View clinical trials related to Ischemic Stroke.
Filter by:Stroke is a leading cause of morbidity and mortality.Acute ischemia causes irreversible damage to neurons and glial cells, leading to functional deficits and chronic sequelae with variable degrees of spontaneous recovery of function. Stem cells have been shown to enhance recovery through multiple immunomodulatory effects, neoangiogenesis and neurogenesis. We conducted a prospective randomised end observer blinded study to evaluate primarily the safety of intraarterial autologous stem cells delivered to ipsilateral middle cerebral artery in acute and subacute stroke patients (0-15 days post ictus).Secondarily we aimed to evaluate the outcome on the basis of clinical evaluation and follow up imaging
The Ideal Sedation for Stroke Thrombectomy (ISST) registry will answer the key questions whether sedation with intubation and paralytics is feasible and whether it delays the time to recanalization in comparison with conscious sedation alone. As a pilot registry, it is anticipated to enroll 40 acute stroke patients requiring mechanical thrombectomy over 12-18 months. Following enrollment, data will be collected prospectively from medical records and from patients' visits.
The study was designed to evaluate the impact of a novel kinematic biofeedback system - SWORD - in the motor performance of patients after stroke. The SWORD system combines inertial motion trackers and a mobile app, allowing digitization of patient motion and providing real-time audiovisual biofeedback. The investigators hypothesize that the biofeedback feedback provided by the SWORD system improves patient performance, defined as an increase in the number of correct movements. The design of the study is a cross-over randomized clinical trial. Patients will be randomized into two groups. Both will perform two separate sessions consisting of one exercise - shoulder flexion with elbow flexion at 90 degrees - for 4 minutes in both experimental settings: with and without biofeedback. Group 1 will perform the exercise with biofeedback first and without biofeedback after, with an interval >24h. Group 2 will perform the exercise in the opposite order. The SWORD system will be used to record movement data in both sessions, but the feedback was only active in one of them.
BOSS-Trial I is a phase 2 clinical trial with the following objectives; 1. to prove the feasibility of a Bluetooth-equipped sphygmomanometer system in real-world clinical practice and wireless connection to the main server; 2. to prove the feasibility of the BP management strategy, including the pre-specified BP range, BP management algorithm, and behavioral; and 3. to gather information for the phase 3 trial including BP variability indices and their potentials as a treatment guidance.
A prospective, multi-center, randomized, sham-controlled, blinded study combining active Nexstim NBS-guided 1Hz rTMS or sham-rTMS targeting the healthy hemisphere with standardized task oriented rehabilitation will be conducted in patients with post-stroke motor impairment of the upper limb. The therapy will be provided for 6 weeks and primary outcome assessed 6 months later.
The primary objective of this study is to determine the efficacy of a single intravenous infusion of unrelated donor umbilical cord blood (UCB) for improving functional outcomes in patients with ischemic stroke. Eligible subjects will receive an intravenous infusion of UCB or placebo 3-10 days following stroke. Subjects will not receive immunosuppressive or myeloablative medications prior to the infusion. Subjects will be followed for one year post infusion for safety and efficacy. Assessments will examine safety and tolerability of the infusion, change in neurological symptoms, change in quality of life, and emotional and cognitive status. Assessments will occur at 24 hours post infusion, and at 30, 90, 180 and 365 days post infusion.
The goals of the project are to evaluate a noninvasive monitor of brain metabolism and blood flow in critically ill humans. If validated, such a reliable noninvasive brain blood flow and metabolism monitor, by allowing physiologic and pharmacologic decisions based on real-time brain physiology, potentially will become an important tool for clinicians in their efforts to prevent additional brain tissue death in patients admitted with stroke, brain hemorrhage and traumatic brain injury.
Investigation of the clinical efficacy and safety of dual antiplatelet therapy with clopidogrel and cilostazol versus clopidogrel alone in preventing ischemic vascular events in patients with type 2 diabetes and symptomatic peripheral arterial disease.
Use of intravenous (IV) thrombolysis and intra-arterial (IA) recanalization treatment has been rapidly increasing, However, despite of the treatment, recanalization rates are 22.6 - 70% and only 30-50% of patients show meaningful clinical improvements. Mechanisms of futile recanalization may include 1) large ischemic core, 2) poor collateral, and 3) presence of comorbidity. In this regards, developing selection criteria using acute stroke imaging and comorbidity is warranted. Investigators will recruit the consecutive acute stroke patients who received IV thrombolysis and/or IA recanalization treatment. This study will perform with prospective design to develop CT-based clot, core and collateral scores and a comorbidity index for selecting stroke patients who are at high risks by the treatment. Investigators will firstly establish the CT-based scores and comorbidity index using a pre-existing cohort database. Using these CT-based and comorbidity index, Investigators will validate them in a multi-center prospectively cohort. In addition, Investigators will assess the cost-effectiveness of selecting patients based on the comorbidity index.
Stroke is the fifth leading cause of death in the United States and is the leading cause of long term disability. Distinct geographic disparities in stroke mortality, with highest rates in the southeast United States including Arkansas, are known as the "stroke belt." There the average stroke mortality is ≈20% to 40% higher than the rest of the nation. Stroke is the leading cause of serious long-term disability. Between 2012 and 2030, disability and medical costs related to stroke are projected to triple, from $71.6 billion to $184.1 billion, with the majority of the projected increase in costs arising from those 65 to 79 years of age. There are two main forms of stroke, ischemic and hemorrhagic. An ischemic stroke occurs in 85% of cases and is caused by cerebral vessel occlusion, obstructing blood flow to a portion of the brain. Currently, the only approved therapies for acute ischemic stroke are IV tissue plasminogen activator (tPA), a thrombolytic agent that clears the thrombus within the blood vessel, or intra-arterial catheter thrombectomy. Despite the availability of therapy, it reaches only approximately 7% of ischemic stroke victims in the United States5. Delay beyond the effective time window for therapy is a common reason for failure. To reduce the devastating impact of stroke on individuals and society, the investigators continue to seek ways to improve functional recovery and limit ischemic damage in stroke patients. The potential neuroprotective agent, dodecafluoropentane emulsion (DDFPe) has recently shown strong positive effects in pre-clinical animal models of acute ischemic stroke6-11. Other perfluorocarbons have been tested in humans as potential neuroprotectants and blood substitutes yet none have been successful.