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NCT03706417
This pilot intervention trial will assess the feasibility of a live consultation between community hospital providers and tertiary care providers employing a novel teleconsult platform, Maine Neonatal Encephalopathy Teleconsult (Maine NET), on the time to initiation of therapeutic hypothermia (TH) for 35 infants born in community hospitals in Maine compared with matched historical controls. Community hospital providers and tertiary care center provider satisfaction with the Maine NET platform will also be assessed. The hypothesis is that immediately available expert assessment via a teleconsult platform will promote earlier implementation of TH and be associated with high levels of provider satisfaction.
NCT02544100
The purpose of this study is to create a neonatal neurologic biological big data center named Neonatal Neurologic Intensive Care Network in China with neonatal systematic information, biological samples and genomics \& genetic data on neonates born with neonatal severe encephalopathy. It also can predict brain injury as cerebral function monitoring through big data and recommend appropriate treatment. In addition, the following samples will be collected in a bio-bank in for future studies: blood, urine, and cerebrospinal fluid (CSF) samples.
NCT06985303
The goal of this study is to explore a new treatment that may help repair brain damage in individuals with periventricular leukomalacia (PVL), a condition that affects white matter in the brain. Researchers are testing whether a combination of a novel cell therapy and specific molecular agents can support brain repair. The main questions the study aims to answer are: Can the treatment help regrow white matter and improve myelin repair? Does the treatment reduce scarring in the brain? Is the treatment safe and well-tolerated? The study uses several components, including: A specific type of neural progenitor cell to form the basis of the therapy. A small molecule compound to support cell function and survival. An agent designed to promote the repair of the myelin sheath. An enzyme intended to break down scar tissue in the brain. Researchers will study how these components work together to protect and repair the brain by influencing key pathways involved in damage and recovery.
NCT06985290
About \~3/ 1000 live-born newborns may suffer from brain injury due to a transient drop in oxygen supply to the brain during the birth process. The degree of brain injury that ensues in the first 72 hours after the injury is directly proportional to the severity of long-term childhood disabilities (e.g., cerebral palsy and developmental delays). Whole-body cooling during the first 3 days of life is proven effective in reducing the severity of brain injury. However, cooling therapy leads to pain, shivering, stress, and discomfort. The best way to alleviate the pain and agitation of cooled newborns is unknown. Standard practice is to provide morphine infusion to reduce pain. Recently, a new drug called "dexmedetomidine" has been tested in small studies and has been found to be safe during cooling in newborns. Dexmedetomidine has added beneficial effects such as anti-inflammation, faster recovery, and shorter hospital stays. This study is going to test the feasibility of conducting a future clinical trial to compare the effects of using Dexmedetomidine versus morphine in the management of cooling-related pain/agitation on the severity of brain injury in the first week of life. The study will also examine the effect of dexmedetomidine compared to morphine on short-term clinical outcomes, parental experiences and developmental outcomes at 1 year.
NCT05966714
In this study, the objective is to compare neonatal cerebral electrical activity within 3 days after birth across different altitude areas using amplitude-integrated electroencephalography (aEEG), and establish reference value for each altitude level.
NCT05155111
This is a clinical trial using telemedicine as an intervention twice in the first 6 hours of life to assess neonatal encephalopathy, one of the key factors involved in the decision to treat a neonate with therapeutic hypothermia (TH). The investigators aim to enroll up to 30 neonates, anticipating that there will be about 5 neonates, who do not demonstrate moderate to severe neonatal encephalopathy, and therefore do not meet criteria for treatment with TH. The investigators will prospectively follow the clinical course of all 30neonates through monitoring with electroencephalogram (EEG) for up to 24 hours after birth to determine if seizures are present and by MRI of the brain prior to hospital discharge to determine if there is evidence of brain injury. Neonates will be enrolled in the study for the duration of their hospital admission.
NCT04816331
Babies who have brain injury also frequently have involvement of their kidneys, lung and heart. Although clinical care in the neonatal period is well defined there are few guidelines and evidence for developmental, heart and kidney followup in childhood. The investigators aim to develop and implement guidelines for health care workers and families on Followup after Neonatal Brain Injury. Inflammation is an important factor in brain injury of newborns and also affects their heart lungs and other parts of their body. The investigators will use tests from the newborn period to predict outcome and help parents with planning health needs for their baby rather than waiting until any issues arise later on. By understanding inflammation the investigators can find methods to decrease the negative effects and improve outcomes in the future for babies and families.
NCT04176471
The TIME study is a randomized, controlled trial to evaluate impact on early measures of neurodevelopment and the safety profile of therapeutic hypothermia in term neonates with Mild Hypoxic-Ischemic Encephalopathy who are \< 6 hours of age. Neurodevelopmental outcome will be assessed at 12-14 months of age. The study will enroll 68 neonates randomized to therapeutic hypothermia or normothermia across 5 centers in California.
NCT02256618
This is a pilot study to test feasibility and safety of intravenous infusion of autologous umbilical cord blood cells in the first 72 hours after birth if a neonate is born with signs of encephalopathy.