Ascorbic Acid and Ibuprofen in Infants With Hypoxic Ischemic Encephalopathy
Hypoxic Ischemic EncephalopathyPerinatal AsphyxiaOxygen radicals and inflammation are important causes for brain injury in neonates following perinatal asphyxia. Animal studies demonstrated potential benefits to the brain when using both of vitamin C and ibuprofen. The efficacy of these 2 drugs when combined in protecting the human brain has not been studied. We aimed in this study to test the hypothesis that a combination of anti-oxidants (vitamin C) and anti-inflammatory (ibuprofen) drugs can decrease the brain injury in perinatal asphyxia and improve outcomes when given to infants immediately after birth.
Protecting Brains and Saving Futures - the PBSF Protocol
Brain InjuriesCongenital Heart Disease15 moreBackground: Multiple neonatal disorders are associated with risks of neurological injury. Thus, management of these infants should involve a coordinated approach to permit early diagnosis with improved clinical care. Such initiative involves the use of standardized protocols, continuous and specialized brain monitoring with electroencephalography (EEG), amplitude integrated EEG (aEEG) and Near Infrared Spectroscopy (NIRS), neuroimaging and training. Brazil is a very large country with disparities in health care assessment; some neonatal intensive care units (NICUs) are not well structured and trained to provide adequate neurocritical care. However, the development and implementation of these neurocritical care units requires high expertise and significant investment of time, manpower and equipment. In order to reduce the existing gap, a unique advanced telemedicine model of neurocritical care called Protecting Brains and Saving Futures (PBSF) protocol was developed and implemented in some Brazilian NICUs. Methods: A prospective observational cohort study will be conducted in 20 Brazilian NICUs that have adopted the PBSF protocol. All infants receiving the protocol during January 2021 to December 2023 will be eligible. Ethical approval will be obtained from the participating institutions. The primary objective is to describe the use of the PBSF protocol and clinical outcomes, by center and over a 3 years period. The use of the PBSF protocol will be measured by quantification of neuromonitoring, neuroimaging exams and sub-specialties consultation. Clinical outcomes of interest after the protocol implementation are length of hospital stay, detection of EEG seizures during hospitalization, use of anticonvulsants, inotropes, and fluid resuscitation, death before hospital discharge, and referral of patients to high-risk infant follow-up. These data will be also compared between infants with primarily neurologic and primarily clinical diagnosis. Discussion: The implementation of the PBSF protocol may provide adequate remote neurocritical care in high-risk infants with optimization of clinical management and improved outcomes. Data from this large, prospective, multicenter study are essential to determine whether neonatal neurocritical units can improve outcomes. Finally, it may offer the necessary framework for larger scale implementation and help in the development of studies of remote neuromonitoring.
Mild Encephalopathy in the Newborn Treated With Darbepoetin
Neonatal EncephalopathyHypoxic-Ischemic Encephalopathy MildThis is a Phase II multicenter placebo-controlled randomized, feasibility/safety trial. Infants >34 week gestational age with perinatal acidemia and mild neonatal encephalopathy on the modified Sarnat neurologic examination at less than six hours of age. Participants will be randomized to receive either one dose of Darbepoetin, or placebo within 24 hours of birth. Neurodevelopmental testing (Bayley (III or IV) and Gross Motor Function Assessment) will be performed at 24 months of age. Pharmacokinetics will be assessed on those infants that received Darbe.
Erythropoietin in Infants With Hypoxic Ischemic Encephalopathy (HIE)
Hypoxic Ischemic EncephalopathyIn this prospective trial the investigators plan to study the efficacy of erythropoietin as a therapeutic agent in neonates who suffer from brain injury following perinatal asphyxia.
Autologous Cord Blood Cells for Brain Injury in Term Newborns
Hypoxic Ischemic EncephalopathyThis is a pilot study to test feasibility and safety of collection, preparation and infusion of a baby's own (autologous) umbilical cord blood during the first 3 days of age if the baby is born with signs of brain injury. The cord blood used is fresh (not frozen and then thawed).
Neonatal Erythropoietin in Asphyxiated Term Newborns
Hypoxic-ischemic EncephalopathyThe purpose of this study is to determine the safety and pharmacokinetics of moderate to high doses of erythropoietin in newborn infants with birth asphyxia.
Pilot Study of Head Cooling in Preterm Infants With Hypoxic Ischemic Encephalopathy
Hypoxic Ischemic EncephalopathyThe hypothesis is that premature infants' can have enough cooling applied to cool their brain to decrease CNS injury without cooling their body.
Xenon and Cooling Therapy in Babies at High Risk of Brain Injury Following Poor Condition at Birth...
Hypoxic Ischaemic EncephalopathyThis study examines the effect of inhaled xenon gas in the treatment of newborn infants with hypoxic-ischemic encephalopathy (HIE) in combination with cooling, which is the standard treatment for this condition. The hypothesis is that the xenon + cooling combination will produce better neuroprotection than the standard treatment of cooling alone.
Darbe Administration in Newborns Undergoing Cooling for Encephalopathy
Hypoxic Ischemic EncephalopathySelective head cooling or whole body hypothermia has become the standard of care for neonatal hypoxia-ischemia encephalopathy (HIE). Despite early intervention death or major neurodevelopmental disability still occurs in nearly 50% of infants ≥ 36 weeks gestational age (GA) treated with cooling. No additional therapies have proven to be efficacious in further reducing brain injury and impairment for these high risk infants. Neuroprotective strategies aimed at improving early childhood outcomes are still needed. An important area of study includes therapies that may complement the neuroprotective effects of hypothermia and promote neuronal regeneration, recovery and neurovascular remodeling. Among these therapies, erythropoiesis stimulating agents (ESA) have been shown to provide neuroprotection, improving short and long-term neurologic outcome in brain injury and HIE in neonatal and adult animal models. Parallel with neuroprotective effects in experimental settings, recent small clinical studies suggest improved outcomes after ESA administration in patients with severe traumatic brain injury and HIE. ESA may work through several important mechanisms including reduced inflammation, limited oxidative stress, decreased apoptosis and white matter injury, as well as via pro-angiogenic and neurogenic properties. Darbepoetin alfa (Darbe), a recombinant human erythropoietin (EPO)-derived molecule, has an extended circulating half life and comparable biological activity to EPO, including activation of the EPO receptor. The proposed study is a Phase I/II dose safety and pharmacokinetic trial of early Darbe administered concurrent with hypothermia in human newborn infants with moderate to severe birth asphyxia. The long-term objectives of the proposed research are to reduce mortality and to decrease the risk of long-term disabilities in infants with HIE who survive beyond the newborn period.
Neuroprotective Effects of Hypothermia Combined With Inhaled Xenon Following Perinatal Asphyxia...
Hypoxic Ischaemic EncephalopathyThis is a randomised controlled trial in newborn infants with perinatal asphyxial encephalopathy assessing whether a combination of hypothermia and inhaled xenon preserve cerebral metabolism and structure.