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822 active trials for Stroke

Telemedicine Efficacy in Medication Adherence in Post-ischemic Stroke Patients

Telemedicine is an incipient resource to support the stroke system of care in Colombia. Several studies had demonstrated that patients benefit by implementing telestroke, for instance, providing timely and appropriate neurological consultation, diminishing accessible barriers, improving medication adherence for secondary prevention and facilitating linkages between patient and physician, especially for those in rural or neurologically underserved areas. Hypothesis: The use of Telemedicine improves medication adherence in Post-ischemic Stroke. Study Design: This is a randomized, single-blind, clinical trial to assess the efficacy of Telemedicine, over medication adherence in Post-ischemic Stroke subjects from Colombia. Population: Eighty-four Post-ischemic Stroke subjects, subjects of both genders, over 18 years old, with a first stroke will be included. Ethical Aspects: The study will be conducted according to the Helsinki declaration, the good clinical practices guidelines and the Colombian legislation. Prior to entering the study, patients must sign a written informed consent that has been approved by the Institutional Ethics Committee of Fundación Cardiovascular de Colombia. Overall objective: this study aims to determine the efficacy of telemedicine on pharmacological adherence in post-ischemic Stroke Participants. Focus of study: Adherence to secondary stroke prevention medication.

Start: May 2021

Exercise Primed Stroke Rehabilitation

Stroke is a leading cause of disability in the U.S. and many Veteran stroke survivors live with severe disability. Despite recent advances in rehabilitation treatments many stroke survivors have persistent physical and mental difficulties such as reduced physical and cognitive function and depression. Developing innovative treatments that address these problems is necessary to improve long-term outcomes for stroke survivors. Aerobic exercise (AEx) can improve physical and cognitive function, and reduce depression. Additionally, AEx may enhance physical rehabilitation by making the brain more receptive to, and consequently improving the response to an intervention. Therefore, combining AEx with physical rehabilitation has the potential to improve multiple aspects of stroke recovery. This study will examine the effect of combining AEx with physical rehabilitation on physical and mental function in stroke survivors. By gaining a better understanding of the effects of this combined intervention the investigators aim to advance the rehabilitative care of Veteran stroke survivors.

Start: July 2021

Prospective Monitoring of Non-Vitamin K Oral Anticoagulants in Older Adults With Atrial Fibrillation and Frailty

The objective of this study is to establish a near-real-time prospective monitoring program in Medicare, Optum and MarketScan Research data to evaluate the benefit of new cardiovascular disease (CVD) drugs for older adults with frailty. Prospective monitoring program seeks to find early effectiveness and safety signals of new drugs by updating the analysis at regular intervals as new Medicare data become available. This study specifically aims to emulate a prospective surveillance of the effectiveness and safety of non-vitamin K oral anticoagulants (NOAC) vs. a comparator, warfarin, in older adults with atrial fibrillation and different frailty status. This program will be enhanced by incorporating a novel claims-based frailty index, which has been shown useful in assessing how the benefits and harms of drug therapy vary by frailty.

Start: March 2021

Impact of Undernutrition in Patients Over 70 Years of Age Thrombolysed and/or Thrombectomized for Stroke

Undernutrition is a frequent problem in hospitals (at least 30% of patients, SENECA-NHANES studies). Its impact on morbidity and mortality is well known in gerontology, oncology and intensive care. There are very few neurovascular studies dealing with the consequences of undernutrition present before the stroke. Indeed, most of the medical literature concerns only undernutrition acquired after a stroke. The investigator propose to analyze medical data from a cohort of patients over 70 years of age thrombolysed and/or thrombectomized in the neurovascular department between the years 2014 and 2019.

Start: March 2021

Powered Orthotic Exoskeleton Training in Stroke

Veterans who suffer strokes often have disturbances in the ability to walk that reduces independence and quality of life. Alterations in gait combined with general decreased activity are associated with reduced muscle strength of the paretic leg. This leads to cardiovascular deconditioning and reduced quality of life. There is a new and novel battery powered device (Keeogo powered orthotic exoskeleton) that uses motors that assist knee movement while walking, sitting down, and standing up. The Keeogo monitors hip movement to assist the knee, making it simple to learn how to use. If successful, this project will show how this device will help improve the ability to walk and provide evidence to support larger clinical trials in a home and community setting to improve mobility, increase muscle mass and strength in the legs, as well as improve general health and quality of life. Lastly, this device could be used to increase motivation and confidence in a person to walk for longer periods of time and distance, providing the ability to walk in places that were previously inaccessible.

