View clinical trials related to Stroke.
Filter by:This study aims to determine the effectiveness of game-based biofeedback application via surface electromyography in patients with post-stroke dysphagia. The same treatment interventions will be applied with and without biofeedback, and thus the contribution of adding biofeedback to the treatment will be determined.
This trial aims to investigate whether placebo in isolation (open and hidden) has a specific neural signature in stroke subjects thus providing a novel mechanism to explain placebo effects that can be used to ultimately enhance stroke rehabilitation therapies.
In the last decades, the research in neuroimaging-informed stroke prognosis and treatment has had a little clinical impact, often because of the costs of bringing complex procedures to the bedside. Cerebral stroke remains the leading cause of disability, with 65% of survivors chronically impaired at 6 months. Gamma synchrony (GS) is a fundamental mechanism of cortical function and can be estimated and modulated in a simple, inexpensive, and reliable way. It has provided valuable and cost-effective guidance in several neuropsychiatric conditions. In previous studies, we developed simple yet robust methods for assessing and manipulating GS and proved its relationship with clinical impairment in preliminary data. The aim of the present project is to predict and improve stroke recovery by leveraging cortical mapping and modulation of GS via transcranial alternating current stimulation (tACS), a safe and inexpensive technique. The project capitalizes on technology readily available to the Italian national health system.
The aim of this study is to examine the effects of cervical mobilization on balance and gait parameters in stroke individuals. Twenty-four stroke individuals aged 30-65 years, with a mini mental test score of 24 and above, and with a maximum score of 3 according to the modified rankin scale, were included in this study. Individuals were randomly divided into 2 groups as study (Bobath approach and cervical mobilization n=12) and control group (Bobath approach n=12). Demographic data, gait parameters, balance parameters and craniovertebral angle values of individuals were evaluated with clinical data evaluation form, Spatio-Temporal Gait Analysis (LEGSystm), Portable computerized kinesthetic balance device (SportKAT 550) and photometer, respectivelyThe evaluations were performed 2 times before and after the treatment.
The purpose of this study is to investigate feasibility aspects of an intervention targeting problems in managing daily tasks due to mild-to-moderate poststroke cognitive impairments. We will specifically address uncertainties related to intervention content and delivery, and trial design and conduct.
Background: The majority of stroke survivors regain walking ability, however the ability to adapt their gait to meet environmental demands remains impaired. This impaired gait adaptability has a profound impact on activities of daily living and quality of life. Treatment targeting these gait deficiencies is, therefore, critical for allowing safe and independent community ambulation in people with stroke. Rehabilitation programs targeting gait adaptability have gained interest in clinical practice. Besides, the use of augmented and virtual reality in rehabilitation programs becomes more common. Concerning gait adaptability, training programs are developed using the Cmill, an instrumented treadmill with augmented reality. Even though the efficacy of these interventions is limited to small, pilot trials, results are promising. Based on these results we hypothesize that a gait training program using the Cmill will improve gait adaptability and daily-life gait performance in people in the chronic phase after stroke. Objective: The primary objective of this study is to evaluate the efficacy of a gait training program using an instrumented treadmill with virtual and augmented reality for improving gait adaptability in people in the chronic phase after stroke. A second objective is to identify patient characteristics that predict a more favorable response to training. Study design: Randomized, waiting-list controlled trial to evaluate gait adaptability training Study population: 84 stroke patients in the chronic phase after stroke
To assess the effect of endovascular thrombectomy alone compared to intravenous thrombolysis plus endovascular thrombectomy in acute basilar artery occlusion patients within 4.5 hours from onset on efficacy and safety outcomes.
This study aims to explore the effects of the treatment with MindLenses Professional device on cognitive and motor performances,as well as on the levels of a neurotrophic factor implied in brain plasticity, that is the brain derived neurotrophic factor (BDNF), in neurological patients. A further aim of the study is to evaluate if the treatment's efficacy could depend on specific characteristics of brain alteration (lesion vs atrophy). The treatment combines prismatic adaptation with serious games for cognitive training, for a total of 10 sessions. 30 patients with stroke and 30 patients with Mild Cognitive Impairment will be enrolled.
Financial Abilities (FA) are a set of capacities that allow a person to independently manage her/his financial affairs in a manner consistent with personal self-interests and values. This project will: a) assess Financial Abilities in different neurological conditions: Mild Cognitive Impairment, Parkinson's disease and Stroke patients; b) investigate both cognitive correlations, specifically the role of executive functions, thought to be critically involved in the FA multi-dimensional concept, and neuro-anatomical correlates of Financial Abilities; c) build a rehabilitation tool in order to improve FA. Secondary aims are to apply this rehabilitation tool at long distance and evaluate its behavioral, functional and neuroanatomical effects. The starting point for this project is the recently published NADL-F - Numerical Activities of Daily Living - Financial, a multi-domain ecological battery aimed at assessing FA in healthy people as well as in neurological patient populations
Investigators aimed to examine the effectiveness of robotic exoskeleton-assisted gait training in stroke rehabilitation, and to determine predicting factors of significant improvements in post-stroke patients. Investigators hypothesized that robotic assisted gait training brings better strength recovery and functional improvement.