View clinical trials related to Stroke.
Filter by:The aim of the present study is to evaluate the possible effect of using dual-tDCS combined with conventional physical therapy on lower limb function in stroke patients.
The purpose of this research study is to determine whether a combined electroencephalography (EEG) and functional near infrared spectroscopy (fNIRS) recording is able to detect changes in brain activity and blood flow after stroke.
This study will translate an English case definition of poststroke fatigue and validate it against the Multidimensional Fatigue Questionnaire-20 and the Fatigue Severity Scale
This study intends to develop a family-based care management intervention with primary aims to provide time-limited support for family caregivers affected by stroke and to empower caregivers through enhancing the family adaptation and functioning and increasing their capacity of stroke care. The objectives include: 1. To examine the effectiveness of the proposed family-based intervention to improve family, caregiver, and service outcome. 2. To examine the cost-effectiveness of the proposed family intervention. It is hypothesized that comparing to the control group, the experimental group participants will have more and significant outcome.
The purpose of this study is to test the effects of tDCS (Transcranial Direct Current Stimulation) on stroke patients with working memory problems.
The study was designed to evaluate the impact of a novel kinematic biofeedback system - SWORD - in the motor performance of patients after stroke. The SWORD system combines inertial motion trackers and a mobile app, allowing digitization of patient motion and providing real-time audiovisual biofeedback. The investigators hypothesize that the biofeedback feedback provided by the SWORD system improves patient performance, defined as an increase in the number of correct movements. The design of the study is a cross-over randomized clinical trial. Patients will be randomized into two groups. Both will perform two separate sessions consisting of one exercise - shoulder flexion with elbow flexion at 90 degrees - for 4 minutes in both experimental settings: with and without biofeedback. Group 1 will perform the exercise with biofeedback first and without biofeedback after, with an interval >24h. Group 2 will perform the exercise in the opposite order. The SWORD system will be used to record movement data in both sessions, but the feedback was only active in one of them.
The primary objective of this multicenter observational study is to determine the effect size of the relationship between DCI and neuropsychological impairment 14-28 days and 3 months after aSAH. Secondary objectives are the feasibility to administer and the validity of the MoCA in an intensive care unit setting, as well as the test/retest reliability of the MoCA in patients with acute brain damage in absence of aSAH.
The aim of the present study was to evaluate the effect of visceral mobilization on symptoms of functional constipation and static balance in stroke survivors.
The B-SPATIAL-Registry will provide a tool of quality assessment for stroke specific Treatments such as endovascular treatment. It will also enable the participating hospitals to compare the quality of care of their facility. At the same time, B-SPATIAL will provide an opportunity of scientific evaluation of new therapeutic procedures or specific treatments in stroke (i.e. reversal of oral anticoagulation in intracerebral hemorrhage or intravenous thrombolysis), not sufficiently investigated so far. Finally, the B-SPATIAL Registry will allow for an identification of key quality indicators that assure valid quality assessment aiming at a reduced documentation load for future quality management.
The two cerebral hemispheres find themselves in a state of balanced mutual inhibition. A stroke with involvement of motor function leads to a reduced excitability in affected hemisphere M1 and to an increased excitability of contralateral M1. Stroke therefore might impair interhemispheric balance, leading to a decreased inhibition of contralesional hemisphere by ipsilesional hemisphere and, in turn, to an increased inhibition of ipsilesional hemisphere by contralesional hemisphere. Permanence of healthy hemisphere hyperactivation in chronic phase after stroke is usually index of little functional recovery and is correlated with a greater ipsilateral structural damage. Robot-mediated physical therapy is an innovative rehabilitation technique that is effective in stroke patients. In this study, the investigators will add a non-invasive brain stimulation protocol with Transcranial stimulation with direct current (tDCS) to the robotic treatment in chronic stroke patients. tDCS is a non-invasive brain stimulation technique that is able to modulate cortical excitability. The hypothesis is that dual t-DCS (ipsilesional excitation and concomitant contralesional inhibition) could restore interhemispheric balance improving the benefits of robotic therapy with Armeo Power®.