Active clinical trials for "Stroke"

Significant difficulty in incorporating the weaker arm in daily activities after stroke is, in part, driven by difficulty in engaging both arms interactively in a coordinated manner. The current study aims to determine the nature of bimanual coordination deficits after stroke and takes initial steps to test a novel theory-driven approach to improve interactive bimanual coordination in patients with stroke. This project will advance stroke rehabilitation by identifying novel, scientifically-based strategies to improve the engagement of the weaker arm in coordinated and interactive bimanual actions of daily life, thus improving quality of life in individuals after stroke.

This is a single arm, multi-site, prospective hybrid implementation and feasibility trial. The primary purpose of this trial is to gather data on the facilitators and barriers to clinical implementation of MR-001 for patients with chronic stroke who experience walking impairments. Secondarily, the trial will evaluate the feasibility of MR-001 clinically impacting walking capacity, quality of life, mood, and cognition. The goal of this single arm, multi-site, prospective hybrid implementation and feasibility trial is to gather data on the facilitators and barriers to clinical implementation of MR-001 for patient with chronic stroke who experience walking impairments. The main questions it aims to answer are: Enhance understanding of the potential clinical and operational needs and opportunities that may be associated with implementation of MR-001 in various treatment settings. Assess the impact of MR-001 on walking capacity. Assess the impact of MR-001 on quality of life and mood. Assess the impact of MR-001 on cognition. All participants will be prescribed MR-001 and will be asked to walk with it for 30 minutes, 3 times weekly, for 8 weeks.

The study will make an association between the diagnosis of traditional Chinese medicine that establishes that the syndrome of blood stagnation generates alteration in blood flow, vascular dysfunction, and damage to the endothelium. This process is like what occurs in a stroke. It will use electroacupuncture to change this chronic inflammatory process, and to know the effects and efficacy of this technique in the regulation and modulation of to treat extensive inflammatory diseases. However, this inflammatory response must be associated with serum cholesterol levels, since they are associated with a stroke between the LDL-C/HDL-C ratio and the prognosis after a stroke.

After a stroke, people can experience memory problems, including difficulty remembering to do things in the future - termed "prospective memory". This can impact their ability to carry out important activities of daily living (e.g., taking medication), independence, and quality of life. Technology-based memory aids, including smartphone applications, can compensate for memory difficulties and are recommended as a 'practice standard' for improving prospective memory impairment following stroke. ApplTree is a smartphone application that was designed for people with memory and attention problems. Users can enter details of future tasks and events and ApplTree then prompts them to remind them to complete these at a pre-specified time. This study will investigate whether ApplTree helps people who have had a stroke and experience prospective memory difficulties to successfully complete prospective memory tasks. It will also explore whether they find ApplTree helpful and easy-to-use.

The Smart Ankle-Foot Orthosis (Smart AFO) system is an investigational system that combines a diagnostic ankle-foot orthosis with a mobile application to assist clinicians in optimizing an AFO user's gait by adjusting AFO stiffness and range of motion settings, and quantifying functional walking improvements in post-stroke individuals. The purpose of the clinical testing is to evaluate the Smart AFO system with its target users: post-stroke AFO users and orthotists. This may include, but is not limited to, identifying any aspects of the Smart AFO system that could be improved through clinical testing and evaluating the gait of post-stroke AFO users walking with an AFO adjusted using the Smart AFO system.

The purpose of this study is to assess the safety and efficacy of early administration of tirofiban in patients treated with tenecteplase for acute ischemic stroke.

ASPHALT is an academic-driven open-label randomized controlled trial of Mobile Stroke Unit (MSU) deployment versus standard care in France, with blinded assessment of efficacy endpoints. 450 patients with confirmed acute ischemic stroke will be recruited over a 3-year period, with 3-month follow-up.

The purpose of this study is to determine the efficacy and safety of levofloxacin combined with endovascular thrombectomy in treating acute ischemic stroke due to large vessel occlusion of anterior circulation.

About 50% of people who have a stroke experience difficulty swallowing. There is a growing evidence base showing that swallowing therapy can help to improve swallowing, but we don't know which type or how much therapy is most beneficial. The investigators are further developing one particular intervention - swallow strength and skill training with biofeedback. This involves practicing strong or effortful swallows and practicing controlling the timing of swallowing using visual feedback on a screen showing the activity of the muscles involved in swallowing. The investigators want to know whether trained clinicians are able to deliver this therapy in acute hospital settings early after stroke. The investigators also want to explore whether there is an effect of dose in improving swallowing and other health factors. To do this the investigators will conduct a trial across several stroke units in the east midlands. The study aims to recruit 120 participants who have had a stroke and have dysphagia and who will randomly be placed in one of three groups. One group will get a standard dose therapy (10 x 35 minute sessions over 2 weeks), another group with receive a high dose therapy (20 x 35 minute sessions over 2 weeks) and the third will receive 'usual care' which is what they would usually get from their current service. The investigators will look at what therapy participants actually get, what factors might influence this and the training, support and conditions that enable clinicians to deliver the therapy. The investigators will also assess the participants swallowing and collect information on their health, face to face at the beginning and after the therapy and over the phone at three months.

The goal of this clinical trial is to investigate the effectiveness of upper extremity training, which is expected for 5 seconds on the target during reaching forward, and to compare the effectiveness of neurorehabilitation interventions including reactive upper extremity trainings to be applied with different speeds and methods on body control, balance, gait, fall risk, spasticity, upper extremity fine dexterity, respiratory, and cognitive function in the individuals with stroke. The main questions it aims to answer is: • Is there a difference in the effects of neurorehabilitation interventions that include reactive upper extremity trainings applied at different speeds and methods on trunk control, balance, gait, fall risk, upper extremity spasticity, upper extremity fine dexterity, respiratory function and cognitive function? All participants will participate in the Bobath Approach-based neurorehabilitation program. This program will include scapula mobilization, trunk elongation training in sitting, and training lumbar stabilizers with bridge activity. In addition to the neurorehabilitation program, the 1st and 2nd groups will be given a reaching exercise with LED light reactive training material (Fitpodz Light Trainer®). The LED light sensors, whose duration is set, will light up in green and red colors at random intervals. Patients in the 1st group will be asked to reach forward and touch the sensor when the red light sensor is on, and pull back as soon as the sensor goes out. The patients in the 2nd group will be asked to reach forward and touch the sensor when the green light sensor is lit, and to hold their hand on the sensor for 5 seconds and then withdraw it. With this method, it is aimed to create co-contraction in patients in Group 2. In addition to the neurorehabilitation program, patients in the 3rd group (control group) will have functional stretches to the anterior, right and left while standing. Researchers will compare three groups to see if there a difference in the effects of neurorehabilitation interventions that include reactive upper extremity trainings applied at different speeds and methods.