View clinical trials related to Cerebrovascular Disorders.
Filter by:We aim to make clear the impact with the mechanisms of variant pathological injuries on the outcomes of CSVD, to find independent imaging markers and establish prediction model of it.
Stroke survivors commonly have respiratory muscle weakness, swallowing disturbance, general weakness, reduced the daily living activities and short of motivation for rehabilitation. Respiratory muscle training (RMT) has been reported to improve the pulmonary function, respiratory muscle strength, exercise capacity, sensation of dyspnea and quality of life in several diseases, but rare in stroke patients. Reviewing previous reports, the protocol, intensity and duration of respiratory muscle training is still variable. Purpose: To investigate the feasibility and efficacy of respiratory muscle training on cardio-pulmonary function, swallowing function, cough function and reduction of incidence of pneumonia in post-stroke patients. Methods: A prospective, single blinded, randomized study. Consecutive patients with diagnosis of stroke will be proved by magnetic resonance image or computerized tomography. Stroke patients, aged 35-80 years old, with inspiratory muscle weakness or swallowing disturbance will be enrolled and randomly divided into control group (usual rehabilitation alone) and experimental group [inspiratory muscle training (IMT) group for patients with inspiratory muscle weakness and expiratory muscle strengthening training (EMT) for patients with swallowing disturbance]. Each patients will receive usual rehabilitation. The investigator expect that RMT will be practical for the restoration of respiratory muscle, swallowing function, cough function and voice quality, thereby reduction of the incidence of pneumonia.
Our primary aim is to investigate whether remote ischemic conditioning (RIC) as an adjunctive treatment can improve long-term recovery in acute stroke patients as an adjunct to standard treatment.
To investigate the therapeutic effect of individualized treatment of antiplatelet in secondary prevention of ischemic stroke.
This study is a randomized, double-blind, placebo-controlled, multicentre, Phase 2 study, with an optional open-label extension, to evaluate the safety, tolerability, and efficacy of RPh201 in subjects with mild to moderate AD who are eligible for enrollment in this study. Subject participation will include a Screening Phase, Treatment Phase, and an Optional Open-Label Extension. The Screening Phase will be up to 4 weeks prior to randomization. Both the subject and their study partner(s) will sign an informed consent form (ICF). At Visit 2, Subjects will be randomized 2:1 to RPh201 or placebo. The Treatment Phase will last for 6 months post-randomization, or until subject withdrawal from the study, whichever comes first. The Optional Open-Label Extension will begin once a subject has completed the Treatment Phase and the subject and their study partner(s) have signed an ICF to continue on the study. The Optional Open-Label Extension will continue for 6 months, or until subject withdrawal from the study, whichever comes first. Subjects who do not participate in the Optional Open-Label Extension will be asked to return for an optional post-study visit 6 months after the end of the Treatment Phase. Subjects may participate in an optional biomarker sub-study. Up to 15 subjects may also participate in an optional FDG-PET sub-study during their study participation. Separate informed consent will be required for both of these sub-studies.
The aim of the current protocol is to study 40 patients, each for 12 weeks, to address hypotheses related to the ability of a telerehabilitation system to (a) improve motor status and disability, (b) collect various forms of patient data from the home, (c) improve risk factor knowledge and control, and (d) assess patient compliance with home-based telerehabilitation. Patients who have returned to their home after stroke will be provided with a telehealth system and be asked to use it 6 days/week for 12 weeks, during which time subjects will use this system for daily rehabilitation therapy, assessments, and education--all on one platform.
The FLOW trial is a randomized placebo-controlled trial analyzing the effect of coupling an anti-depressant, fluoxetine (Prozac), and exercise to improve motor recovery following a stroke.
The interventional study aims to increase the knowledge on arm and hand rehabilitation after stroke within community-based services. The primary objective of the study is to evaluate the feasibility and clinical usefulness of the arm and hand training program (focusing on functional goal- and task-oriented daily life exercises) in combination with the use of an orthotic device in terms of patient compliance and improvement of outcomes. The secondary objective is to compare the effectiveness of the program with or without the use of an orthotic device in a randomized controlled trial.
Gait recovery is one of the main goals of post-stroke rehabilitation where robotic-assisted practice has shown positive outcomes. However, literature lacks of clinical studies on exoskeleton-supported gait rehabilitation. Recently, a wearable exoskeleton (Ekso™, EksoBionics, USA) has been commercialized for re-enabling patients to stand and walk, involving them directly in steps trigger through body weight balance. The main aim of this study is to assess the clinical and neuromuscular effects of exoskeleton-based gait rehabilitation in sub-acute and chronic stroke patients, compared to patients with similar characteristics who will conduct a traditional over-ground gait training. In this multicentric RCT, 162 stroke patients will be enrolled and randomly assigned to the Experimental Group (EG) or to the Control Group (CG). Patients will conduct at least 12 one-hour-sessions (about 3 times/ week) of Ekso™ (EG) or traditional over-ground (CG) gait rehabilitation. Clinical evaluations (lower limb Modified Ashworth Scale- MAS; Motricity Index - MI; Trunk Control Test - TCT; Functional Ambulation Classification - FAC; 10-meter walking test - 10mwt; 6-minute walking test - 6mwt; Walking Handicap Scale - WHS; Time Up and Go - TUG) will be administered to patients at the beginning (T1) and at the end (T2) of the training period. The primary outcome is the distance performed during the 6mwt. A follow up study at 1 month (T3) and at 3 months (T4) after T2 will be conducted.
Fruit and vegetables are a cornerstone of healthy dietary patterns and dietary guidelines worldwide. The supporting evidence, however, is largely derived from observational studies of protective associations with cardiovascular disease (CVD) in health-conscious populations or from randomized trials of the effect of specific fruit or vegetable derived nutrients on CVD risk factors. A growing body of literature has influenced a shift away from a focus on single nutrients to a focus on whole foods and dietary patterns. To what extent fruit and vegetables should contribute to dietary patterns for cardiovascular health and whether specific types of fruit or vegetables should be recommended is unclear. Although previous systematic reviews and meta-analyses have elucidated the association between the intake of total and some specific fruit and vegetables with cardiovascular outcomes, a comprehensive synthesis comparing the certainty of the evidence for the different types of fruit and vegetables in relation to a range of cardiovascular outcomes has yet to be completed. We propose to conduct a systematic review and meta-analysis of the available prospective cohort studies using the Grading of Recommendations Assessment, Development, and Evaluation (GRADE) approach to assess the association between different types of fruit and vegetables and different cardiovascular outcomes that include CVD, coronary heart disease [CHD], and stroke incidence and mortality.