View clinical trials related to Neonatal Hypoglycemia.
Filter by:Inborn errors of metabolism (IEM) are disorders in which there is a block at some point in the normal metabolic pathway caused by a genetic defect of a specific enzyme. The number of diseases in humans known to be attributable to inherited point defects in metabolism now exceeds 500.While the diseases individually are rare, they collectively account for a significant proportion of neonatal and childhood morbidity and mortality. Diagnosis is important not only for treatment and prognostication but also for genetic counselling and antenatal diagnosis in subsequent pregnancies.
This is a randomized, parallel, controlled, non-inferiority trial to assess the impact of a tight versus a more liberalized intrapartum glycemic control in gestational diabetic mothers on neonatal glycemia. National guidelines for the management of intrapartum glucose in women with GDM are lacking. This is likely due to the scarcity of high-quality data on the topic.
Neonatal mortality remains unacceptably high. Globally, the majority of mothers now deliver in health facilities in low resource settings where quality of newborn care is poor. Health systems strengthening through digitial quality improvement systems, such as the Neotree, are a potential solution. The overarching aim of this study is to complete the co-development of NeoTree-gamma with key functionalities configured, operationalised, tested and ready for large scale roll out across low resource settings. Specific study objectives are as follows: 1. To further develop and test the NeoTree at tertiary facilities in Malawi and Zimbabwe 2. To investigate HCPs and parent/carer view of the NeoTree, including how acceptable and usable HCWs find the app, and potential barriers and enablers to implementing/using it in practice. 3. To collect outcome data for newborns from representative sites where NeoTree is not implemented. 4. To test the clinical validity of key NeoTree diagnostic algorithms, e.g. neonatal sepsis and hypoxic ischaemic encephalopathy (HIE) against gold standard or best available standard diagnoses. 5. To add dashboards and data linkage to the functionality of the NeoTree 6. To develop and test proof of concept for communicating daily electronic medical records (EMR) using NeoTree 7. To initiate a multi-country network of newborn health care workers, policy makers and academics. 8. To estimate cost of implementing NeoTree at all sites and potential costs at scale
Umbilical vein catheters (UVC) are commonly inserted in newborns especially neonates admitted to the Neonatal Intensive Care Unit (NICU).These catheters are used since 1959. It is a suitable method for parenteral nutrition access and medications administration. Despite the benefits of the UVC, its potential complications must be considered. Thus, it is vital to determine the appropriate penetration length of the UVC.
The investigators propose to prospectively conduct a neurodevelopmental evaluation of SGA and late preterm neonates who underwent risk-based screening for hypoglycemia at newborn nursery during the first 24 hours of life based on AAP (American Academy of Pediatrics) hypoglycemia guidelines at 18 to 24 months of age. As per internal neonatal unit protocol (reflecting AAP guidelines), all neonates at risk of hypoglycemia (all preterm infants, term infants who are SGA or LGA and IDM) are routinely screened for hypoglycemia during the first 24 hours of life via bedside point of care glucose devices (see attached Weiler NICU (neonatal intensive care unit) hypoglycemia screening protocol). The investigators will compare neurodevelopmental outcomes of those who were and were not hypoglycemic in the newborn nursery based on electronic health record data.
This is a prospective randomized controlled trial investigating the timing of betamethasone administration in late preterm infants in relation to delivery and impact on neonatal hypoglycemia. Previous data has shown that neonatal hypoglycemia is increased in late preterm infants that were exposed to antenatal corticosteroids. The investigators hypothesize that the timing of steroid administration may impact the development of neonatal hypoglycemia.
