View clinical trials related to Stroke.
Filter by:Due to the importance to use standardized shared protocols in the rehabilitative setting of cerebrovascular diseases, an harmonization and redefinition of the Don Carlo Gnocchi Foundation rehabilitative model was carried out. Such process was in line with the Evidence Based approach of Cochrane Rehabilitation.
Multinational, investigator-initiated study of oral anticoagulation versus no anticoagulation for the prevention of stroke and other adverse cardiovascular events in patients with transient perioperative atrial fibrillation after noncardiac surgery and additional stroke risk factors.
The first week after a stroke is a particularly important time, as improving blood flow may limit secondary ischaemic damage to the brain and help reduce the overall burden neurological injury and future disability. Small studies in patients with stroke have shown that moderate aerobic exercise increases blood flow to the brain, however, no studies have evaluated the safety of aerobic exercise within the first week after stroke, nor whether it results in changes to cerebral blood flow. Remote ischaemic conditioning (RIC) is when ischaemia is induced to a limb for short periods of time by inflating pressure cuffs around arms or legs to above systolic pressures (mmHg). This procedure is performed for periods that avoid physical injury to the limbs, but induce neurohormonal, systemic or vascular changes in the body. These changes often result in improved blood supply to various areas of the body. The use of RIC in the acute period after stroke is currently being investigated in a number of large randomised controlled trials e.g. RECAST, RESIST, however, our understanding of how RIC actually works is incomplete. Importantly, there is scarce data on the acute effects of RIC on cerebral blood flow (CBF), a potentially pivotal mechanism behind its effects. We propose an exploratory study to evaluate whether it is feasible, acceptable and safe to undertake low and moderate intensity aerobic exercise or remote ischaemic conditioning (RIC) in patients during the acute period after stroke, and whether either of these interventions result in changes to cerebral blood flow velocity (CBFv) in the major cerebral arteries. We will compare any changes to those in a cohort of healthy volunteers.
The FES-ABLE project results from an Iberian partnership and aims to evaluate the impact of an intervention based on a functional electrical stimulation (FES) prototype on the upper limb movement quality during functional tasks. The results of this project will contribute to the definition of the therapeutic window of FES to improve upper limb function in stroke rehabilitation.
Stroke is one of the leading health problems in the community and it is the most common life-threatening neurological disease impairing the quality of life. Early rehabilitation of stroke is very important. The purpose of our study was to evaluate, through clinical examination, whether there was any difference between patients who underwent early rehabilitation and those who underwent late rehabilitation in terms of improvements in motor and functional impairment after rehabilitation, and also to evaluate this difference objectively by analyzing white-matter pathways (corticospinal tracts) using DTI.
The overall objective of the proposed study is to carry out usability and design-evaluation assessments of the BURT robotic device for delivering long-term intervention in stroke survivors. The BURT is an upper extremity robotic device that enables the user to see and feel engaging games that encourage intensive therapy. The investigators intend to recruit up to 10 stroke survivors over the course of the study. Participants will train their arm with the BURT for 18 sessions over approximately 6 weeks then participate in a question/answer formatted discussion with research staff to discuss the usability of the device. The investigators will also assess participant's arm function at baseline and after the training sessions.
WeReha is an innovative device for the home rehabilitation of stroke patients developed within the scope of the EU funded project MAGIC-PCP [5]. WeReha is a system that allows patients to perform exercises in a home environment with remote supervision integrated within regular rehabilitation. The principle on which the product is based is that of biofeedback guided rehabilitation, designed to stimulate muscle recovery and contribute to a more effective and more motivating rehabilitation of neuro-motor patterns. WeReha is completely adaptable, allowing only authorized to assign exercises, by planning specific sequences of movements. WeReha product is composed by the following elements: - a tablet with a proprietary application on it (the "WeReha app") - an inertial sensor with accelerometers, gyroscopes and magnetometers (the "sensor") - elastic straps allowing the user to wear it on different parts of the body (the "straps") - a series of 3D printed objects where the sensor can be placed that become animated (the "smart objects") - a web portal for clinical staff through which they can manage and monitor users (the "web-application") The WeReha app presents the patient with a series of rehabilitation exercises in the form of a number of interactive games, driven by body movement, which is captured by the sensor or the hand specific movements using the smart objects. A session with WeReha always starts with a questionnaire on the system, through which the software gains an understanding of the patient's health conditions and the presence or not of a caregiver for the session. Based on this questionnaire, the software adapts the daily session to minimise risks while maintaining a high level of rehabilitation to help the patient reach their goals. The device works with and without an internet connection, but when the device is connected to the internet, supervisors are able to provide supervision and remote support through a web application. The web application is hosted on a dedicated server located inside the hospital. Only trained staff will be provided with access to the web application with a unique username and password required for sign on. The exercises assigned for the client to perform at home, are at the discretion of the clinician who is caring for the patient and might require the presence of a caregiver. The goal of this study is to investigate the applicability and utility of an innovative technology product such as WeReha to the home rehabilitation of stroke patients as an integrative solution to a conventional exercise program and to assess its acceptance by the patient, caregivers and clinic professionals. Patients will use WeReha for their home rehabilitation in addition to traditional treatments for up to 12 weeks. The Inclusion criteria for the study have been kept broad in order to assess these factors on a large enough scale, so as not to limit the usage of the device to a specific sub-group of patients. If patients enrolled are in a subacute phase (i.e. within the first 6 months after the stroke onset), they will be enrolled before leaving the hospital or the rehabilitation department and reaching their home. If patients are considered to be in their chronic phase (i.e. over 6 months after stroke onset), they will be enrolled during an outpatient treatment or on a volunteer basis. Before starting the trial with WeReha, every patient enrolled will receive proper training from a person dedicated to the project (who will be referred to as the "dedicated figure") appointed by the hospital and financially supported by the sponsor of the study.
The hypothesis is that in patients with stroke, abnormalities of retinal microvascularization shown on color fundus photography and the depletion of retinal capillary density evaluated by OCT-A are markers of acute impairment of microcirculation of the central nervous system and are correlated with lesions on brain imaging. Patients hospitalized for stroke MRI-confirmed, will be included. An ophthalmologic assessment including color fundus photography (CFP) and OCT-A will be carried out after stabilization and at 3 months follow-up. Outcomes assessor will be blinded.
A brain injury can damage the brain, so that it no longer receives information about the space around one side of the world. If this happens, people may not be aware of anything on one side, usually the same side they also lost their movement (the most affected side). This severe condition is called spatial neglect. Currently there is no recommended diagnostic test or clinically-proven treatment for the condition. In a recent study, the investigators found a long-lasting reduction in neglect if people practiced picking-up an object with their unaffected hand. This intervention is called Spatial Inattention Grasping Home-based Therapy (SIGHT). It requires people to lift wooden rods of different lengths. Once a person is familiar with the task, they can practice on their own at a time convenient to them in their homes. The investigators have developed the first computerized version of SIGHT (c-SIGHT) as well as a novel diagnostic test for neglect using portable low-cost motion-tracking technology that can be used in the patient's home. In the proposed study, the investigators will investigate how usable and acceptable this technology is in people's homes. Stroke survivors (recruited from community settings) will undergo a 7-day self-led training at their homes with c-SIGHT. At the end of the intervention, 1:1 semi-structured interviews will be carried out with both stroke survivors and carers to investigate usability and acceptability of c-SIGHT. Moreover, spatial neglect, carer burden and motor function will be assessed pre- and post-completion of c-SIGHT.
To investigate the effect of whole body vibration on upper limb motor function in hemiplegic patients with subacute stroke