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Showing 1-20 of 85 trials
NCT02369770
Early after stroke, patients often have significant motor impairment and sensory deficit. Evidence has demonstrated heightened plasticity and significant recovery in the acute phase (first months) post stroke but there has been a lack of effective and practical protocols and devices for early intensive sensorimotor therapy.This research study will conduct a randomized clinical trial of an intensive motor-sensory rehabilitation on patients with acute stroke using a wearable rehabilitation robot. The primary aims are to facilitate sensorimotor recovery, reduce ankle impairments, and improve balance and gait functions. This clinical trial will be conducted on the Study and Control groups of acute stroke survivors.
NCT03359434
A monocentric, non-randomized, prospective study in which each patient is his/her own control. The study investigates 2 methods of blood pressure measurement, within the first 24 hours after reperfusion, i) Continuous measurement of blood pressure with the Clearsight device (Edwards) and ii) intermittent blood pressure measurements with cuff.
NCT07469163
After experiencing a stroke, many individuals encounter difficulties with walking and balance, which can significantly impact their independence. Recent studies have indicated that split-belt treadmill (SBT) training is effective for improving gait metrics, including walking speed and step length asymmetry. The SBT allows each leg to move at different speeds, which has been shown to help chronic stroke survivors learn to walk more symmetrically. However, there is limited knowledge about the dose participants should receive and the safety of SBT training in the early stages of recovery, which is a crucial period for rehabilitation. To address this gap, we are evaluating an innovative SBT with virtual reality (VR) features at the Foothills Medical Center. Our objective is to conduct a study to determine the amount of SBT training patients can tolerate in a day. In this study, stroke survivors will engage in a series of walking exercises on the SBT. We will escalate the duration of SBT walking until participants reach a point where they can no longer continue due to dose-limiting criteria such as fatigue or discomfort. The findings from this initial phase will guide future larger trials to explore the effectiveness of this training method. Ultimately, we aspire to improve rehabilitation strategies for stroke survivors, assisting them in regaining mobility and enhancing their quality of life more effectively.
NCT07443150
The purpose of this study is to evaluate the impact of intensive Body Weight Support Treadmill Training (BWSTT) on the neuroendocrine system and functional recovery in patients during the subacute phase of ischemic stroke. The investigators aim to determine how structured locomotor training influences the concentration of selected neurohormones and how these changes correlate with improvements in gait and balance. Participants undergo a 3-week intensive rehabilitation program, with assessments performed before and after the intervention to identify biomarkers of recovery.
NCT07236216
The present study will use transcranial electrical stimulation (tES) which are transcranial direct current stimulation (tDCS) and transcranial alternating current stimulation (tACS) combined with conventional physical therapy and cognitive-motor dual task gait training in sub-acute (at least 2 weeks after stroke onset) to chronic (within 5 years post-stroke) to investigate the effect on cortical activity, spinal motoneuron excitability, cognition and motor performance. The findings may enhance the evidence to support usages of tES for improvimg cognition, motor performance as well as cortical activity and spinal motoneuron excitability in a clinical setting.
NCT07422636
Infarct growth (IG), Hemorrhagic Transformation (HT) and Cerebral Edema (CE) can be considered pivotal phenomena of clinical deterioration following an acute ischemic stroke. Innovative techniques applied to neuroimaging allow these phenomena to be identified and measured more adequately than techniques and approaches commonly in use. Some circulating molecules are conceptually usable as biological markers of CE, HT, and IG. The correlation between circulating and neuroimaging biomarkers, and the investigation of neuronal structural remodeling induced by ischemia, may provide fundamental details to prevent or contrast clinical deterioration after ischemic stroke. To achieve this goal, the investigators planned to perform translational research on humans and on a novel mouse model of ischemic stroke. More specifically, the investigators planned a clinical prospective observational study on a consecutive series of patients with acute anterior ischemic stroke either submitted or not submitted to revascularization therapies. Serum levels of several blood biomarkers related to inflammation, blood-brain barrier disruption, and reperfusion injury are analyzed in relation to CE, HT, IG, and final infarct volume, evaluated on CT/MRI images, and to 3 months functional status evaluated by the modified Rankin Scale. In parallel, the investigators employ a newly developed experimental model of stroke and recanalization of the distal branch of the middle cerebral artery in mice to study, with advanced optical imaging techniques, the structural reorganization of neurons at the cellular and subcellular level in relation with the blood vessel extravasation (CE) and with the levels of circulating biomarkers at different time points after stroke. The investigators will verify to what extent the animal model can reliably reproduce significant parameters that are evaluated in stroke patients, i.e. circulating biomarkers levels in relation to lesion volume and edema formation. Once validated, the data on the structural plasticity of mice shall be used to infer the mechanisms that determine the clinical deterioration due to IG, HT, and CE.
