View clinical trials related to Stroke.
Filter by:This study will be randomized clinical trial. Non Probability consecutive sampling technique will be used. Data will be collected from patients having stroke by using tools i.e Fugl-Meyer assessment: wrist and hand (FMA- WH) and Brunnstrom Hand Manipulation (BRS-H). Those who will meet inclusion criteria will be recruited. An informed consent will be taken from all patients. The recruited subjects will be assessed according to outcome measures. Patients will be divided into 2 groups. Group A will be treated with Brunnstrom Movement Therapy plus Conventional therapy for 1 hour, 3 sessions per week (4 weeks) and Group B will be treated with Mirror Therapy plus Conventional therapy for 45 min, 3 sessions per week ( 4 weeks) 5 movements, 10 repetitions. Outcome measures will be measured at baseline, 2 weeks and after 4 weeks. Data analysis will be done by Statistical Package for the Social Sciences version 25.
If a subject agrees to participate, the primary investigators will collect some basic information including age, height, and weight. Intake of some general questions regarding health and each subject will complete some tests that measure walking speed, cognition, and balance. During these tests participants will be asked to stand from a chair, walk up & down a staircase, walk over objects in a forward, backward, and sideways directions, walk around objects in forward and backward directions. After completing those tests, participants will be asked to repeat them while doing another task such as counting out loud, naming objects, or passing an object from one hand to another. At the end of the day, a step counter will be attached to each subject's ankle and you asked to wear it when awake for the next 7 days. Investigators expect that the evaluation will last 1 hour. After 7 days, subjects will return the step counter to the researchers and begin the exercise classes. The exercise classes will occur 2 days per week for 8 weeks. In the class participants will be asked to perform gentle exercises and use memory to improve brain functioning. Each class is expected to last 1 hour. At the conclusion of the exercise classes, investigators will again perform the gait, balance and cognitive tasks as we did before each started the class. Once a subject finishes all the exercise classes and testing, investigators will call one every week to see if you have had any falls at home. The calls will go on for 6 months.
The aim of the study is the development and scientific substantiation of the effectiveness and safety of multimodal rehabilitation technology using innovative digital technologies, biofeedback (BFB), virtual reality (VR), neurointerface for the restoration of stato-locomotor disorders, neuromuscular control of upper limb movements and cognitive functions in patients with ischemic stroke (IS) in different recovery periods with rehabilitation risks control in outpatient clinic.
Comparison of PNF and Task Related Techniques Along with Tens on Upper Limb Function Among Stroke Patients
This is a randomized open-label, with blinded outcome pilot study to evaluate the effect on inflammatory laboratory values and explore clinical outcomes in patients who present with ischemic strokes due to large vessel occlusions and are treated with either current accepted management, or accepted management in addition to transcutaneous auricular vagal nerve stimulation.
Pathology registers are scientific research tools for the development of epidemiological and clinical studies and health planning, which allows access to useful elements for planning adequate health services. The Registry collects demographic, clinical and functional data of stroke patients and arises from the need to order and update this information for epidemiological and research purposes, for a better knowledge of this pathology from a rehabilitation point of view and to accelerate the development of new treatments.
A two stage phase 2 study with an interim analysis to provide evidence that subjects provided with early administration of NanO2 who are located at small rural spoke hospitals and identified with large vessel occlusion ischemic strokes as well as viable penumbra prior to transfer to larger hub hospitals and who continue dosing NanO2 until revascularization is achieved by intravenous alteplase and/or mechanical thrombectomy, will experience stroke recovery by shifting ischemic brain tissue to normal tissue pO2 environments.
Although there have been major advances in (personalized) stroke treatment in the last decade, the need for prevention of stroke remains critical. Prevention of recurrent stroke is currently primarily organized through management of cardiovascular risk factors including lifestyle, hypertension and atrial fibrillation (AF). To improve the cardiovascular risk management of stroke patients, more frequent measurements of blood pressure and heart rhythm are essential. In addition, actively engaging the patient with their own recovery could lead to an improved lifestyle. Recent studies have shown telemonitoring of patients can improve care, help with prevention of disease, and reduce healthcare costs, whilst keeping the patient more engaged with their disease. The LUMC "Box" has shown to effectively monitor blood pressure of patients after myocardial infarction with equal results and patient satisfaction rates compared to standard care with less physical contact moments. We plan to use this framework for improving post-stroke care by introducing more frequent blood pressure and heart rhythm measurements. Additionally, we will provide more information around lifestyle improvement and have the patient actively engage with their weight and physical activity. In this study we will be evaluating the technical feasibility and clinical implementation of the home-based self-measurements using the Box in a post-stroke pilot setting: the Stroke Box. The results will be used as a basis for the power calculation for a future randomized clinical trial on the effect of the BOX on hypertension treatment and AF detection.
The occurrence of abnormal movements is a frequent reason for consultation in neurology. The etiologies are broadly separated into "primary causes", intrinsically neurological diseases (of genetic or degenerative origin), and "secondary causes". In addition to certain medications or toxic substances, brain damage can be a cause. In this register, 22% of involuntary abnormal movements are related to a stroke and 1 to 4% of strokes are complicated by abnormal movements. These are manifested by a parkinsonian syndrome or conversely by hypercinesia which can take the form of chorea or ballisms. Most hyperkinetic movements occur in the acute phase of the neurovascular event. The frequency of these abnormal movements is still uncertain and their semeiological description has been the subject of only rare publications. It seems relevant to be interested in the frequency of these neurological phenomena and has their semeiologic characteristic
To assess whether PFO closure plus antiplatelet therapy is superior to antiplatelet therapy alone and whether oral anticoagulant therapy is superior to antiplatelet therapy to prevent stroke recurrence in patients aged 60 to 80 years with a PFO with large shunt (> 20 microbubbles) or a PFO associated with an ASA (> 10 mm), and an otherwise unexplained ischemic stroke.