Start: November 2020

Improving Quality of Life for Veterans With Stroke and Psychological Distress

The study will create a treatment to improves mobility, physical activity, engagement in activities with family and friends and overall satisfaction with life for Veterans who have depression and anxiety after having a stroke. The treatment will then be tested to ensure it makes the desired improvements in the Veterans.

Start: November 2019

Spanish Version of the Brief-BESTest in Stroke Patients

The aim of this study is to adapt and validate the Spanish version of the Brief-BESTest in stroke patients

Start: September 2021

Neurofeedback Intervention for Reading Deficits in Subacute Stroke

The overall goal of this project is to advance a biologically-based approach to treatment of reading disorders after stroke, which will expand the limits of cognitive rehabilitation. Using a novel brain imaging technique, called real-time functional magnetic resonance imaging (fMRI) neurofeedback combined with right hand motor imagery, this project will re-instate brain activity in the left language-dominant hemisphere. Stroke patients will practice modulating their own brain activity using fMRI neurofeedback signal and will select the most effective mental strategies that help them maintain brain activation patterns associated with better reading recovery.

Start: July 2021

Atrial Fibrillation After PFO Closure

An increased risk of atrial fibrillation (AF) after patent foramen ovale (PFO) closure was observed in randomized trials but systematic screening of AF was not performed in these studies. Purpose: The objective of this study was to evaluate incidence of AF in patients who underwent percutaneous PFO closure with serial 24-hours ambulatory ECG (AECG) monitoring during 6 months follow-up. Primary endpoint was incidence of AF on ECG monitoring. Secondary endpoints were clinical outcomes (symptoms, hospitalization from cardiovascular causes, ischemic stroke, or bleeding) up to 6 month follow-up.

Start: March 2020

Effectiveness of Multichannel Functional Electrical Stimulation

The purpose of this pilot study is to determine whether two weeks of multi-channel FES along with task-specific training will improve UE function when compared to traditional rehabilitation or usual care. The secondary purpose of this study is to find whether two weeks of multi-channel FES along with task-specific training will improve shoulder range of motion, grip strength, and patient reported function when compared to traditional rehabilitation or usual care in patients with unilateral stroke resulting in hemiplegia.The following null hypotheses are established for this study: There will be no difference in UE function when using multi-channel FES along with task-specific training compared to traditional rehabilitation or usual care in patients with first time stroke and hemiplegia during in patient stroke rehabilitation. There will be no difference in shoulder range of motion and grip strength when using multi-channel FES along with task-specific training compared to traditional rehabilitation or usual care in patients with first time stroke and hemiplegia during in patient stroke rehabilitation. There will be no difference in self-reported upper extremity function when using multi-channel FES along with task-specific training compared to traditional rehabilitation or usual care in patients with first time stroke and hemiplegia during in patient stroke rehabilitation.The research design for this experimental study will be a randomized controlled trial. The manipulated independent variable in this study will be 1) FES using Xcite with traditional therapy and 2) traditional therapy. The dependent variables in this study are the following: Upper extremity function measured by The Action Research Arm Test, The Box and Block Test, and The Nine-Hole Peg Test; Grip strength measured using a dynamometer; Range of motion at the shoulder measured using a standard goniometer; and Participants' perception of improvement in function measured by a modified Patient-Specific Functional Scale.

