View clinical trials related to Hemorrhage.
Filter by:The investigators seek to demonstrate that the combined use of cilostazol and nimodipine will significantly decrease the rate of delayed cerebral infarction and cerebral vasospasm after cerebrovascular intervention when compared to nimodipine alone.
It is unknown whether this evolved strategy (Pre-Hospital Zone I P-REBOA) is feasible and with an acceptable safety profile. This study will address this question, therefore informing the design of a prospective multicentre exploratory cohort study followed by a pilot/feasibility multicenter RCT (IDEAL 2B). The IDEAL Framework is an internationally recognised standard, that describes the stages through which interventional therapy innovation normally passes, the characteristics of each stage and the study design types recommended for each
Intracerebral hemorrhage (ICH) is one of the most devastating nontraumatic cerebral vascular diseases. Its exacerbation is often related to a mass effect because of hematoma formation and edema in the perihematoma, which plays a key role in disease deterioration. Perihematoma edema is an important contributor to brain injuries secondary to ICH and one of the risk factors that leads to disease deterioration and high mortality. Brain edema following ICH was believed to be induced by the breakdown of the blood-brain barrier and ischemia and hypoxia of the perihematoma. Normobaric oxygen (NBO) therapy is a treatment that delivers high-flow oxygen at normobaric pressure through a facemask to supplement the oxygen supply,which maintain the oxygen concentration of typically 40-100% ,can increase the arterial oxygen content, and alleviate tissue hypoxia. NBO therapy has been shown to provide neuroprotection against ischemic stroke in an experimental study and a clinical trial. To the best of our knowledge, the potential of NBO therapy for neuroprotection against human hemorrhagic stroke has not been investigated. There are two studies about NBO interventions in the rat model of intracerebral hemorrhage.The one showed NBO did not worsen hemorrhage severity or brain edema. There were no significant differences in hemorrhagic blood volumes or brain water content. NBO did not affect any of the neurological outcome tests in the primary or secondary studies. Another one showed NBO groups improved NSSs,decreased contents of brain water, HIF-1α and VEGF, and fewer apoptotic cells in the perihematoma at 72 h after ICH compared with the ICH control group. These results suggest that NBO therapy with oxygen delivered at 90% conferred best neuroprotection to ICH rats, potentially through amelioration of brain edema by suppressing HIF-1α and VEGF expression in the perihematoma. But there is no clinical study on the safety and efficacy of NBO in patients with intracerebral hemorrhage.NBO has the advantages of simple operation, non-invasiveness and early application, which makes it have great application prospects in the treatment of 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.
Intracranial hemorrhage is is a rare, but critical incident in patients with acute lung failure undergoing ECMO therapy. Predictors of intracranial hemorrhage are yet to be defined to identify patients at (high) risk. This retrospective analysis investigates the predictive value and validity of parameters and specific risk factors of critically ill ARDS patients treated with ECMO.
Subarachnoid hemorrhage by aneurysmal rupture is a serious condition associated with a high mortality rate. Among the complications presented by these patients, vasospasm is one of the main causes of secondary aggravation, in particular the appearance of delayed neurological deficits following the induced cerebral ischemia. Classically occurring between the 4th and 12th day, with a peak on D7, its prevention is currently often ineffective. In recent years, many studies have shown that sodium lactate could be an interesting product for neuroprotection. In addition to an anti-osmotic effect that has been demonstrated by our team in the context of post-traumatic intracranial hypertension, a metabolic action has also been observed in periods of metabolic attacks induced by brain attacks. Recently, a vasodilatory action of sodium lactate has been observed from an experimental and clinical point of view. The purpose of this work is to observe the effect of sodium lactate, compared to placebo, on cerebral hemodynamics measured by perfusion CT (Mean Transit Time MTT) in a population of patients with hemorrhage under the arachnoid. This work is the preliminary work of a study that will investigate the potential preventive protective effect of sodium lactate on the incidence of vasospasm.
This study aims to investigates the role of gestational age on the prevalence of coagulation factors and components of the complement system in preterm- (≤32+0 weeks) and term neonates (≥37+0 weeks) and their role for the development of brain hemorrhage.
We are examining how morphine (a commonly used pain medication) will alter responses to simulated blood loss in humans. To simulate blood loss in our research laboratory, participants will complete a test with their lower body in a custom-designed vacuum chamber for a brief period of time.
The purpose of this project is to test how fentanyl, an analgesic currently employed in the pre-hospital setting by the US Army, alters the capacity to tolerate a hemorrhagic insult in humans.
Aneurysmal subarachnoid hemorrhage (aSAH) tended to lead to a sudden increase in intracerebral pressure (ICP), which can cause decreased cerebral perfusion and transient global cerebral ischemia. Early clipping and coiling of aneurysms and surgical evacuation of intracerebral hematoma were recommended for aSAH patients. However, the high ICP made it difficult to separate the subarachnoid space during the operation. Effective reduction of ICP was the key to the succession of the operation. But there is a lack of consensus on the management of raised ICP in aSAH. Mannitol is widely used to reduce ICP in patients with cerebral edema. The potential mechanism including decreasing the viscosity of the blood improving regional cerebral microvascular flow and oxygenation and increasing intravascular volume due to increased plasma osmolality. The magnitude of the pressure reduction was correlated with the intact intracranial automatic adjustment function. However, the hypochloremic metabolic alkalosis, hypernatremia, hypokalemia and renal failure associated with mannitol overdose must be considered and the effective dose and the duration of its administration were still unknown. The aims of this study were to determine the most appropriate mannitol dose to provide adequate brain relaxation in aSAH patients with the fewest adverse effects.