View clinical trials related to Intracranial Hemorrhages.
Filter by:A Prospective Randomized Open-Label Blinded Endpoint (PROBE) Pilot Trial of restarting antiplatelet therapy at 1 week versus 3 weeks after traumatic intracranial hemorrhage with a primary composite endpoint of major bleeding and vascular occlusive events.
Randomized pilot trial of restarting DOACs at 1 week versus 4 weeks after traumatic intracranial hemorrhage
Objective: Mid-trimester preterm premature rupture of membranes (PPROM), defined as rupture of fetal mem-branes prior to 28 weeks' gestation (WG), complicates approximately 0.4-0.7% of all pregnancies and associated with very high neonatal mortality and morbidity. Antibiotics have limited success to prevent bacteremia, chorioamnionitis and fetal inflammation because of reduced placental transport. The repetitive amnioinfusion doesn't work because of immediately fluid lost after the intervention). The continuous amnioinfusion with Amnion Flush Solution through the perinatal port system in patients with classic PPROM prolonged the PPROM-to-delivery interval to 49 days in average by flush out of bacteria and inflammatory components from the amniotic cavity. Aim: This multicenter trial tests the effect of continuous amnioinfusion on the neonatal survival without major morbidities, like severe bronchopulmonary dysplasia, intraventricular hemorrhage, cystic periventricular leukomalacia and necrotizing enterocolitis. Design: randomized multicenter controlled trial; two-arm parallel design. Control group: 34 PPROM patients between 22/0 (20/0) -26/0 WG treating with antibiotics and corticosteroids in according to DGGG guide-lines. In interventional group (n=34) the standard PPROM therapy will be complemented by "Amnion -Flush" method with the amnioinfusion of artificial amniotic fluid (Amnion Flush Solution, Serumwerk AG, Germany, 2400 ml/d). Subjects: Patients with classic PPROM between 22/0-26/0 WG. Expected outcome:The investigators expect significant reduction of neonatal mortality and morbidity in the "Amnion-Flush" group.
Primary Objective: To identify the optimal interval to restart oral anticoagulation after traumatic intracranial hemorrhage that will minimize thrombotic events and major bleeding by performing a response adaptive randomized (RAR) PROBE clinical trial of restarting in anticoagulant-associated traumatic intracranial hemorrhage patients, comparing restart at 1 week to restart at 2 weeks or at 4 weeks, with a primary composite outcome of major thrombotic events and bleeding. Primary Outcome: 60-day composite of thromboembolic events, defined as DVT, pulmonary emboli, myocardial infarctions, ischemic strokes and systemic emboli, and bleeding events defined as non-CNS major bleeding events (modified BARC3 or above) and worsening index tICrH or new intracranial hemorrhage (ICrH). Secondary objectives of this trial include: 1. To use the Trauma Quality Improvement Program (TQIP) of the American College of Surgeons - Committee on Trauma (ACS-COT), a well-established and highly respected trauma center oversight mechanism, to translate findings of the trial into practice in a closed loop. 2. To establish a relationship between time of restarting and overall secondary events, i.e. a dose response, that favors early restarting (1 week is better than 2 weeks and 2 weeks is better than 4 weeks. 3. To explore patient centered utility weighting of thrombotic versus bleeding composite endpoint components by: A) 60-day Disability Rating Scale (DRS) 24,25 and modified Rankin Scale (mRS)26; B) Trial patient-reported standard gamble utilities including by race, gender and ethnicity. 4. To explore the composite without DVT in the thrombotic component
Traumatic acute subdural haematomas (ASDHs) are common pathological entity in neurosurgical practice . The frequency of (ASDHs) has been proposed as approximately 10-20% of patients admitted with traumatic brain injury(TBI) .Approximately two -thirds of patient with TBI undergoing emergency cranial surgery have an acute subdural haematoma evacuated . Two common causes of traumatic ASDH: accumulation of blood around parenchymal laceration , usually frontal and temporal lobes and there is usually severe underlying brain injury .The second cause is surface or bridging vessel torn from cerebral acceleration - deceleration during violent head motion .
The purpose of this study is to determine whether treatment with remote ischemic conditioning is of sufficient promise to improve outcome before conducting a larger clinical trial to examine its effectiveness as a treatment for intracerebral hemorrhage.
This pilot study aims to investigate whether intravenous immunoglobulin is safe and effective in alleviating perihematomal edema and neurologic deficits in patients with intracranial hemorrhage.
Intracranial hemorrhage despite being rare, several chronic ITP patients experience moderate to severe behavioral problems including learning difficulties, memory affection .These changes could be due to the presence of minute capillary dysfunction
Traumatic brain injury (TBI) is a devastating disease with high morbidity and mortality. Although not fully proved, it is commonly accepted that the morbidity and mortality and proportional to the extent of intracranial bleeds (i.e. - larger hemorrhages cause more injury than smaller ones). Aspirin is a commonly used antiaggregate drug that interferes with the clotting system. The antiaggregate effect may be neutralized by administration of platelets. Thus, potentially, patients receiving Aspirin and undergoing TBI, are at a higher risk for increasing an intracranial bleed. In this prospective study, the investigators randomize patients receiving aspirin that have a traumatic intracranial bleed to two groups, one - that will receive platelets, and the other that will not receive platelets. The primary end point of the study is to evaluate the effect of platelet administration of the enlargement of traumatic intracranial bleeds, and try and evaluate any clinical outcome differences between the two groups.