NCT06589297
Body composition appears to be a prognostic factor for the severity and functional outcome of stroke patients. In this study the prognostic value of two bioimpedance parameters will be studied (skeletal mass index and phase angle) and two temporal muscle measurements (thickness and surface area) to predict the functional outcome of patients at discharge and at 6 months
NCT03737786
SEACOAST 1 is a prospective, randomized, blinded endpoint trial comparing collateral vigor and clinical outcomes, with different forms of GA in patients with acute ischemic stroke due to anterior circulation large vessel occlusion (LVO) undergoing mechanical thrombectomy. The study compares GA with normocarbia (GAN) versus GA with mild hypercarbia (GAH), with a primary outcome of collateral robustness at measured at catheter angiography and clinical efficacy as secondary outcome. It is anticipated that the SEACOAST 1 will be followed by a larger, pivotal trial, SEACOAST 2, with primary clinical endpoints, in which the best method of GA identified in SEACOAST 1 is compared with the alternative strategy of anesthesia care (MAC) with minimal or no sedation. The current study focuses uppn SEACOAST 1, which is to be conducted in University of California, Los Angeles Ronald Reagan Medical Center and Santa Monica Medical Center. All acute stroke patients who arrive to one of these two stroke centers and are deemed eligible for thrombectomy will be considered for the proposed study. Physician-investigators will determine study eligibility. Informed consent to participate in the study will be obtained from legally authorized representatives or competent patients. For non-competent patients without on-scene legally authorize representatives, the consent process will utilize enrollment in emergency circumstances with exemption of informed consent (EFIC).
NCT06828679
This project addresses the imminent challenge of providing adequate motor rehabilitation to a growing number of stroke survivors amidst the ageing population, decreasing age of stroke, and shortage of physical/occupational therapists in Hong Kong through AI and precision rehabilitation. To reduce the socioeconomic burden from the stroke survivors' loss of independence and their care (\>HK$15 billion/year), the efficacy of rehabilitation and efficiency of its delivery must be improved. These goals can be achieved by prescribing them with individually tailored rehabilitations predicted to yield maximal functional return. Defining a predictive model for such personalization remains challenging given the immense heterogeneity of stroke. The investigators aim to build an explainable AI system that predicts a subject's recovery potential and the treatment option that may realize this potential based on multi-modal pre-rehab assessments. Data from clinical, neuroimaging, neurophysiological, and multi-omic evaluations will be collected from stroke survivors (N≥400) before they undergo upper limb rehab with usual care, neuromuscular stimulation, robotic training, or acupuncture. Machine learning-extracted data features will be used to train decision-tree and neural-network AI algorithms for robust predictions. As soon as the model is validated, the investigators will deploy it to implement a personalized rehab program in the community. Our model's ability to predict the optimal intervention from a wide spectrum of input modalities distinguishes ours from previous less-than-accurate models. Our interdisciplinary team of 13 PIs with expertise in neurology, PT/OT, acupuncture, electrical/biomed. engineering, robotics, neuroscience, neuroimaging, multi-omics, data science, and clinical trial management will put us in a world-unique position to execute this project successfully and generate opportunities of interdisciplinary education. In the long run, our prediction system will accelerate marketization of new rehab strategies by facilitating their clinical-trial evaluations in more targeted subjects, thereby leading Hong Kong to be a future global hub of innovative rehabilitation.
NCT07204067
Randomized controlled trial to determine whether mirror therapy (MT), added to conventional physiotherapy, improves upper-limb motor recovery, hand function, spasticity, and range of motion (ROM) in acute stroke compared with conventional physiotherapy alone. Outcomes include ARAT, Motor Assessment Scale, Modified Ashworth Scale, and goniometric ROM.
NCT06972355
Objective: The aim of this study is to compare the efficiency of vision-obscured versus vision-retained treadmill gait training in subacute post-stroke patients. Methodology: Thirty-six patients with stroke (ischemic or hemorrhagic) less than six months old will be included and randomized into two parallel groups. The experimental group will undergo treadmill gait training using an opaque mask, combined with body weight reduction (Lite Gait® harness). The control group will follow the same walking protocol, but with their eyes open. Each session will last 20 minutes, integrated into one hour of rehabilitation, at a rate of three sessions per week for six weeks. Assessment will include single- and double-task walking speed, balance parameters and proprioception. Expected results: The hypothesis is that visual deprivation will stimulate the proprioceptive and vestibular systems to a greater extent, resulting in benefits for postural balance, walking and proprioception. The main hypothesis will be the improvement in the difference between single-task and double-task walking speed. Analyses will be conducted on an intention-to-treat basis, using statistical tests adapted to the nature of the variables. Conclusion: This study could highlight the value of temporary visual suppression as a therapeutic lever in stroke rehabilitation.
