Erythropoietin in Management of Neonatal Hypoxic Ischemic Encephalopathy
Hypoxic-Ischemic EncephalopathyPerinatal hypoxic-ischaemic encephalopathy occurs in one to three infants per 1000 term births, and up to 12 000 infants are affected each year in the united state of America. Hypoxic ischemic encephalopathy is not preventable in most cases, and therapies are limited. Hypothermia improves outcomes and is the current standard of care. Yet clinical trials suggest that 44% to 53% of infants who receive hypothermia will die or suffer moderate to severe neurological disability. Therefore, novel neuroprotective therapies are urgently needed to further reduce the rate and severity of neurodevelopmental disabilities resulting from hypoxic ischemic encephalopathy. Erythropoietin is a novel neuroprotective agent, with remarkable neuroprotective and neuroregenerative effects in animals. Rodent and primate models of neonatal brain injury support the safety and efficacy of multiple erythropoietin doses for improving histological and functional outcomes after hypoxia-ischaemia.
Neural Progenitor Cell and Paracrine Factors to Treat Hypoxic Ischemic Encephalopathy
Hypoxic-Ischemic EncephalopathyThe purpose of this study is to investigate the efficacy and safety of allogenic neural progenitor cell and paracrine factors of human mesenchymal stem cells for patients with moderate/severe Hypoxic-Ischemic Encephalopathy
Study of Safety and Biomarker Efficacy of TS23 in Healthy Volunteer
ThrombosisCerebral Ischemia3 moreThis study is designed to determine the safety, pharmacokinetics and pharmacodynamics of a single intravenous dose of TS23 in healthy adults.
Omega 3 and Ischemic Stroke; Fish Oil as an Option
Ischemic StrokeNeurological Injury8 moreIn this trial, The investigators are going to investigate the improvement of neurological functions and infarced area of the brain in ischemic stroke patients after ingestion of omega 3 products that have high concentrations of DHA and EPA in comparison to control group. The study will assess the improvement by computerized calculation of the size of the infarcted area before and after the intervention and neurological assessment tools. The researchers will follow the scientific and ethical regulations prevent any harmful effect on recruited subjects.
Physical Activity Immediately After Acute Cerebral Ischemia
Acute Ischemic StrokePhysical Activity1 moreStroke is the leading cause of adult disability in Europe and United States and the second leading cause of death worldwide and affects more than 10,000 Danes each year. Studies in a late and stationary phase after stroke have shown that physical rehabilitation is of great importance for survival and physical ability of these patients, however many studies show that patients lie or sit next to their bed under hospitalization for more than 88.5 % of the daily hours. Physical activity in stroke patients has never previously been measured immediately after debut of symptoms; furthermore there is no knowledge about the optimal dose of physical rehabilitation for these patients. Accelerometers, small measuring devices, are a relatively new way to measure physical activity precisely, and hence it is possible to obtain an objective measure of how active stroke patients are in the first week after admission. The accelerometers measure a variable voltage, depending on the range and intensity of movement. They can measure movement dependent of the placement of the accelerometer, for instance over the hip, arm or leg. Studies confirm their reliability, even in patients with abnormal gait, such as stroke patients. Another approach of studying the effects of physical activity and rehabilitation is through the examination of biomarkers. Studies have shown that biomarkers released during physical activity can inhibit biomarkers released after tissue injury in the brain, as seen after stroke. These brain biomarkers cause further damage and studies show that the higher the levels, the higher the damage. It is therefore obvious to examine whether physical activity rehabilitation can down regulate this destructive process in patients with stroke. Clarification of the optimal dose of physical activity in stroke patients immediately after debut of symptoms and examination of both the biochemical aspects of physical rehabilitation as well as the optimal dose of physical rehabilitation is of great importance for many patients, their relatives as well as of a great socioeconomic importance. The purpose of the project is to investigate which dose (15 vs. 2 x 30 minutes) of physical activity on a weight-bearing treadmill in the first 5 days after admission after an ischemic stroke, gives patients the best improvement in neurological dysfunction.
