View clinical trials related to Brain Ischemia.
Filter by:Hundreds of babies in the world are being treated with brain cooling to prevent brain injury after they lose oxygen at birth. This study will use the newly developed information from the magnet resonance image to determine the actual temperature of the brain. This will enable us to determine if the brain is being uniformly cooled and if techniques that provide cooling need to be changed to improve the injury prevention from cooling.
To develop adequate blood pressure (BP) lowering strategy after subacute ischemic stroke patients with symptomatic severe intracranial atherosclerosis. Primary hypothesis of this study is that aggressive BP control (lowering systolic BP between 110mmHg and 120mmHg) will not increase the ischemic lesion volumes in hemisphere compared to modest BP lowering (lowering systolic BP between 130mmHg and 140mmHg) in the patients with symptomatic severe intracranial atherosclerosis.
The aim of this study is to determine the efficacy of therapeutic hypothermia following perinatal asphyxia on neurological and neuropsychological outcomes and also to assess academic attainment and any additional health, societal or educational costs associated with changes in outcome as a result of the intervention. This study will determine whether the apparent initial benefits of cooling are maintained in the longer term. Perinatal asphyxia (a lack of oxygen occurring around the time of birth) may have long term consequences on brain functioning, which may be altered by treatment with hypothermia (cooling). Currently, there is no information on the effect of cooling on outcome beyond 18 months of age. We intend to assess at 6 - 7 years of age, the children that participated in the TOBY trial of whole body cooling following perinatal asphyxia and compare between the children that had received the cooling treatment soon after birth and those that were not treated with cooling, the number that survived with an intelligence quotient (IQ) greater than 84, the presence and severity of disabilities, educational attainment and the economic impact on families and service providers. If possible, children will be assessed in their school, with the option of alternative venues such as home or clinic if required. During the assessment a paediatrician will conduct a neurological examination. A psychologist will administer psychometric tests to evaluate cognitive, behavioural and motor development. Questionnaires completed by parents and teachers will complete the data collection. Economic factors will also be assessed in the parent questionnaire. Each child will have contact with the assessors during one school day with appropriate breaks. Assessments will take place over a period of 3 years.
The purpose of this study is to determine whether nerve growth factor (cerebrolysin®) therapy will improve the psychomotor outcome in infants with moderate and severe hypoxic ischemic encephalopathy after hospital discharge.
The aim of the study is to determine if 2-week repetitive transcranial magnetic stimulation at the subacute phase of stroke (between day 7 and day 14) improves significantly arm motility at 3 months with remaining effect at one year, without significant adverse effect.
The purpose of this study is to determine whether the plasticity of autologous intrathecal hematopoietic cells would improve the neurologic evolution of the pediatric patients with hypoxic/ischemic brain injury.
Through this study, the investigators are to prove that Cilostazol effectively prevent cardiovascular events in ischemic stroke patients with high risk of cerebral hemorrhage, along with no significant increase in the risk of occurrence of hemorrhagic side effects. The primary hypothesis of this study is; Cilostazol alone or with probucol will reduce the risk of cerebral hemorrhage without increase of cardiovascular events compared to aspirin in the ischemic stroke patients with symptomatic or asymptomatic old cerebral hemorrhage. This study will prove the superiority of cilostazol on the prevention of cerebral hemorrhagic events without increasing the cardiovascular events against aspirin and the superiority of probucol on the prevention of overall cardiovascular events.
The investigators will determine if the MRI can be used to determine the temperature inside the brain. This is an important piece of information now that cooling the brain is being used to decrease brain damage in infants who had a decrease in brain oxygen or flow around the time of birth.
Hypothesis: Mild hypothermia using non-invasive temperature management system in a stroke unit is safe and feasible in spontaneously breathing, alteplase-thrombolyzed patients with acute ischemic stroke.
In 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.