NCT06231511
The purpose of this study is to develop and evaluate the use of soft exosuits in patients post stroke.
NCT04129125
The trial is designed to assess the safety and efficacy of using the Zoom Reperfusion System in subjects diagnosed with acute ischemic stroke and undergoing a thrombectomy procedure within 8 hours of last known well.
NCT06936501
Dysphagia is a common complication in patients who have suffered a cerebrovascular accident (CVA), with an incidence ranging from 29% to 81%. Rehabilitation improves dysphagia in 47% of cases within the first few weeks and in 17% within 2-4 months. However, dysphagia can lead to nutritional and respiratory complications, affecting recovery and increasing healthcare costs due to the need for prolonged hospitalizations and readmissions. Malnutrition is a frequent consequence of CVA, with its prevalence increasing from 12% to 50% in patients with prolonged hospital stays. This condition worsens the vital prognosis, as it increases the incidence of complications and slows down functional recovery. Post-stroke dysphagia causes unsafe swallowing and increases the risk of aspiration, pneumonia, and other respiratory infections, worsening the patient's prognosis. Impaired swallowing efficiency leads to oral and pharyngeal residue, aggravating nutritional complications. On the other hand, swallowing safety is characterized by the presence of aspirations, manifesting as coughing, wet voice, and oxygen desaturation during the Volume-Viscosity Swallow Test (V-VST). The dietary management of these patients includes modifying food textures and using thickened liquids, strategies that have been shown to reduce the incidence of aspiration pneumonia. However, adherence to these diets is often low due to dissatisfaction with the texture and taste of thickening agents. In this context, the development of oral nutritional supplements (ONS) with stimulating flavors has been proposed to improve the perception of swallowing safety. Stimulation of the oropharyngeal sensory nerves, through activation by cold and chemical agents such as menthol, enhances swallowing by increasing oral sensitivity and improving the pharyngeal swallowing reflex response. The European Society for Swallowing Disorders (ESSD) recommends sensory stimulation as a therapeutic strategy to compensate for oropharyngeal sensory loss in patients with dysphagia. Previous studies have shown that sensory stimulation activates the swallowing center in the brainstem, accelerating the swallowing response and protecting the airway. In clinical trials with transient receptor potential (TRP) receptor agonists, observed benefits include faster closure of swallowing sphincters, improved swallowing reflex sensitivity, a 50% reduction in microaspirations, and a 67% decrease in pharyngeal residue. Based on this evidence, a new thickened ONS with stimulating flavors such as mango-mint and lemon-mint has been designed to enhance the perception of freshness and swallowing safety. This supplement is already used in clinical practice, but its effect on the perception of patients with post-stroke dysphagia has not yet been evaluated.
NCT07002463
This study aims to compare the outcomes of upper limb motor therapy conducted by a physiotherapist with robot-assisted therapy using the Luna EMG device in patients in the subacute phase after stroke. Additionally, the study will examine the correlation between changes in muscle tone and motor function improvement. The randomized controlled trial will be conducted at the Rehabilitation Department of the T. Marciniak Lower Silesian Specialist Hospital in Wrocław, Poland. Two groups (robot-assisted vs. conventional therapy) will perform identical sets of movements with matched repetition counts over a 6-week therapy period. Functional improvement will be assessed using Fugl-Meyer Upper Extremity Assessment (FMA-UE), Box and Block Test (B\&BT), EQ-5D-5L, and MyotonPro measurements.
NCT06013982
The purpose of this pilot study is to explore the impact that a structured anxiety reduction intervention program has on patients being discharged to home following an acute stroke in an academic medical center. Eligible participants will be screened and recruited by the research team through daily rounds. After completing the informed consent process, the research team will pull demographic information from the electronic health record (EHR) and REDCAP that includes ethnicity and support system. Participants will complete the Anxiety Screen Questionnaire (GAD-7 ANXIETY SURVEY) and will be provided with information regarding stroke support groups available with additional NYU Langone Health and the American Heart Association internet-based information regarding anxiety reduction (NYU Langone Health Anxiety Reduction Bundle). The participants will be encouraged to attend a stroke support group for 3 months and utilize the NYU Langone Health Anxiety Reduction Bundle provided. At the completion of the intervention (3 months), participants will be provided with the GAD-7 ANXIETY SURVEY again and a survey that includes open-ended questions and a program evaluation by email. Analysis will occur after final data is collected.
