View clinical trials related to Stroke.
Filter by:Over the last years a rising medical need for treatment of chronic pain was identified. Based on previous findings indicating the pain modulating effects of cannabinoids in chronic pain disorders, this clinical trial investigates the efficacy and tolerability of the THC-focused nano endocannabinoid system modulator AP707 in patients with chronic pain disorders due to central neuropathy of any genesis. Patients receive AP707 or placebo over the course of 14 weeks as an add-on to the standard of care. Changes in pain intensity, quality of life and sleep and others measures are monitored through different scales to assess the efficacy of AP707 in patients with chronic pain due to central neuropathy of any genesis.
The goal of this clinical trial is investigate the efficacy of a neuro/vascular-protective treatment with the drug Cerebrolysin in patients with acute ischemic stroke. starting immediately after completion of a EVT therapy. The main question the study aims to answer is: If a 10 days treatment with the neuro/vascularprotective drug Cerebrolysin (30 ml/day as intravenous infusion) is able to increase the overall outcome of EVT therapy? Participants will receive intravenous treatment with Cerebrolysin (30 ml/day) starting immediately after thrombolytic therapy and being continued for 10 consecutive days as one single daily infusion. The modified Rankin Scale (mRS) 90 days after onset of symptoms will be investigated, but also the improvement in other ratings as well as the time course of the improvement. In addition to the clinical outcome measures the study will assess neuroimaging perfusion CT-Perfusion parameters to evaluate possible direct improvement in microcirculation that might be an additional mechanism of action of cerebrolysin. CT-Perfusion being done immediately after EVT will provide ability to stratify the data according to non-favorable CT-Perfusion parameters after EVT versus favoravle.
A scientific study is being done to test a special treatment for people who have spasticity or tight muscles. This treatment is called "stereotactic radiosurgery dorsal rhizotomy." It uses very accurate beams of radiation to target certain nerves in the back to help loosen up the muscles. In this study, people are put into two groups by chance: one group gets the real treatment, and the other group gets a "fake" treatment that doesn't do anything. This fake treatment is called a "sham." Doing this helps make sure the study is fair and the results are true. After the people in the study get their treatment, the researchers will watch and see how they do. They will check if their muscles are less stiff and if they have any side effects. By looking at the results from both groups, the researchers can find out if the special treatment really helps people with spasticity. Patients who got the "fake" treatment will be eligible to receive the "real" treatment after 6 months.
The goal of this clinical trial is to assess the safety and feasibility of providing extra doses of rehabilitation therapy for persons with a recent stroke, traumatic brain injury (TBI) and/or spinal cord injury (SCI). The therapy treatment targets to improve arm function by introducing telerehabilitation to the bedside of participants during the inpatient rehab admission period. Participants will use a newly developed functional training system (HandyMotion) to access therapy treatment program directly from their hospital room. HandyMotion is a sensor-based training system that can connect to the TV set in the hospital room, enabling patients to access their therapy training program to practice rehab-oriented games and exercises ad libitum, at any time of the day.
Objectives: The aim of this feasibility randomized controlled trial (RCT) study is to investigate whether the theoretically informed telehealth intervention involving the HEARTS Technical Package and the use of an activity monitor to increase physical activity level post-stroke is feasible and to estimate the parameters for conducting a fully powered RCT. Design: A Phase 1 feasibility RCT study with blinded assessment will assign eligible participants to experimental or control group. Participants in both groups will undergo a theoretically informed telehealth intervention based on the HEARTS technical package (a face-to-face session and telephone call follow-up). The experimental group will have additional use of the Mi Band 7® Smartwatch activity monitor. For both groups, the intervention will last for 12 weeks. The feasibility outcomes will be identified considering the different phases of conducting the study. A trained researcher, blinded to the group allocation, will collect the sociodemographic, anthropometric, and clinical outcomes, in a university laboratory setting. Study Outcomes: Feasibility of recruitment, intervention, and measurement, and clinical outcomes. Conclusions: Results from this feasibility RCT study will inform on the design and sample required for a fully powered RCT with a similar aim.
The purpose of the study is to investigate the combined effect of pelvic and trunk control exercises on muscle performance of affected upper extremity in stroke patients.
The proposed research will further develop the CHAMPS intervention which is self-management intervention to learn new skills, despite current health status of experience a stroke. The study seeks to determine feasibility and compare pre- to post-intervention change including cardiovascular risk, quality of life, self-efficacy, recurrent stroke, hospital readmission, and perceived decline in health and function.
Chronic intracranial arterial occlusion is associated with a "bidirectional stroke risk," with a significantly increased risk of both ischemic stroke and cerebral hemorrhage. Currently, Western CTAP products, in combination with clinical expertise, offer some predictive value for assessing the risk of ischemic events by evaluating compensatory pathways and overall perfusion in chronic intracranial arterial occlusion. However, there is limited support for assessing the risk of hemorrhagic events. Our proposed project aims to address a significant scientific challenge: the precise assessment of long-term stroke risk in asymptomatic patients with chronic intracranial arterial occlusion using a machine learning-based approach. The rapidly advancing field of machine learning provides a rich set of solutions for tackling this problem. In this project, we intend to develop a deep learning-based segmentation model for key brain regions using multimodal CT scans. Subsequently, we will automate the extraction of radiomic features and CT perfusion parameters, followed by the application of machine learning techniques to construct a stroke risk prediction model tailored for patients with chronic intracranial arterial occlusion.
Overall objective: The aim of the project is to integrate the quality improvement programme on goal setting into the current care of people with stroke and to test and refine this programme. Target group: 1. People after a stroke (treatment in the participating centres); total number 155 people 2. Informal carers (only if the person has had a stroke and has limited opportunities to participate) 3. Professional carer; total number 155 people What? The goal-setting programme becomes standard care, it is checked whether the programme has been applied in care by health professionals (review of the patient's medical record), what the effects are on patients (questionnaires) and health professionals (questionnaires) and whether the quality improvement programme needs to be adjusted or refined (interviews with health professionals and the patient group) When to evaluate? 1. Health professionals: start of the study and end of the study via questionnaires. Interviews/focus group (every 3 months) 2. Review of patient records and observations (every 3 weeks) 3. Patient assessment: Admission and 1 week before discharge or end of study, Interviews/focus group (3 months)
Primary objective of this study is to explore the impact of a 3-week upper limb hand function training in patients with PD, MS or stroke. The benefits on hand function of this training program will be evaluated. The hypothesize is that the 3-week upper limb hand function training improves finger dexterity.