View clinical trials related to Stroke.
Filter by:Normal saline (0.9% sodium chloride), a classical crystalloid solution, is widely used to maintain fluid balance, volume resuscitation and dilute drugs during clinical practice. However, the chloride concentration of normal saline (154mmol/L) is much higher than human plasma, and a large amount of infusion may lead to iatrogenic hyperchloremia in ICU patients. In contrast, the concentrations of Multiple electrolytes II is more similar to those of plasma and is considered to be a better fluid choice than normal saline.
The purpose of this research is to study the improvements from walking practice that is vigorous enough to keep participants' heart rate over a certain target level during their physical therapy sessions. The investigators want to know about improvements in participants' walking function and mental health after 20 interventions. The study also aims to evaluate if participants' mental health, social support, and health literacy affect their attendance at physical therapy sessions.
Up to 50% of acute ischemic stroke patients with large vessel occlusion failed to achieve functional independence even after successful reperfusion therapy, a phenomenon that is referred to as "futile recanalization". The mechanism of futile recanalization is complex, and some studies have shown that it may be related to factors such as tissue no reflow, reocclusion, poor status of collateral circulation, hemorrhagic transformation, impaired cerebrovascular autonomic regulation, and low perfusion volume. Several studies suggested that maximizing the improvement of cerebral reperfusion is still the primary goal of acute large vessel occlusive stroke. Structural and functional alterations in the microvascular system may be a major obstacle to reperfusion. In animal models of cerebral ischemia, downstream microvascular thrombosis may occur in the early stage of cerebral ischemia and before vascular recanalization, which is the main factor leading to incomplete reperfusion and affecting the efficacy of endovascular thrombectomy. Mechanical thrombectomy mainly addressed the occluded large arteries, and does not consider the distal arteries. However, the recanalization of occluded large arteries does not necessarily translate into successful reperfusion of the ischemic tissue supplied by the distal capillaries. Even with complete recanalization, impaired microcirculatory reperfusion may lead to poor clinical outcomes. Therefore, we speculate that at the end of endovascular thrombectomy, microthrombi remain present in the microcirculation of brain tissue in patients with complete or near-complete cerebral angiography, and that microthrombi is more likely to be dissolved than thrombus more proximal to the heart. Therefore, intra-arterial administration of pharmaceutical, such as tirofiban, may be the only possible option to ensure complete reperfusion of ischemic tissue. Tirofiban is a platelet glycoprotein IIb/IIIa receptor antagonist, which has been widely used in acute coronary syndrome, and its role in acute ischemic stroke has attracted more and more attention from stroke experts. Previous studies have suggested that tirofiban can further increase the incidence of successful recanalization, while reducing the reocclusion rate. Whether early administration of intraarterial and intravenous tirofiban can further improve the clinical outcomes of patients with large vessel occlusive stroke after successful mechanical thrombectomy remains unclear.
Cardiac Intensive Care Units (CICUs) provide care for a diverse patient population. Understanding the clinical characteristics, analysis of treatment modalities, and prognosis of patients hospitalized in the CICU are important to improve cardiovascular care. The purpose of this registry is to determine the demographics, clinical, treatment, and prognosis of patients hospitalized in the Polish CICUs. Data from this multicenter, prospective observational study will provide more robust data to facilitate quantitative characterization of cardiac care in contemporary Polish CICUs and enable the development of infrastructure for clinical trials in CICUs.
Strokes is amajor cause of death and disabilities in different countried
Community-based exercise programs have demonstrated potential for implementation in older adults; however, it remains imperative to ascertain whether this strategy will yield comparable benefit in stroke patients with dysphagia.Participants were randomly assigned to either the intervention group or the control group. Patients in the intervention group received swallowing function training in community public spaces for 5 days every week for four-week period (60 minutes per day). Patients in the control group received no intervention. Penetration-Aspiration Scale and Standardized Swallowing Assessment (SSA), depressive symptoms (Geriatric Depression Scale-15), and meal duration were assessed before and after all the treatment.
The purpose of this research, which has been determined as non-significant risk by the central IRB overseeing the study, is to obtain information to help further develop a machine (a medical device) to measure the pressure around the brain from the outside (this pressure is called intracranial pressure or ICP). Monitoring and managing ICP is an important part of care for patients with conditions such as Traumatic Brain Injury (TBI). However, the current way of measuring ICP requires surgery to drill a hole into the skull, and therefore can introduce additional risks such as infections and pain. Recent research has shown it may be possible to measure ICP without needing surgery. This technology is in development, but large amounts of data is required to build these new devices. Through collecting a large database of information from patients who have both the routine surgical device and the research device applied to their head, the research team will work to develop and test an effective and potentially safer way of monitoring patient ICP.
This trial aims to demonstrate that the Neuralert Monitoring System will detect strokes before they would be identified by current standard of care. Each patient will be monitored for up to five days, depending on device connectivity or battery duration. Each monitoring session will consist of wearing a Neuralert device on each arm. For this pilot trial, we are interested in learning about Wi-Fi connectivity, successful data transmission, clinical usability, and tolerability.
The efficacy and safety of methylprednisolone in acute ischemic stroke patients with large infarct cores (ASPECTS score < 6) due to anterior circulation large vessel occlusion have not been clearly established. This is a multi-center, randomized, double-blind, placebo-controlled trial to investigate early combination therapy with methylprednisolone for reperfusion in acute large core infarction.
Title: The Effect of Vibrating Splint on Hand Function After Stroke Summary: This study aims to investigate the effectiveness of a vibrating splint in improving hand function and reducing spasticity among individuals who have experienced a stroke. Stroke is a major global health issue, often resulting in long-term disability and impairments in the upper limbs. Spasticity, a common complication of stroke, causes stiffness and involuntary muscle contractions, leading to difficulties in performing daily activities. Current treatment options for spasticity include medications and physical therapy techniques. However, these approaches may have limitations in terms of effectiveness and duration of benefits. Therefore, non-pharmacological interventions are being explored to enhance rehabilitation outcomes. The hypothesis of this study is that the use of a vibrating splint, which applies mechanical vibrations to the hand muscles, will decrease spasticity and improve hand functionality in individuals with chronic stroke. The vibrations from the splint stimulate the sensory receptors in the skin and muscles, leading to muscle relaxation and improved motor control. The study will be conducted as a pilot randomized controlled trial, involving participants who meet specific eligibility criteria. The participants will be divided into three arms, with each arm receiving a different intervention. Outcome measures, including assessments of spasticity, range of motion, pain levels, and functional abilities, will be collected before and after the intervention period. The findings from this study will contribute to the understanding of non-pharmacological approaches in managing spasticity and improving hand function after stroke. If the vibrating splint proves to be effective, it could offer a safe and accessible option for stroke survivors to enhance their recovery and regain independence in daily activities. This research is essential as it addresses the need for more effective interventions for spasticity management and hand rehabilitation after stroke. By providing valuable insights into the potential benefits of the vibrating splint, this study has the potential to improve the quality of life for individuals who have experienced a stroke and empower them to regain control over their hand movements.