View clinical trials related to Cerebral Hemorrhage.
Filter by:The investigators conduct this study to investigate whether oral administration of Dimethyl Fumarate, a Food and Drug Administration-approved drug for multiple sclerosis, is safe and effective in alleviating PHE and neurologic deficits in patients with ICH.
Severe strokes, including large artery acute ischemic stroke and intracerebral hemorrhage, continue to be the leading cause of death and disability in adults in the U.S. Due to concerns for a poor long-term quality of life, withdrawal of mechanical ventilation and supportive medical care with transition to comfort care is the most common cause of death in severe strokes, but occurs at a highly variable rate. Decision aids (DAs) are shared decision-making tools which have been successfully implemented and validated for many other diseases to assist difficult decision making. The investigators have developed a pilot DA for goals-of-care decisions for surrogates of severe, critically ill stroke patients. This was developed through qualitative research using semi-structured interviews in surrogate decision makers of traumatic brain injury patients and physicians, and adapted to severe strokes. The investigators now propose to pilot-test a DA for surrogates of critically ill severe stroke patients in a feasibility trial.
Non-traumatic intracerebral hemorrhage (ICH) affects approximately 100,000 Americans yearly. Up to 30-50% of ICH is fatal, and those patients who survive are often left with significant neurologic dysfunction. In the past, medical management (e.g., control of hypertension, reversal of antiplatelet or anticoagulants) had been the most effective treatment for these patients, given the morbidity and mortality associated with open surgical treatment for evacuation of ICH. However, recent trials have demonstrated that minimally invasive stereotactic neurosurgical procedures to evacuate ICH are safe and result in improved outcomes for these patients. Initial attempts to evaluate the efficacy of surgical evacuation of ICH found no significant difference between medical management and standard craniotomy for surgical evacuation. Indeed, open surgery was often discouraged for these patients due to the significant morbidity and mortality associated with the surgical procedure itself. However, research has demonstrated that minimally invasive, image guided stereotactic frame-based and frameless methods are effective and safe for the placement of catheters for clot aspiration and fibrinolytic therapy of ICH in the basal ganglia and other deep seated regions. Larger randomized controlled trials have demonstrated that these minimally invasive approaches also offer clinical benefit for these patients.
Brain bleed in premature infants damages the brain and survivors suffer from cerebral palsy (weakness in the extremities), cognitive deficits, and neurobehavioral disorders. In this clinical trial, investigators will test whether thyroxine (hormone from thyroid gland) treatment in premature infants with moderate-to-large brain bleeds show recovery in the brain structure on MRI evaluation at the time of discharge (44+/-1 weeks) and neurodevelopmental improvement at 2 years of age.
Intracerebral hemorrhage (ICH) is responsible for 10-15% of primary strokes. ICH is a dynamic process with three phases: initial hemorrhage, followed by hematoma expansion and perihematoma edema formation. Hematoma volume is correlated with disease progression and outcome. Contemporary evidence proposes that elevated blood pressure is associated with hematoma expansion while more than 90% of patients with ICH present with acute hypertension. Uncontrolled blood pressure is a leading cause of ICH and it seems also to be a factor of poorer outcomes. Therefore, rapid reduction and control of blood pressure might ease disease progression and improve the outcome. Clevidipine (Cleviprex®), an ultrashort-acting dihydropyridine calcium channel antagonist, with its rapid onset and short duration might be more effective than conventional antihypertensives to achieve rapid blood pressure control in patients with acute ICH.
This is single-arm, open-label, safety and feasibility pilot study of ɛ-aminocaproic acid in ICH patients. Consecutive ICH volume with hematoma volume less than 30 mL by ABC/2 method presenting within 3 hours of symptom onset, meeting all inclusion criteria, and without exclusions will be consented and enrolled. Subjects will receive 5 grams of intravenous ɛ-aminocaproic acid over 1 hour, followed by the same at 1 mg/hour for 23 hours. Comupted tomography (CT) head will be done at 24 hours in order to follow hematoma size. Electrocardiogram, lower extremity venous Doppler and NIHSS will also be done at 24 hours. The patient will be followed in the clinic 30-90 days post discharge for functional status.
This pilot study will examine the safety and the clinical outcomes after minimally invasive surgery (using a parafascicular technique guided by diffusion-tensor imaging) for intracerebral hemorrhage in patients selected according to evidence-based criteria. The investigators will compare 30 day and 90 day outcomes of patients who have surgery to that predicted by previously reported models for recovery after ICH, and will also describe any surgical complications related to the procedure. The investigators hypothesize that this technique will have the same mortality rate and function outcome, if not better, when compared to the outcomes predicted by previous models.
This study looks at advanced airway management in critically ill or injured patients treated by physician manned emergency medical services, comparing early (on-scene) intubation to late (emergency department) intubation.
Approximately 12% of strokes in the United States are hemorrhagic.1 Hemorrhagic stroke can lead to multiple complications including fever that is not infectious. Identifying the cause of fever can help physicians choose the best care for the patient to try and prevent further damage to the already injured brain. Bacterial infection is one possible cause of fever in the stroke patient; however an incorrect diagnosis of infection can lead to unnecessary antibiotic use. Better screening tools for infection are being developed to help fight the problem of antibiotic resistance and unnecessary antibiotic use. Unnecessary use of antibiotics in patients increases the risk of adverse events and overall healthcare costs. Procalcitonin (PCT) is one such screening tool which has been used previously to help tell apart bacterial and nonbacterial causes of infection in other disease states; however, PCT has not been studied in hemorrhagic stroke patients. The purpose of this study is to understand the progress of PCT in hemorrhagic stroke patients in order to see whether PCT can be a useful marker for infection in these patients.
This is a pilot study to test feasibility of collection, preparation and infusion of a baby's own (autologous) umbilical cord blood in the first 14 days after birth if the baby is born premature <35 weeks of gestation.