View clinical trials related to Stroke.
Filter by:Objective: To determine the efficacy of computer-based cognitive training(CBCT) in patients with stroke in the community settings. Study Design: Single-blinded prospective, pre-test/post-test randomized controlled trial (RCT) will be conducted in 2 groups of participants that receiving training in community settings. Treatment groups will attend individualized CBCT programme using CogniPlus® while control group will continue attend conventional treatment as usual (TAU). Assessment on the means difference in assessing functions will be done after the study. Samples: 100 patients with stroke will be recruited from the community, using a sampling frame of selected diagnosis and homogeneity. Expected Findings: Find out the training effects of selected CBCT on EF and daily functioning in patients with stroke
Stroke is a medical condition that causes the cessation of blood flow to the brain cells and eventually results in cell death. It's a condition that appears out of nowhere and has long-term implications. It is a common Global health-related problem that is disabling in nature and is the second common cause of death, leading to disability in the geriatric population worldwide. Most of the stroke affects the middle cerebral arteries that's why there will be more disability of upper limb, as compared to lower limb and loss of the upper limb function, is one of the most common deficits that a person experience after stroke. Action observation training can prime the motor system through the mirror neuron network that offers a mechanism for promoting neuroplasticity and reimbursement of motor control following stroke hemiparesis that would otherwise be restricted to use-dependent therapies.
The superiority of mechanical thrombectomy (MT) in patients with acute ischemic stroke from large vessel occlusion compared to standard medical therapy alone has been demonstrated by several randomized clinical trials and become the standard of care for these patients. A direct aspiration first pass technique (ADAPT) for the endovascular treatment of stroke using a large-bore catheter has been reported to be an effective method of achieving MT. Recent studies reported that ADAPT is as efficient and safe as stent retrievers, with a similar successful recanalization rate, but may have better functional outcomes, fewer procedure related-adverse events, and a tendency for faster revascularization compared to the stent-retriever thrombectomy. However, navigation of a large-bore aspiration catheter is not always possible due to unsuccessful passage of the ophthalmic artery origin ("ledge effect") or tortuous vascular anatomy. The coaxial technique comprises guiding the large-bore catheter with a smaller inner catheter and can facilitate distal access. However, there is a gap between the inner catheter and the distal tip of the large-bore outer catheter that creates a risk of damaging the vessel wall and causing dissection or subarachnoid hemorrhage. Even with this coaxial technique, it is not always possible to reach the clot site with the large-bore catheter. To decrease the gap between the two catheters, several authors have used, in place of the inner microcatheter, a compliant balloon catheter positioned and inflated at the distal tip of the large-bore catheter. The aim of the present study was to evaluate the safety and efficacy of ADAPT assisted by a compliant balloon (ADAPT-AB) when ADAPT using the coaxial technique fails to reach the clot site.
The regional health authorities of South-East Norway has commissioned Sørlandet Hospital (SSHF), Norway to establish mechanical thrombectomy in large-vessel occlusion stroke. SSHF is a limited volume stroke center, and introduction of thrombectomy may impose quality challenges. Therefore the implementation will be guided by a simulation based quality assurance program. In this study, we will monitor timelines, technical and clinical outcomes, including adverse events.
This is a multi-intervention randomized controlled trial that aimed to develop a management pattern for stroke survivors. The program consists of monitoring the recovery process, early detecting the physical and mental disorders, suitably intervening for each patient to improve their quality of life. New intervention techniques will be firstly applied for post-stroke patients in Vietnam such as using the portable functional near-infrared spectroscopy (fNIRS) device to explore cortex frontal hemodynamic and motivational interviewing for psychological adjustment. A total of registered 92 stroke patients in Vietnam National Geriatrics Hospital will be included in the study for 6 months. Included patients will be randomized to an intervention group and received the long-term follow-up program or to a control group receiving standard care. The mental health and physical functioning of participants will be assessed at 0, 1, 3, and 6 months follow-up. This work was funded by Vingroup Joint Stock Company and supported by the Domestic Master/Ph.D. Scholarship Programme of Vingroup Innovation Foundation (VINIF), Vingroup Big Data Institute (VINBIGDATA).
The focus of this study is to perform a preliminary assessment of the efficacy of the BurtVision system. While the Burt robotic-arm assists the patient's upper-limb in their movements, BurtVision will allow the patient to perform unimanual and bimanual activities while leveraging augmented reality games. The investigators will compare clinical outcomes when the BurtVisions ystem is used for training solely relying on unimanual tasks vs. when it is used for training relying on both unimanual and bimanual tasks.
To describe the general trajectories of rehabilitation compliance in first-onset stroke patients within 6 months, and to identify the heterogeneous development trajectory of different subgroups based on the mixed model of latent growth.To explore the predictors of different change tracks of rehabilitation compliance of stroke patients from the perspectives of biological, psychological and social factors, so as to provide the basis for formulating precise nursing intervention measures.
Non-invasive brain stimulation (tDCS) such as transcranial direct current stimulation (TDCS) has been reported to be effective in improving motor performance and safe in participants with cerebral infarction. However, few studies have been done in participants with acute cerebral infarction. In this study, the investigators want to see the effect of tDCS in acute cerebral infarction. the investigators perform tDCS in participants with acute ischemic stroke within 48 hours after stroke onset and the investigators measure motor weakness and function at early phase as well as at 3 months.
The proposed trial aims to evaluate the effectiveness of internet-delivered cognitive behavioural therapy (iCBT) based ecological momentary intervention (EMI) for psychological well-being in stroke family caregivers.
In this work, a novel hybrid ankle-foot robot is designed for gait rehabilitation after stroke, i.e., exoneuromusculoskeleton with balance sensing feedback (ENMS-BSF) by integrating the advantages of soft pneumatic muscle, functional electrical stimulation, exoskeleton and foot balance feedback in one system. With the assistance of the ENMS-BSF the foot drop and foot inversion could be corrected with improved muscle coordination in the paretic lower limb. The device is wearable and light-in-weight for unilateral application during walking. It is hypothesized that with the intervention of the ENMS-BSF the gait pattern of persons after stroke can be improved with long-term rehabilitative effects.