NCT06763055
This is a domain within the ACT-GLOBAL platform trial to compare the effectiveness of early and appropriate pharmacological interventions in acute intracerebral hemorrhage (ICH) to control secondary brain injury. Up to 2000 patients with presumed spontaneous supratentorial intracerebral hemorrhage (ICH) will be followed for 6 months (or death, if prior to 6 months). Adaptive interim analyses will be used, with statistical triggers to determine if any of the interventions are superior to control. The end of the trial is defined as the date that all participants have completed their 6-month assessment. A large amount of preclinical data indicates that the outcome from ICH is linked to the detrimental effects of breakdown substances from brain bleeds. However, there remains a lack of compelling evidence supporting the effectiveness of any pharmacological intervention that can mitigate the secondary cerebral injury. The INTERACT domain aims to assess the effectiveness of intravenous deferoxamine and low-dose oral colchicine, both individually and in combination, to standard of care alone, on improving functional outcome in patients with spontaneous supratentorial ICH. Those patients who meet eligibility criteria will be randomized to receive one of four interventions: 1. No deferoxamine mesylate and no colchicine (labeled as control) 2. Deferoxamine mesylate only: deferoxamine mesylate at a dose of 32mg/kg/day via intravenous infusion immediately (within 1 hour) post-randomization and continue for the following 2 consecutive days. 3. Colchicine only: 0.5mg of oral colchicine daily for 30 consecutive days. 4. Both deferoxamine mesylate and colchicine: deferoxamine mesylate at a dose of 32mg/kg/day via intravenous infusion immediately (within 1 hour) post-randomization and continue for the following 2 consecutive days; plus 0.5mg of oral colchicine daily for 30 consecutive days.
NCT06686303
Stroke is leading cause of death and disability worldwide, resulting in significant functional limitations and disabilities experienced by stroke survivors, particularly in the upper limb. There is a need for more effective interventions targeting upper limb sensory motor impairments. The aim of this study is to study combined effect of segmental vibrator and neuromuscular electrical stimulation for flexor and extensor muscle groups on upper limb function in sub-acute stroke.
NCT06906588
The goal of this clinical trial is to study the clinical effects of a robotic rehabilitation treatment through a bilateral exoskeleton (Bilateral Robot-Assisted Therapy-BRAT) during standard rehabilitation, on motor recovery, compared to conventional arm re-education in people suffering from stroke in the subacute phase. The main question it aims to answer is what the effectiveness of Bilateral Robot-Assisted Therapy (BRAT) is in rehabilitating the upper limb in individuals with subacute stroke compared to conventional rehabilitation treatment in terms of motor function improvement as measured by the Fugl-Meyer Assessment - Upper Limb (FMA-UL), motor domain. Researchers will compare two groups (Experimental Group - EG and Control Group - CG) to see if the BRAT is more effective than conventional rehabilitation treatment in terms of motor recovery. Participants will be randomly assigned to one of the two treatment groups (EG or CG) and will be clinically and instrumentally evaluated at baseline (T0) and at the end of treatment (T1). EG, in addition to the standard rehabilitation treatment, will perform a 45-minute session of BRAT per day through the Arm Light Exoskeleton Hybrid (Alex RS - Wearable Robotics) robotic system. The CG, in addition to the standard routine rehabilitation treatment, will follow a conventional rehabilitation of the upper limbs without the use of technological devices. Finally, a telephone follow-up is scheduled three months after the end of the treatment.
NCT03688165
This multicenter non-randomized controlled trial aims to investigate the effectiveness (an increase of the walking speed in the 10 Meter Walk Test - 10MWT) of the robotic treatment with exoskeleton or end-effector system compared to the conventional rehabilitative treatment for the gait recovery after stroke, and to compare the possible different efficacy of end-effector and exoskeleton systems in the various post-stroke disability frameworks. All the eligible subjects admitted to rehabilitation centers, both in the subacute phase will be recorded. The experimental group will follow a set of robotic gait training on stationary robotic systems which do not provide overground gait training (Lokomat Pro - Hocoma AG, Volketswil, Switzerland; G-EO System - Reha technologies, Italy). While, the control group will follow traditional gait training composed of all those exercises which promote the recovery of walking ability (please, see the details of the interventions).