View clinical trials related to Stroke.
Filter by:tACS has the potential to directly induce cortical alterations in the intrinsic neural oscillation at specific frequencies, and the brain could mirror the induced frequencies of the external source of oscillations from the stimulation. Hence, tACS with matching stimulation frequency could be an effective means of enhancing brain oscillatory activity to potentially induce synaptic plasticity for restoration of damaged brain functions. However from the existing studies of applying tACS over the M1 in healthy and diseased brains, there is a wide range of applied stimulation frequencies and varied neuromodulation effects on motor behavior or cortical excitability at different frequencies. In this proposal, subject-specific stimulation frequency and latency will be identified.
Stroke is a worldwide major cause of disability with great social and economic burdens. The recovery of motor function is crucial for the patient to regain independence and quality of life. Identifying early predictors of motor recovery and outcomes is useful for planning personalized rehabilitation programs and increasing their efficiency. However, making predictions using a single clinical assessment is often difficult and a combination of multiple tools is required. In the last decades, were validated two predictive algorithms for upper limb function and independent walking that can be easily implemented into clinical practice with the aim of increasing knowledge on expected outcome after stroke in patients, families and rehabilitation teams. This will be the first single-site randomized control trial that will test the implementation of such tools in a rehabilitation setting in Italy.
Asymmetric gait patterns of stroke is one of the most important functional activities to enable community participation, it is major goal for stroke patients. Reported that the stroke patients had asymmetry at stance time, single stance, double support time, and swing time compared to normal people, and claimed that the most important factor was step length. According to Albert et al., patients with an asymmetric gait pattern have a long double support phase and a healthy side single support phase, and less weight shift to the affected side. Recent studies have shown that visual feedback for weight shift may be helpful to obtain a symmetrical posture after stroke. However, no study has been conducted on the therapeutic effect on gait asymmetry and patterns. We aimed to investigate the effect of Anterioposterior Weight Shifting Training with Visual Biofeedback in subacute post-stroke patients on gait asymmetry and pattern. 40 subacute post-stroke patients with Step Length Asymmetry were enrolled in this study. The subjects were randomly assigned into two groups. The training group received an additional anterioposterior weight shifting training with visual Biofeedback 5 times per week for 4weeks. The control group received the usual gait training. The spatiotemporal and kinematic data were obtained during walking through 3D motion analysis. Functional Ambulation Category, Self-selected walking speed, Maximum safe walking speed, Berg balance Test (BBT), Fugl-Meyer Assessment (FMA), Medical Research Council Score (MRC), Functional Independent Measure-mobility, Timed Up and Go test (TUG) were assessed at pre, during, post- training, and 4week follow-up. Those were compared between two groups by repeated measures ANOVA.
The investigators aim to explore the effect of puzzle mobile or tablet-based games on problem-solving impairment resulting from a first-time stroke. This is a randomized-controlled trial with the intervention arm consisting of puzzle gaming applications and the control arm consisting of stroke-relevant educational videos provided and encouraged throughout the course of participants' acute inpatient rehabilitation stay.
The overall goal of this study is to minimize morbidity due to Atrial Fibrillation (AF). The specific objective is to develop and implement a rational and personalized approach to AF risk estimation that can inform management decisions with ischemic stroke. The investigators propose to develop a clinical AF risk estimation tool in the electronic health record and to test the effectiveness of implementing a clinical AF risk estimation tool into care for use by stroke neurologists during the care of acute ischemic stroke patients at Massachusetts General Hospital. The investigators will evaluate cardiac monitoring utilization calibrated to AF risk by stroke neurologists using a custom electronic health record (EHR) notification module. The investigators hypothesize that cardiac rhythm monitoring utilization will be positively correlated with the predicted risk of AF.
The cerebral collateral circulation refers to the subsidiary network of vascular channels that stabilize cerebral blood flow when principal conduits fail. Collateral status differs among patients with acute ischemic stroke. Relatively sparse attention has been devoted to the role of baseline collateral circulation in patients with acute ischemic stroke who are candidates for revascularization. This study aim to investigate the correlation between baseline collateral circulation and the likelihood of opening of an arterial occlusion, the extent of reperfusion, tissue injury and clinical impairment.
To determine the effects of resistive diaphragmatic training on pulmonary function of chronic stroke patients. And also assessing their compromised respiratory functions
This is a double-blind, sham-controlled, anodal tDCS study to understand the effect of increasing motor cortex excitability on post-stroke fatigue.
In an innovative approach, a full body suit with multiple electrodes for provision off electrical stimulation has been developed by a Swedish Med-tech company. Based on theoretical background and clinical experience, this study will explore the potential value of the EXOPULSE Mollii suit-method in the management of post stroke shoulder pain. The overall aim of this study is to test and further develop the Mollii-suit for its ability to reduce hemiplegic shoulder pain. The specific aims are 1) to compare the effect of different stimulation modes for shoulder pain reduction 2) to explore which patients will respond best to these.
Evaluation of the safety and tolerability of escalating doses of NR1 administered intracerebrally at a single time-point post-injury to subjects with chronic ISS with or without cortical stroke.