirubin in the body otherwise known as hyperbilirubinemia. It occurs when there is an increase in bilirubin production or normal production with problems eliminating it from the body. Serum levels of bilirubin in excess of 5 mg/dL signifies clinical jaundice, yet more than half of full term infants experience these levels within the first week of life. For those patients who have markedly elevated serum bilirubin levels, which phototherapy cannot sufficiently treat, the use of exchange transfusions is a viable option within the hospital setting. In comparison, bili-blankets have been used as a form of phototherapy for those patients being treated in a home-based setting to reduce the likelihood of hospital readmissions.
The aims of this observational bench project are to validate the performance of the miniaturized and modernized hematofluorometer that measures bilirubin capacity into a product and is suitable for operation in various point of care environments w in the management of preterm neonates.
This is a multi-center, randomized, sham injection-controlled (placebo) masked trial of a single intramuscular injection of Stannsoporfin compared to "sham" (placebo) in healthy term and near-term newborns admitted to the well-baby nursery and enrolled with "intention to treat".
The objective of this study was to describe total bilirubin production in healthy term infants as a means of understanding the differences in jaundice pigment production associated with various common clinical circumstances.