Start: May 2021

Sonification Techniques for Gait Training

Music therapy is widely used in relational and rehabilitation settings. In addition to Neurologic Music Therapy and other music-based techniques, "sonification" approaches were recently introduced in the field of rehabilitation. The "sonification" can be defined as a properly selected set of sonorous-music stimuli are associated with patient movements mapping. In fact, the auditory-motor feedback can replace damaged proprioceptive circuits with a consequent improvement of the rehabilitation process. Interventions with "sonification" facilitate sensorimotor learning, proprioception and movements planning and execution improving global motor parameters. This study proposes the use of musical auditory cues which includes the melodic-harmonic component of the music. This kind of sonification makes the feedback pleasant and predictable as well as potentially effective. The investigators propose to apply and assess the effectiveness of this kind of sonification on gait training and other secondary outcomes in stroke, Parkinson's disease and multiple sclerosis population. Also, the investigators will assess the impact of "sonification" on the level of fatigue perceived during the rehabilitation process and on the quality of life. The study is a multicenter randomized controlled trial and will involve 120 patients that will undergo standard motor rehabilitation or the same rehabilitation but with the sonification support. The interventions will be evaluated at the baseline, after 10 sessions, after 20 sessions and at follow-up (one month after the end of the treatment). The assessment will include functional, motor, fatigue and quality of life evaluations. The collected data will be statistically processed.

Start: January 2021

Advanced Cardiac Imaging To Predict Embolic Stroke On Brain MRI: A Pilot Study

Demonstrating the pathophysiological link between Left Atrial (LA) and Left Atrial Appendage (LAA) pathology and embolic strokes in non-Atrial Fibrillation (AF) individuals represents a major advance in stroke prevention strategies. Instead of relying on non-specific criteria for stroke risk assessment, the investigators propose to identify individuals with high-risk of embolic stroke using imaging criteria that reflect the underlying pathophysiology of embolic stroke of cardiac origin. the investigators can therefore lay the groundwork for future anticoagulation strategies for stroke prevention beyond AF.

Start: April 2021

Error-augmented Walking on Gait Performance and Brain Activities in Stroke

This three-year study is proposed to document the effect and further implementation of error-augmented walking on gait performance and brain activities in individuals with stroke. Note that brain activations of post-stroke individuals during locomotion is a relatively unexplored realm. In the first year, study aims to observe the gait performance and brain activity of post-stroke and healthy participants when they walk on the split-belt treadmill, which inputs errors and causing adaptation during locomotion. Second year, study focuses on the long-term effect in aspect of brain activation and gait performance after training the post-stroke individuals with error-augmented treadmill walking. Lastly, study aim to investigate the long-term effect of practically applying the concept of error-augmented training strategy into clinical physical therapy. The first-year study is a cross-sectional study to recruit post-stroke and healthy participants. Gait performance will be measured by GaitUp system and brain activity during each walking trails will be measured concurrently by functional near infrared spectroscopy (fNIRS). Cadence, stride time, stride length and swing cycle are the gait parameters that will be recorded. Also, symmetry ratio and variability of temporal and spatial parameters will also be calculated. Brain area of interest in this study will be bilateral premotor cortex (PMC), supplementary motor area (SMA) and medial part of primary motor cortex (M1). Study will run one-way analysis of variance (ANOVA) with repeated measures and, if needed, Tukey post hoc test will be used to document the within group and between group differences with p<.05. The second year and third year study are single-blinded (assessor), randomized controlled trials. In the second year, study will recruit and randomize post-stroke participants into one of the two training groups, error-augmented treadmill training group (ETT group) and active control group (AC group). In ETT group, participants will practice split-belt treadmill walking. And participants in AC group will received traditional treadmill walking. The training duration will be 40 minutes per session, 3 sessions per week for a total of 4 weeks for every group. There will be three evaluations, chronologically, on one day before intervention, one day after completion of intervention and one month after completion of intervention. Gait performance, brain activity, dynamic gait index and sensorimotor ability of lower extremity will be documented. Two-way ANOVA and Tukey post-hoc test will be used to determine the training and follow-up effects with p< .05. During the third year, individuals with stroke will be recruited and randomized to one of the two group, error-augmented concept combined physical therapy group (EAPT group) and conventional physical therapy group (CPT group). Participants in the CPT group will receive thirty-minute conventional physical therapy each session. Instead of training on a split-belt treadmill, participants in EAPT group will receive fifteen-minute walking trainings that implement the error-augmented concept and another fifteen-minute conventional physical therapy each session. The training duration will be 40 minutes per session, 3 sessions per week for a total of 4 weeks for every group. The outcome measurements, and statistical analysis are the same as those described in the second year.

