View clinical trials related to Stroke.
Filter by:This is a functional near infrared spectroscopy (fNIRs) study designed to screen for risk of falls after diagnosis of stroke and initial intervention.
The research purpose is to investigate the feasibility of using a motor-cable-driven system for wrist and forearm recovery of hemiplegic subjects suffered from stroke, where assistive force would be generated from cables connected to pulleys and electrical motors. The system may use EMG signal to control the movements.
This is a prospective, single center, non-randomized study with two parallel arms intended to study if 4D Intracardiac echocardiography (4D-ICE) (Nuvision, Nuvera TM) will provide better visualization of the anatomical landmarks from the larger imaging volume and provide optimal intra procedural guidance similar to Transesophageal echocardiography (TEE) (GE 6VT-D ULTRASOUND TRANSDUCER) for Left atrial appendage closure (LAAC). The study will enroll approximately 52 subjects and will be followed through 12 months.
Walking difficulties are common symptoms after stroke, significantly reducing quality of life. Walking recovery is therefore one of the main priorities of rehabilitation. Wearable powered exoskeletons have been developed to provide lower limb assistance and enable training for persons with gait impairments by using typical physiological movement patterns. Exoskeleton were originally designed for individuals without any walking capacities, such as subjects with a complete spinal cord injury. Recent systematic reviews suggested that lower limb exoskeletons could be valid tools to restore independent walking in subjects with residual motor function, such as persons post-stroke.The aim of the study was to identify the end-users needs and to develop a user-centered-based control system for the TWIN lower limb exoskeleton to provide an efficient post-stroke rehabilitation of gait. The investigators thus carried out the development and validation through evaluation sessions performed on healthy clinical experts and persons with stroke to evaluate TWIN-Acta usability, acceptability, and barriers of usage. A phase two includes a pilot study of efficacy of using the TWINActa for gait rehabilitation for persons with stroke.
Acute hemorrhagic stroke is a series of neurosurgical diseases characterized by bleeding with high morbidity and mortality. It accounts for about 20% of all strokes worldwide and mainly includes subtypes such as intracerebral hemorrhage (ICH) and subarachnoid hemorrhage (SAH). Multimodal computed tomography including non-contrast computed tomography, computed tomography angiography and computed tomography perfusion, is of great important in understanding pathophysiological changes, evaluating prognosis and guiding interventions in these diseases.
The objective of this trial is to compare two different commercially available left atrial appendage occlusion (LAAO) devices in patients with non-valvular Atrial fibrillation/ atrial flutter (AF) at increased risk for stroke with regard to safety and efficacy. The investigators hypothesize that LAAO using the LAmbre occlusion device (Lifetech Scientific, Shenzhen, China) is non-inferior to LAAO using the AMPLATZER Amulet occlusion device (Abbott Medical, Chicago, ILL, USA) with regards to the primary endpoint, which is peri-device leak (PDL) size 3 months after LAAO, as assessed with transesophageal echocardiography (TOE) in patients with non-valvular AF.
Stroke survivors with lower limb disability can improve their walking speed with high-intensity interval training (HIIT) rehabilitation therapy. However, some individuals may not respond to HIIT even when fully adherent to the program. To address this, the investigators propose to build a predictive model that identifies if a Veteran with chronic subcortical stroke will improve their walking speed with HIIT by incorporating blood lactate as an early predictor of exercise response, and inhibitory neurotransmitter gamma-aminobutyric acid (GABA) and regional cerebral blood flow (CBF) as predictors of the brain's potential to respond, while also taking into consideration other factors such as comorbidities, demographics, and fitness levels.
Stroke causes the interruption of blood flow towards the brain cells which results in cell death and lead to variety of disorders including deficits in balance and gait. It is well known that it is causing death and disability .The incidence of stroke is increasing in low-income countries because of not using evidence-based practice in health-related conditions in these countries. Action observation training is one of the new developing rehabilitation technique that targets motor learning by the activation of mirror neurons and is the most important approach that targets the motor and functional recovery in stroke patients. A new treatment approach i .e action observation therapy, in which the movements are observed by the patient to provide visual stimulus, then patients are asked to perform those movements. A new approach acoustic stimulation is introduced for improving gait and balance in post stroke patients in which individual patient cadence is used to adjust the beats of sound so that auditory stimulation causes recovery.
This is a single-center randomized control trial assessing the impact of a personalized video-based educational platform on patients satisfaction and stroke knowledge in the context of chronic stroke.
The ReHandyBot is a robot for hand rehabilitation after stroke. The aims of this study are (1) to investigate the feasibility of unsupervised therapy with the ReHandyBot with stroke inpatients, first in a rehabilitation clinic and then at participants' home, (2) to evaluate the usability of the ReHandyBot (user interface, implemented exercises, and gaming environment, which were adapted for independent usage), and (3) to quantify the dose of additional robotic therapy that patients perform without supervision. The study consists of two primary phases. The first is a familiarization phase performed at the clinic, where therapists teach to the participants how to perform the exercises with the robot. Then, if capable of training with the robot safely, after discharge from the clinic participants can bring the robot home and autonomously train with it. The hypothesis is that unsupervised therapy might be a possible way to increase therapy dose for stroke patients, with the potential to further improve recovery of hand function, with minimal additional burden for therapists and for the healthcare system.