Targeted Temperature Management After In-Hospital Cardiac Arrest
Hypoxic Ischemic EncephalopathyThe purpose of this study is to determine whether targeted temperature management at 36.0˚C(TTM-36) in patients who remain unconscious after resuscitation from in-hospital cardiac arrest(IHCA) will reduce death and disability compared with fever control. For this purpose, the current pilot study will be undertaken to establish the feasibility, safety, and surrogate outcomes of hypoxic-ischemic brain injury in 60 patients who remain unconscious after resuscitation from IHCA. Eligible patients will be randomly assigned in a 2:1 ratio to either TTM-36(n=40) or conventional treatment group(n=20). Randomization will be performed with stratification according to initial rhythm (shockable vs. non-shockable).
Umbilical Cord Derived Mesenchymal Stem Cells Therapy in Hypoxic Ischemic Encephalopathy
Hypoxic Ischemic EncephalopathyThis study is to evaluate the safety and efficacy of Umbilical Cord Derived Mesenchymal Stem Cells transplantation in hypoxic ischemic encephalopathy.
Role of Citicoline in Treatment of Newborns With Hypoxic Ischemic Encephalopathy
Hypoxic-Ischemic EncephalopathyCiticoline, is a naturally occurring compound and an intermediate in the metabolism of phosphatidylcholine. Phosphatidylcholine is an important component of the phospholipids of the cell membranes. Citicoline is composed of two molecules: cyti¬dine and choline. Both these molecules enter the brain separately and by passing through the blood-brain barrier where they act as substrates for intracellular synthesis of CDP-choline . This drug has been widely used in adults who suffer from acute ischemic strokes for than 4 decades with good results and has been proved to have a very good safety profile as well. It has various therapeutic effects at several stages of the ischemic cascade in acute ischemic stroke. It stabilizes cell membranes by increasing phosphatidylcholine and sphingomyelin synthesis and by inhibiting the release of free fatty acids . By protecting membranes, citicoline inhibits glutamate release during ischemia. In an experimental model of ischemia in the rat, citicoline treatment decreased glutamate levels and stroke size. Citicoline favors the synthesis of nucleic acids, proteins, acetylcholine and other neurotransmitters, and decreases free radical formation Therefore, citicoline simultaneously inhibits different steps of the ischemic cascade protecting the injured tissue against early and delayed mechanisms responsible for ischemic brain injury. citicoline may facilitate recovery by enhancing synaptic outgrowth and increased neuroplasticity with decrease of neurologic deficits and improvement of behavioral performance. Considering these pharmacologic properties of citicoline, we are planning to see its effects in newborns who have HIE which causes a global acute ischemic changes in developing brain.
Whole Body Cooling Using Phase Changing Material
Hypoxic Ischemic EncephalopathyA prospective randomized control trial to examine safety and effectiveness of whole body cooling to a rectal temperature of 33.5 C using phase changing material in neonatal encephalopathy. Effectiveness will be defined by examining the stability of rectal temperature during cooling. Monitoring of vital signs, infection screen, blood counts, coagulation screen, liver and renal function tests, cranial US and MR imaging will be performed on recruited infants to evaluate safety of cooling. EEG will be performed on day 4 and hearing evaluation at discharge. Neurodevelopmental evaluation will be performed at 1 year of age.
Use of Melatonin for Neuroprotection in Asphyxiated Newborns
Hypoxic-Ischemic EncephalopathyCell Damage1 moreProtection of brain development is a major aim in the Neonatal Intensive Care Unit. Hypoxic-Ischemic Encephalopathy (HIE) occurs in 3-5 per 1000 births. Only 47% of neonates have normal outcomes. The neurodevelopmental consequences of brain injury for asphyxiated term infants include cerebral palsy, severe intellectual disabilities and also a number of minor behavioural and cognitive deficits. However, there are very few therapeutic strategies for the prevention or treatment of brain damage. The gold standard is hypothermic treatment but, according to the literature, melatonin potentially acts in synergy with hypothermia for neuroprotection and to improve neurologic outcomes. Melatonin appears to be a good candidate because of its different protective effects including reactive oxygen species scavenging, excitotoxic cascade blockade, modulation of neuroinflammatory pathways. The research study will evaluate the neuroprotective properties and the effects of Melatonin in association with therapeutic hypothermia for hypoxic ischemic encephalopathy.