Start: July 2020

BCI-controlled NMES in Subacute Stroke

Stroke patients with severe upper limb movement deficits have limited treatment options and often remain severely handicapped at the chronic stage. Recent findings have suggested that poor motor recovery can be due to severe damage of the cortico-spinal tract (CST), the neural fibres connecting the movement regions of the brain to the spinal cord. Hence, to improve recovery of upper limb movements it will be crucial to re-establish and strengthen CST projections. Recent studies provided evidence that closed-loop brain computer interface-driven electrical stimulation of the paretic muscles can induce clinically important and lasting recovery of upper limb function, even in patients with chronic, severe motor affection. In this treatment approach, movement intentions of the patients are detected with electroencephalography and real-time analyses. This triggers an electrical stimulation of affected upper limb muscles. In this study, the investigators hypothesize that neuromuscular electrical stimulation (NMES) applied contingent to voluntary activation of primary motor cortex, as detected by a brain-computer interface (BCI), can help restore CST projections. This might improve recovery of patients with severe upper limb movement deficits. Treatment will be started within the first 8 weeks after stroke onset.

Start: January 2018

American Heart Association- Stroke/Hypoxia Study

Of the 795,000 people who experience a stroke every year in the US, only a small percentage will achieve full recovery. While current therapies promote strength and endurance, none directly address the unique potential of the brain to reorganize following injury. The goal of this project is to explore the effects of a novel therapy, acute intermittent hypoxia (AIH). During this therapy, individuals receive brief bouts of reduced oxygen levels by inhalation through a face mask. (This is akin to being on top of a tall mountain). In brief exposures, AIH is known to trigger the release of specific proteins that help the brain adapt to oxygen reductions. Published results in people with incomplete spinal cord injury have shown that AIH enhances muscle strength and coordination rather quickly. The research team aims to study the effects of AIH in stroke survivors.

Start: February 2019

Exoskeleton-assisted Training to Accelerate Walking Recovery Early After Stroke: the TARGET Phase II Study

Phase II: Investigating the effects of additional robot-assisted gait training either initiated early (2 weeks post-stroke) or delayed (8 weeks post-stroke) after stroke onset.

Start: November 2018

Investigation Of The Relationship Between Imagery Ability, Balance And Functionality After Stroke

It was aimed to determine the relationship between post-stroke imagination ability, balance, and functionality, and to compare the motor imagery skills of those who had stroke with compatible healthy individuals.

Start: March 2021

New Oral Anticoagulants (NOAC) in Stroke Patients

Registry to explore characteristics, use and management of new oral anticoagulants (NOAC) and vitamin K antagonists (VKA) treatment among patients with atrial fibrillation (AF) and recent cerebrovascular disease in a "real-world" setting at a stroke centre.

Start: March 2013

Improving Bi-manual Activities in Stroke Patients With Application of Neuro-stimulation

Noninvasive brain stimulations (NIBS) will be used in healthy volunteers and in chronic stroke patients to improve bimanual activities and motor learning. Functional magnetic resonance imaging will be used to evaluate the mechanisms underlying bimanual activities and motor learning in healthy volunteers and in chronic stroke patients. A neuro-rehabilitation robot (REA2PLAN, AXINESIS, Louvain-la-Neuve, Belgium) will be used for motor learning.

Start: October 2014

Evaluation of Oral Screen Training With IQoro as Treatment for Dysphagia After Stroke

Purpose The purpose of the study is to evaluate if training with oral screen IQoro® improves swallowing in patients with dysphagia after stroke. Method Inpatient from a stroke unit in Sweden who have been assessed with fiberoptic endoscopic evaluation of swallowing(FEES) which proves swallowing difficulties (dysphagia) were recruited. The participants were randomise to control- or intervention group. Both groups received usual care. The intervention group were instructed to oral screen (IQoro®) training for 13 weeks. Follow up with FEES was made 13 weeks post of recruitment. The assess with FEES was recorded and the recordings are going to be analyzed afterwards to compare the swallowing ability between baseline and follow up in group and between group.

Start: April 2019