View clinical trials related to Acute Stroke.
Filter by:The purpose of this study is to demonstrate the feasibility of performing remote limb ischemic conditioning (RLIC) using the Doctormate device, a special blood pressure device used to perform RLIC, on patients with acute ischemic stroke due to large vessel occlusion being transported to a thrombectomy capable center by the helicopter.
This study was planned to evaluate the effects of somatosensory and vestibular rehabilitation additional conventional therapy on balance in patients with acute stroke.
The objective of the study is to estimate the incidence and recovery of aphasia, dysarthria and dysphagia in an acute setting (first week) with the NIHSS sub-item scores for language and speech and a dysphagia screening. Furthermore, we will evaluate the severity of aphasia, dysarthria and dysphagia in an acute setting (first few days) with standardized measurements (ScreeLing, BNT, NSVO-Z, perceptual assessment, MASA/FOIS). To evaluate the effect of early IVT/EVT in patients with ischemic stroke on functional outcomes for language and speech via the NIHSS scale.
This study aims to identify factors influencing the time span and success of reperfusion after a mechanical thrombectomy in the acute phase of cerebral infarction, and in particular the effect of intra-venous thrombolysis.
Management of acutely elevated blood pressure during the early phase of ischemic stroke remains controversial. In patients treated with IV-tPA, the risk of ICH is closely related to the BP levels. However, intensive reduction of BP carries a theoretical risk of clinical deterioration by inducing cerebral hypoperfusion. Assessment of cerebral perfusion before and after BP reduction is one of the most scientific method to evaluate the safety (and potential benefits) of BP management in the acute phase of stroke. This project will impact practices and delivery of BP management during the acute phase of ischemic stroke. The findings would aid in designing phase 3 clinical trials will track clinical indicators, including the impact on functional outcomes as well as quality-of-life and cost-effectiveness.
Background and Rationale: Cerebrovascular disease is always ranked at the top causes of death and most of hospitalized acute stroke patients have ischemic stroke [1]. Although the mortality rate of acute ischemic stroke is less than that of hemorrhagic stroke [1], it still results in patient disabilities and complications that often lead to significant costs to individuals, families, and society. Traditional treatment for acute ischemic stroke includes thrombolytic therapy by injecting tissue plasminogen activator (t-PA) within three hours after onset of symptoms [2], antiplatelets and/or anticoagulant agents administered within the first 48 hours. Clinically, the narrow time window of thrombolytic therapy and coexisting contraindications limit the use of t-PA [2]. Thus, searching for an effective supplemental treatment for acute ischemic stroke is imperative. Hyperbaric oxygen therapy (HBOT) is valuable in treating acute carbon monoxide poisoning [3,4], air or gas embolism [5], facilitating wound healing [6] and has been used as an adjuvant treatment for many neurological disorders that need further study as concussion [7] , stroke [8,9], cerebral palsy [ 10],traumatic brain injury [ 11], cerebral air embolism [12], Autism [13] and multiple sclerosis [14]. Indications of hyperbaric oxygen therapy recommended by undersea and hyperbaric medical society (UHMS) [15] are 1.air or gas embolism [5], 2.carbon monoxide poisoning [3,4], 3.clostridial myositis and myonecrosis [16], 4.crush injury, compartment syndrome and other acute traumatic ischemias [17], 5.decompression sickness [18], 6.arterial insufficiencies [19], 7.severe anemia [20], 8.intracranial abscess [21], 9.necrotizing soft tissue infections [22],10. refractory osteomyelitis [23], 11.delayed radiation injury [24], 12.compromised grafts and flaps [25], 13.acute thermal burn injury [26] and 14.idiopathic sudden sensorineural hearing loss [27]. Known mechanisms of HBOT-induced neuroprotection include enhancing neuronal viability via increased tissue oxygen delivery to the area of diminished blood flow, reducing brain edema, and improving metabolism after ischemia [28,29]. Furthermore, a recent study performed on a rat suggested that upregulation of the expression of glial derived neurotrophic factor (GDNF) and nerve growth factor (NGF) might underlie the effect of HBOT [30]. The effectiveness of use of Hyperbaric oxygen therapy in human ischemic stroke is still controversial that need further evaluation.
Our aims is to evaluate the equality in efficacy and safety between direct aspiration technique and stent retriever thrombectomy procedure in anterior circulation strokes in a multicenter, prospective study.
Gait recovery is one of the main goals of post-stroke rehabilitation where robotic-assisted practice has shown positive outcomes. However, literature lacks of clinical studies on exoskeleton-supported gait rehabilitation. Recently, a wearable exoskeleton (Ekso™, EksoBionics, USA) has been commercialized for re-enabling patients to stand and walk, involving them directly in steps trigger through body weight balance. The main aim of this study is to assess the clinical and neuromuscular effects of exoskeleton-based gait rehabilitation in sub-acute and chronic stroke patients, compared to patients with similar characteristics who will conduct a traditional over-ground gait training. In this multicentric RCT, 162 stroke patients will be enrolled and randomly assigned to the Experimental Group (EG) or to the Control Group (CG). Patients will conduct at least 12 one-hour-sessions (about 3 times/ week) of Ekso™ (EG) or traditional over-ground (CG) gait rehabilitation. Clinical evaluations (lower limb Modified Ashworth Scale- MAS; Motricity Index - MI; Trunk Control Test - TCT; Functional Ambulation Classification - FAC; 10-meter walking test - 10mwt; 6-minute walking test - 6mwt; Walking Handicap Scale - WHS; Time Up and Go - TUG) will be administered to patients at the beginning (T1) and at the end (T2) of the training period. The primary outcome is the distance performed during the 6mwt. A follow up study at 1 month (T3) and at 3 months (T4) after T2 will be conducted.
A monocentric, non-randomized, prospective study in which each patient is his/her own control. The study investigates 2 methods of blood pressure measurement, within the first 24 hours after reperfusion, i) Continuous measurement of blood pressure with the Clearsight device (Edwards) and ii) intermittent blood pressure measurements with cuff.
The Stroke Recovery Initiative is a nation-wide participant recruitment registry that connects people who have had a stroke with researchers who are working to develop new approaches to improve recovery after stroke.