View clinical trials related to Stroke.
Filter by:While there are many studies examining the effect of different exercises on spasticity and balance activities in individuals with stroke, no study has been found on the effect of speed-based re-learning training on spasticity and balance activities. In this study, it was aimed to investigate whether the WBV treatment protocol determined has an effect on functional capacity and respiratory functions in individuals with stroke. In this sense, our study was planned to investigate the effect of speed-based motor learning training on spasticity characteristics and balance activities in stroke patients.
Novel approaches are needed for the management of stroke patients, as current practice relies on the presence of a qualified professional, of which there are severe shortages. Rehabilitation technologies provide a unique solution to this problem. Recent technological advances in EMG signal processing mean that researchers are now able to decompose EMG recordings of the residual muscle activity of stroke survivors. This information can be used to detect biomarkers of a patient's functional status, allowing an objective measure of function to be obtained. This information could be used to predict patient recovery and decide on the best course of treatment. Furthermore, this technology can be used to predict attempted patient movements, which could be used to drive a virtual reality interface that gives feedback on movement attempts. This could be delivered through a gaming interface, creating an enjoyable and motivational rehabilitation technology for stroke patients, and providing a treatment option for the most severe patients. Synchronizing patients' attempted movements with electrical stimulation of the desired muscle groups may further enhance neuroplasticity and rehabilitation outcomes. Advances in electronics have made it so electrical stimulation systems are wearable, portable and comfortable, commonplace in rehabilitation clinics and accessible to the general public (https://www.surge.co.uk/). In order to verify the clinical validity of such an approach, there is a need to conduct a large scale trial (6 months). The purpose of this study will be to assess the clinical validity of a gaming-based intervention driven by EMG activity in promoting long-term functional recovery. The study will also be assessing the capability of an AI algorithm to predict long-term recovery based on biomarkers detected in the early EMG signals. The team wishes to conduct a large scale trial to learn from the past mistakes of rehabilitation technologies, which were insufficiently powered to result in statistically significant outcomes, especially given the heterogeneous nature of the stroke population. The impact of such an intervention could be revolutionary for stroke patients. It would provide a treatment option for severe stroke patients, where none currently exists. It also ensures that rehabilitation could be commenced within the most time-critical period (the earliest weeks following stroke). Such an intervention would integrate easily into existing care practice and relieve some of the pressure on the NHS. The long-term impact would be to significantly improve the lives of stroke survivors and substantially reduce the burden on the NHS. Furthermore, the implications of this technology would go beyond stroke rehabilitation, and could be used in any patient with any form of paralysis. In order to test and validate this, the study team are also looking to include a small proportion of spinal cord injury patients in the protocol. The rationale being two-fold: they provide an alternative recruitment pool, with a simpler injury that does not also cause cognitive impairments, meaning they will be easier to collect data from and draw meaningful conclusions, in addition, it will help support that this technology can be useful in different patient groups and provide insight for future research directions. Spinal cord injury was chosen as a second condition, as like stroke it is one of the largest causes of paralysis, but tends to affect a younger patient population, which will allow us to compare the efficacy of this treatment approach in different age groups.
Approximately 30% of people with stroke experience symptoms of depression. Many may benefit from access to mental health services that target unhelpful thoughts, such as cognitive behaviour therapy (CBT), but go untreated due to lack of access to specialized care, costs, remote location, or stigma related to seeking care. Internet Cognitive Behavioural Therapy (ICBT) may overcome these barriers. The stroke ICBT program teaches skills such as challenging unhelpful thoughts, memory and attention, managing related physical symptoms, and pacing through a mix of online learning and weekly contact with a trained Guide. While the program's content was found to be acceptable among individuals after stroke, the program's effectiveness still needs to be evaluated. Thus, the primary purpose of this study is to evaluate if the stroke ICBT program will improve symptoms of depression compared to an attention control group. Individuals in both groups will answer questions about themselves and their injury and describe symptoms of depression, quality of life, and health service use to evaluate its impact on people's wellbeing. The study results will be useful in determining if the ICBT program is effective and whether it should be part of routine clinical practice.
