View clinical trials related to Neuroprotection.
Filter by:Normoxia Hyperoxia (NBO) is a neuroprotective approach that can be implemented early. NBO is simple and non-invasive and can be used at home or in an ambulance to ensure the shortest possible time after cerebral ischemia occurs. The previous study by the investigators suggested that NBO therapy in the early stage of cerebral ischemia has a neuroprotective effect on ischemic brain injury. Although the neuroprotective effect of NBO has been demonstrated, the optimal duration of treatment for NBO to exert neuroprotective effect is still unclear. Therefore, further discussion of the duration of NBO treatment will contribute to the clinical application of NBO and provide a definite theoretical basis for the treatment of cerebral infarction.
In developed countries, the acceleration of the general population ageing has been widely described for decades, involving changes in public health policies. Among the health issues arising from this demographic change, the maintenance of cognitive function will be a major challenge in the next years, both in societal and economic terms. In this regard, some pharmacological and behavioural (e.g. physical activity, social involvement, intellectually demanding activities) preventive approaches have been evaluated to improve cognitive function with ageing. Among them, dietary interventions showed a potential interest to prevent cognitive decline during ageing. In this sense, there is a growing interest to find ecological solutions and to meet major societal challenge the use of microalgae as molecule of interest sources is a recent promising approach. Marine environments harbour a huge biological diversity of microalgae that represents a large source of almost untapped bioactive compounds. This biodiversity comprises 200,000 to 2 million species with about 35,000 which are described and 15,000 maintained in culture collections. Microalgae are able to produce bioactive molecules, such as pigments, fatty acids, peptides and sterols. Some of these compounds are unique and specifically found in the marine environment and they could be increasingly used as natural bioactive products for targeted applications. Fucoxanthin is one of the major carotenoid found in microalgae well known for its neuroprotective effect but to our knowledge no human studies were realized. Thus the objective is to evaluate, in healthy older adults, the effect of a 24-week period of daily supplementation of high and low BrainPhyt, doses on cognitive function parameters (Spatial Working Memory scores, Attention and vigilance, episodic memory, executive function), stress, mood, sleep quality and biomarkers.
The current endovascular treatment has increased the recanalization rate to more than 90%. Even so, the prognosis rate of stroke is still less than 50%. Our previous research confirmed that the neuroprotective effect of Normobaric Hyperoxia (NBO) from multiple perspectives. However, the clinical study on NBO was not satisfactory, which might be due to the absence of vascular recanalization therapy. Therefore, The investigators conducted this RCT study to further explore the Efficacy and safety of NBO combined with endovascular treatment in patients with acute ischemic stroke.
Assessment of safety and feasibility of using a nasopharyngeal cooling technique to provide targeted brain cooling during percutaneous implantation of aortic valves. Was it possible to obtain brain temperatures below 34° within a reasonable time interval (max of 1hr) without delaying the procedure of valve implantation.
Numerous neuroprotectants have been effective when given prior to ischemic stroke in animals, yet they have all have failed when given after ischemic stroke in humans. A novel approach to ischemic neuroprotection is needed. Many patients who undergo cardiac, vascular, and neurosurgical procedures develop ischemic central nervous system (CNS) complications. These high risk surgeries present a unique opportunity to administer neuroprotectant medication prior to the injury, greatly increasing the likelihood that it will have a positive impact on outcomes. Patients undergoing descending thoracic aortic (DTA) and thoracoabdominal aortic (TAA) surgery have a particularly high rate of both brain and spine ischemia. In addition, these surgeries require placement of a lumbar cerebrospinal fluid (CSF) drain, allowing access to CSF in order to monitor markers of injury and penetration of medication into the CNS. We are performing a pilot dose finding trial of prophylactic darbepoetin alfa, a long-acting erythropoiesis medication with putative neuroprotectant properties, in patients undergoing DTA and TAA surgery.