View clinical trials related to Stroke.
Filter by:To further develop interventions, the investigators need a better understanding of which task requirements (i.e. size or weight of object, location in workspace, etc.) drive a person after stroke to use 2 hands (as opposed to 1), and how the severity of their injury impacts this relationship and compare this to reaching in age-matched healthy controls subjects. A better understanding of this relationship will promote more informed development of rehabilitative interventions. This study proposes to explore in people after stroke and healthy controls: i.) how specific functional tasks requirements relate to 1 vs. 2 handed use, and ii.) how stroke severity impacts this arm use. We are proposing to study 15 individuals more than 6 months after stroke in the CSU Motor Behavior Lab for a two x 3 hour session of task-related reaching in sitting and 33 age matched (double sample size) healthy controls. The investigators will systematically vary task requirements (i.e. object size or weight, location in workspace, etc.), and record use of 1 versus 2 hands using videotaping as well as recording of quality of arm movement (kinematics) and muscle activity (EMG) in both arms.
BOSS-Trial I is a phase 2 clinical trial with the following objectives; 1. to prove the feasibility of a Bluetooth-equipped sphygmomanometer system in real-world clinical practice and wireless connection to the main server; 2. to prove the feasibility of the BP management strategy, including the pre-specified BP range, BP management algorithm, and behavioral; and 3. to gather information for the phase 3 trial including BP variability indices and their potentials as a treatment guidance.
Poststroke spasticity (PSS) is one of the common complications in stroke patients who had a brain injury leading to limbs weakness and impaired coordination between agonist and antagonist contraction. PSS leads some physical impairments and functional deficits. The clinical managements for PSS are stretching and range of motion (ROM) exercises, antispasticity splint, neuromuscular electrical stimulation, oral medications, local injection with phenol or botulism, or surgery. Recently, some investigators tried to use Kinesiotaping (KT) for spasticity management or postural control. They found some benefits in walking ability and upper extremity function facilitation after stroke. 40 subacute stroke patients with hemiplegia would be enrolled in this study. These 40 patients will be randomly divided into the experimental and control groups. In experimental group (n=20), the patients will perform combined KT and 15- min stretching exercise for upper extremity twice daily and regular rehabilitation program for 3 weeks. In the control group (n=20), the patients will perform 15- min stretching exercise for upper extremity twice daily and regular rehabilitation program for 3 weeks. Before intervention, immediately and 2 week post intervention, all patients will receive associated physical examinations, hand function evaluations, and sonography.
This is a multi-center, prospective,continuous registry study. The investigators will include 3000 young adult (18-45 years old) patients with confirmed first-ever acute ischemic stroke in China. The main purpose of this study is to build the study cohort of young ischemic stroke patients in China, and to compare the prognosis and stroke recurrence of young patients with different ischemic stroke subtypes. Secondary objectives are trying to find biomarkers of stroke recurrence.
This study is a non-randomized, Phase 2 clinical trial designed to measure the cerebral blood flow (CBF) response to inhaled nitric oxide in acute ischemic stroke patients and healthy subjects. The monitoring is a 35 minute session during which cerebral hemodynamics will be monitored with both diffuse correlation spectroscopy (DCS) and transcranial doppler ultrasonography (TCD) while blood pressure, heart rate, cardiac output, respiratory rate, end oxygen saturation, and inhaled nitric oxide (NO)/nitrogen dioxide (NO2) concentration, are continuously monitored.
This study will be the first study to use ischemic preconditioning (IPC) as an intervention to improve stroke rehabilitation. IPC is a well studied, well tolerated intervention which has been shown to improve regional blood flow, motor neuron excitability and muscle function in multiple patient groups and in young, healthy subjects. Because IPC targets three physiological systems which are all affected by stroke, we hypothesize that repeated bouts of IPC during the first days to months following stroke (when the majority of recovery occurs) will make traditional rehabilitation strategies more effective.
Title: Optimal Delay Time to Initiate Anticoagulation after Ischemic Stroke in Atrial Fibrillation (START): a pragmatic, adaptive randomized clinical trial. Primary Objective: • To determine the optimal time to initiate anticoagulation with a Non-Vitamin K Oral Anticoagulant (NOAC) after ischemic stroke in patients with non-valvular atrial fibrillation. Secondary Objectives: - To compare the rates of primary adverse outcomes in a per protocol analysis - To compare 30 day clinical outcomes by the modified Rankin scale among the time-to-treatment groups - To compare 90 day clinical outcomes by the modified Rankin scale among the time-to-treatment groups - To explore the optimal timing in subgroups of age, sex, outcome category, and NOAC choice
Clinical randomized clinical trial to assess the effectiveness of incorporating inspiratory and expiratory muscle training (IEMT) in the rehabilitation of stroke patients with dysphagia in terms of functional outcomes, comorbidities, survival and quality of life. This project also incorporates a longitudinal study to assess the clinical impact of dysphagia on body composition and nutritional status in stroke patients.
Weakness is a major cause of disability in stroke survivors. Rehabilitation techniques are often not effective in restoring full function of the upper limb. Specifically, many individuals remain with weakness in the hand, preventing its return to full use. Robotic therapies have been developed as exercise tools for stroke survivors. Devices, such as the InMotion2, have been shown to be useful in restoring some motor function in the upper limb. However, most existing devices designed to be used with the upper limb have primarily been developed to treat the shoulder, elbow and wrist. They have not specifically addressed hand function. Tyromotion, Inc. has developed the Amadeo, which is primarily intended to provide rehabilitation for patients with neurological or orthopedic deficits in hand function. Initial clinical testing has demonstrated the practicality of using this device in a population of stroke survivors, although further research is needed to better understand the usefulness of the Amadeo device as compared with conventional rehabilitation methods. The purpose of this study was to compare results of training with the Amadeo device or training with conventional therapies. A total of 28 subjects from two separate sites participated in the study and underwent baseline testing of upper limb motor and sensory performance and function. Subjects were then assigned to one of two treatment groups with a 50:50 chance of being in either group. One group underwent training with the Amadeo device and the other group underwent training with conventional therapy. All training sessions were 60 minutes in duration, three days/week for eight weeks (24 total sessions). Subjects were reassessed on completion of the training program.
The investigators ultimate goal is to personalize brain stimulation for stroke so outcomes of the upper limb can be maximized for each individual patient. Several groups including the investigators have recently theorized that personalizing stimulation so as to selectively stimulate iM1 in mild, and cPMd in patients with greater severity would help generalize benefits of stimulation. The investigator premise that variances in expressions of plasticity can explain how to best stratify patients for robust, personalized stimulation.