Stroke is a public health issue and a priority for our institution. MRI plays an essential role in the management of stroke, its contribution being diagnostic, etiological and prognostic. Among the MRI sequences used in stroke emergencies, the diffusion sequence plays a key role in highlighting ischemic lesions as early as the hyperacute phase, even though the other sequences in the protocol do not reveal any anomaly. This sequence alone conditions the management of patients, particularly in the context of "thrombolysis emergencies". It has been shown that the sensitivity of the diffusion sequence for the detection of ischemic lesions can directly depend on acquisition parameters such as b value, slice thickness or spatial resolution. Recent advances in MRI now allow us to perform diffusion sequences with higher spatial resolution. The matrix is an important acquisition parameter of MRI sequences defining the ability of the sequence to distinguish 2 pixels in the acquisition plane. The higher the matrix, the higher the spatial resolution of the sequence in the acquisition plane. At the Saint-Joseph Hospital, we have a new 3T MRI since September 2020 allowing the acquisition in clinical routine of a more resolved diffusion sequence: 160x200 matrix ("high resolution" diffusion, HR), against 128x140 ("standard" diffusion usually). These two sequences are acquired in particularly short acquisition times (1 minute 37 seconds). This HR diffusion sequence is performed as part of routine care since September 2020 for specific situations: absence of lesion highlighted on the standard diffusion sequence while the patient has a suggestive symptomatology (especially for lesions of the brainstem), search for lesion in other vascular territories (thus in favor of an embolic origin) in a patient who presents an isolated ischemic lesion or ischemic lesions in a single territory. It has been reported in the literature that increasing the spatial resolution can reveal small lesions that were not visible on more conventional sequences. There is a clear rationale for seeking to improve the detection of small lesions (<5 mm) because their detection may have important therapeutic implications for many patients (particularly in the context of thrombolysis emergencies, transient ischemic attacks, or amnesic strokes).
Several studies suggest that advanced multi-modal imaging with CTP should be used to screen late time window stroke patients for thrombectomy. However, NCCT is more accessible when comparing with CTP. It is unclear whether the NCCT-based ASPECTS can be used as an imaging criterion to screen patients for thrombectomy. The newly published MR CLEAN-LATE and TENSION trials used NCCT or CTA, but still relied on ASPECTS scores to evaluate and select patients for endovascular therapy. However, different trials have different time windows. The aim of this trial was to assess the clinical outcomes of stroke patients with anterior large vessel occlusion who selected by simple imaging (NCCT) comparing via standard imaging screening strategy (CTP/MRI). The hypothesis is that simple imaging is non-inferior to standard imaging selection strategy in terms of achieving favorable outcomes.
ECHAS One will test the use of a smartphone app to assist patients to decide if it is necessary to call for emergency care with symptoms that could represent a heart attack or stroke.
In this prospective, single-center, open-label, non-randomized, single- arm, historically controlled study, we will compare the detection rate of paroxysmal atrial fibrillation in acute ischemic stroke patients without known atrial fibrillation, using 14-day continuous electrocardiography patch monitoring, with a historical control group of patients who received serial 12-lead electrocardiograms once daily for five days or conventional 24-hour Holter monitoring. The study will be conducted in Chang Gung Memorial Hospital at Chiayi, Taiwan, from February 2022 to December 2024.
1. To assess Hemodynamic changes in rtPA receiving Acute Ischaemic Stroke patients. 2. To assess the efficacy of rtPA in treatment of Acute Ischaemic Stroke patients. 3. To correlate TCD findings (post treatment) with one of standard vascular imaging in AIS (CTA or MRA).
To examine the effects of using a virtual reality (VR) system to improve upper limb motor function among subacute hemiparetic stroke patients. Under this aim, the investigators have two objectives: (1) to develop and test a procedure for the quantitative assessment of stroke patients in a virtual environment; and (2) to compare the outcome measures of the two groups of stroke patients (VR-intervention vs. conventional-control) on these two modes of training.
WHO: 32 participants with executive deficits related to a stroke, able to engage in moderate physical activity. WHY: Around one third of stroke patients suffer from cognitive deficits in the long term, which have a detrimental impact on everyday personal and professional life. The purpose of this study is to evaluate two sets of computerized exercises combining cognitive and physical effort to see if they can improve executive function. WHAT: Study participants first undergo cognitive and physical assessments. Additional questionnaires will assess mood, everyday life cognition, function and quality. This will be followed by a 6 week training period with 3 training sessions a week. The effect of the cognitive and physical training will be measured in a post-training evaluation session. Six months after completion of the training, the study will evaluate cognitive and physical abilities of participants to study long-term effects of the respective training program. WHERE: Both the evaluation and the training sessions will be conducted on the premises of the Centre Hospitalier Universitaire Vaudoise (Pavillon 4, Avenue de Beaumont, 1005 Lausanne, Switzerland)