Newborn babies can develop low blood sugar (glucose) which can lead to brain injury and poor developmental outcomes. Therefore, it is important to accurately measure the blood glucose in babies. One way to measure the blood glucose is to test blood from the baby's heel with a bedside device called a point of care glucometer. This method is very common and easy; however, multiple factors can lead to an inaccurate reading. A false low reading may require additional blood testing and admission to the NICU. A false high reading could result in the medical provider missing the diagnosis of low blood glucose. Our team wants to know if there is a difference between blood glucose measurements taken from warmed and un-warmed heels of infants. Blood flow farther away from the heart, such as in the feet and heels, may be less than the rest of the body, and might move more slowly. This could cause the glucose level to be lower in the feet and heels. Therefore, sampling blood from an un-warmed heel may result in a falsely low glucose reading. There is some research that suggests warming the heel increases blood flow to the area; however, only one study that we know of has evaluated differences in blood glucose readings from warmed and un-warmed heels. They found significantly higher blood glucose readings from warmed heels compared to un-warmed heels in 57 babies. However, these babies were part of a larger study comparing different diets on blood glucose levels, and the heels were warmed using warm water which is no longer a current practice. The goal of this study is to compare the capillary blood glucose levels from warmed and un-warmed heels in about 100 infants who are breast and/or formula fed using the current practice of warming heels with gel heat packs. The null hypothesis is that there will be no difference between capillary blood glucose levels sampled from an infants warmed and un-warmed heel. The alternative hypothesis is that capillary blood glucose levels sampled from warmed heels will be higher than those samples from un-warmed heels.
The aim of this study is to investigate the correlation between preterm birth, glucose level in the first two hours of life and health related quality of life in the age of 8 months and 7 years
The purpose of this study is to employ continuous glucose monitoring to measure glucose profiles in newborn infants.
Hypoglycemia (low blood glucose) is a very common problem in newborns, and has been associated with poor neurodevelopment, cognition, and school performance. At-risk newborns (infants of diabetic mothers [IDM], large [LGA] and small [SGA] for gestational age infants, and late preterm [LPT] infants) undergo a hypoglycemia screening protocol that involves numerous intermittent needle sticks to test glucose levels on bedside glucometers; however, continuous glucose monitoring (CGM, currently not approved for clinical use in babies), via a small sensor placed in the thigh (only 1 needle stick), would likely decrease pain while providing continuous glucose levels. This study will evaluate the feasibility, safety, and precision of CGM in at-risk newborns, and determine if this method would decrease the amount of painful procedures and episodes of hypoglycemia missed by intermittent sampling. As part of regular medical care, participants will undergo intermittent blood glucose screening with heel sticks as per the current hospital standard of care protocol. Regular medical care involves checking the participant's blood glucose via heel stick every few hours using a bedside glucometer, with another heel stick to confirm low values in the laboratory. If the participant has low values, he/she may be treated with oral glucose gel, feedings of breast milk or formula, or intravenous (IV) fluids in the Neonatal Intensive Care Unit (NICU). This research study involves placing a CGM device in addition to undergoing the current blood glucose screening protocol and treatment. As soon as possible after birth, a continuous glucose monitoring device (Dexcom G7) will be placed on the participant's thigh by a research team member, and will blindly continuously record glucose levels that will be analyzed after discharge. Everyone who agrees to participate in this study will have placement of this experimental device. The investigational device will stay in place for the same amount of time that a participant is undergoing blood glucose monitoring as per the current standard of care protocol, for a maximum of 7 days. A participant may need to have his/her blood glucose checked after 7 days for regular medical care (and not for research), because his/her glucose concentrations are still low. Being in the research study will not affect a participant's medical care, and will not affect how long he/she needs blood glucose monitoring or treatment. A research team member will place and remove the CGM. Nurses will evaluate the site of the device for signs of irritation, infection, bleeding, and any other issues at least 3 times per day. After discharge from the hospital, data will be collected from the participant's medical record and participant's mother's medical record, including the participant's sex and birth weight, blood glucose values, details of feedings, treatments given for low glucose concentrations, and NICU admission data. Data that will be collected from the participant's mother's medical record includes age and race, prenatal data, medical history, and medication use. The participant's parents will be asked to fill out a short survey about their experience with this device when it is removed.