View clinical trials related to Ischemic Stroke.
Filter by:The goal of this observational study is to evaluate the accuracy of a panel of blood biomarkers and clinical variables in predicting the prognosis of stroke patients treated by mechanical thrombectomy, specifically to predict futile recanalization and mortality.
Explore the effectiveness and safety of emergency endovascular treatment in patients with mild ischemic stroke due to acute large vessel occlusion in the anterior circulation, identified through perfusion imaging.
The goal of this clinical trial is to compare the effects of stabilizing reversal and rhythmic stabilization versus pelvic proprioceptive neuromuscular facilitation on trunk control, postural stability and mobility in stroke patients. The main question it aims to answer is: Is there any difference in effects of stabilizing reversal and rhythmic stabilization versus pelvic proprioceptive neuromuscular facilitation on trunk control, postural stability and mobility in stroke patients? Researchers will compare stabilizing reversal and rhythmic stabilization to pelvic proprioceptive neuromuscular facilitation to see if there any difference in effects of stabilizing reversal and rhythmic stabilization versus pelvic proprioceptive neuromuscular facilitation on trunk control, postural stability and mobility in stroke patient. Participants will be divided into two groups: Group A will receive stabilizing reversals and rhythmic reversals technique. The patient will perform 3 sets with 15 repetitions in each session, 5 days per week for 8 weeks. Group B will receive Pelvic PNF protocol. The treatment protocol will be followed 5 days a week for 8 weeks (i.e. 20 sessions) and each session will last for 30 minutes.
To compare effects of exteroceptive and proprioceptive sensory stimulation versus sensorimotor therapy on spasticity, motor function and activities of daily living in patients with stroke
Post-ischemic adaptation is a physical brain protective treatment strategy in which an ischemic event in an organ or tissue is treated and blood flow is restored, and an ischemic stimulus is given to local tissues to induce the production of anti-ischemic damage factors and reduce the damage associated with reperfusion therapy . Relevant basic studies have confirmed that post-ischemic adaptation can reduce infarct volume and promote neurological function recovery in animal models of cerebral infarction. Therefore, it may be beneficial to the recovery of neurological function in patients with acute ischemic stroke undergoing mechanical thrombus extraction. Based on the above background, the use of a balloon to repeatedly dilate-contract at the original occlusion site after revascularization to block and restore arterial flow may be an effective cerebroprotective treatment for patients with large-vessel occlusion who undergo thrombolysis. However, can this approach be safely used in patients with acute ischemic stroke treated with thrombolysis? What is the protocol for the length of time patients can tolerate post-ischemic adaptation? The application of this method in the treatment of acute ischemic stroke will be explored in this study.
To design and validate a predictive model for malignant brain edema after endovascular thrombectomy.
The present observational study aims to determine the degree of adherence to the recommendations of clinical guidelines regarding the prevention of cardiovascular complications in patients hospitalized due to a cardiovascular event.
The AutonHome® clinical investigation, proposed by Dr Charles FATTAL (coordinator of this study), and carried out by the Association Approche (delegated promoter), aims to use the AutonHome® selfeducation device for the rehabilitation of patients who have suffered a Cerebrovascular Accident (CVA), and thus respond to the problems of therapeutic discontinuity highlighted today. Neuradom's AutonHome® device combines self-education and telecare. This device makes it possible to carry out personalised self-education programmes supervised by the therapist, enabling the therapeutic link with the patient to be maintained without the need for the patient to travel. This tool has already proved its usability and perceived usefulness in a previous clinical study, which demonstrated the feasibility of a self-education programme for hemiplegic patients, based on feedback. AutonHome® was considered by users to be a relevant, useful and safe complement to conventional rehabilitation. On the basis of this feasibility study, the investigators wished to develop a second study around this AutonHome® device. In this second clinical investigation, in addition to perceived usefulness, the main objective is to demonstrate, in a population of stroke victims, that an experimental care pathway combining supervised self-education via AutonHome® with conventional re-education optimises the care pathway in terms of sensory-motor recovery, but also in terms of reduced length of stay and functional and medico-economic added value. This clinical trial involves two parallel arms. Participants will be randomised into a control group, undergoing conventional in-centre rehabilitation, or into an experimental group, with self-rehabilitation and tele-rehabilitation in addition to conventional rehabilitation. The AutonHome study is a pilot study, with the aim of including 40 participants. Each centre will recruit 10 participants on a 1:1 randomisation basis, with 5 in the experimental group and 5 in the control group. Participants will be monitored for 15 weeks. This clinical investigation is multicentre, with 4 centres involved: the Centre Bouffard Vercelli (66962, Perpignan), the CMRRF de Kerpape (56275 Ploemeur), the association Saint-Hélier (35043, Rennes), and the Fondation ILDYS (29684 Roscoff).
The upper limbs play an essential role for safe and efficient walking in healthy persons and persons post-stroke. Nevertheless, in current post-stroke gait rehabilitation (research) the upper limbs are barely targeted. To address this gap, my project aims to investigate the selective motor control of the upper limbs during walking and the contribution of the cortical activity to the arm swing in independent walkers after stroke. To gain insight in the direct effects of stroke on the arm swing, the primary motor control of the arm swing will be evaluated by determining muscle synergies (i.e group of muscles working together as a task-specific functional unit). Additionally, the cortical activity (EEG-analysis) during walking of persons post-stroke will be compared to healthy controls and the relationship between stroke-induced changes in cortical activity and arm swing deviations will be assessed. Furthermore, I will evaluate whether improvements in cortical activity relate to improvements in primary motor control of the arm swing. This innovative project will be the first to investigate the direct coupling between the cortex and the muscle synergies in persons post-stroke during independent walking to investigate the arm swing. These fundamental insights in the primary motor control of the arm swing and the contribution of the cortical activity will allow to develop targeted interventions aiming to improve arm swing and as such optimize post-stroke gait rehabilitation. Research questions: 1. How can muscle synergies explain arm swing alterations in independent walkers after stroke? 2. How do stroke-induced changes in cortical activity relate to arm swing deviations in persons after stroke? 3. Are changes in primary motor control of the upper limb during walking related to normalization of brain activity in independent walkers after stroke?
CAIS-MT is a single-center, prospective cohort study, to evaluate the correlation between outcomes of endovascular treatment(EVT) and intracranial artery calcification(IAC) in patients with acute ischemic stroke due to large or medium vessel occlusion.