View clinical trials related to Stroke.
Filter by:The goal of this clinical trial is to learn if operant conditioning can reduce spasticity in order to improve walking in stroke patient. The main questions it aims to answer are: - Can participants self-regulate reflex excitability - Can participants self-regulate reflex, reduce spasticity and improve walking Participants will undergo surface stimulation to evoke spinal reflexes and will be asked to control these reflexes therefore reducing spasticity. Researchers will compare result to able bodied participants to see if [insert effects]
Severe trauma, head trauma, stroke and resuscitated cardiac arrest patients requiring endotracheal intubation and mechanical ventilation are at high risk of early-onset ventilator-associated pneumonia (EO-VAP). A short course of systemic antibiotic is recommended for prophylaxis. This study intends to assess the safety and efficacy of 2 alternative mechanical non-invasive airway clearance techniques in the prevention of EO-VAP in an open label randomized pilot trial of 20 subjects per study group i.e., 60 cases. The interventions will be in place for 7 days and the observational periods will be 14 days.
The purpose of this study is to investigate the feasibility and efficacy of intra-arterial TNK and albumin for patients with acute ischemic stroke after successful thrombectomy and whether there is a synergistic effect between TNK and albumin.
A robot arm for upper limb rehabilitation is intended to achieve rehabilitation effects through the study of robot control theory and the integration of sensors such as sEMG. The goal is to reduce the workload of rehabilitation therapists.
Stroke is a leading and growing cause of long-term adult disability. Up to 80% of stroke patients have impaired manual dexterity reducing their independence, return to work and quality of life. Cognitive impairment is also common after stroke and growing evidence suggests a cognitive-motor interdependence with relevance for motor recovery. Previous studies show increased cognitive-motor interference (measured in dual-task) in stroke patients and that combining motor and cognitive task training (in a dual-task) may improve motor function above that achieved by single-task training. This project addresses post-stroke dexterity impairment and its relation to dual-task interference, i.e., the decrease in motor performance when performing a concurrent cognitive task. The overall goal is to provide a proof-of-concept for a dual-task interference training protocol post-stroke. We aim to establish therapeutic efficacy of dual-task vs single-task dexterity training in chronic stroke patients.Single-task training involves visuomotor finger force tracking and dual-task has an additional cognitive components including visual distraction and working memory. Training will be done 4 days/week over four weeks (total 16 sessions). Each session will include 20 mins of conventional therapy (stretching, functional exercises) followed by 40 mins motor task training (either single or dual task). This pilot randomized clinical trial will include 40 stroke patients (> 6 months after stroke). Repeated clinical and fine-grained motor measurements will be obtained pre and post intervention and at 3 months follow-up.
The goal of this observational study is to learn more about who can continue driving a car after a stroke. The focus of this study is on the relationship between cognitive abilities and fitness-to-drive. Participants will be asked to perform an extended neuropsychological testing and a real life on-road test, conducted by a professional driving instructor. Feedback will be given to the participants on request.
Background: tDCS is an emerging noninvasive brain stimulation that triggers neuroplastic changes in the brain. To enhance motor and executive function, tDCS modifies neuronal activity. Targeted effects of tDCS for physical and cognitive function might help in improving domains related to QoL among stroke survivors. Therefore, the primary goal of the current proposal is to fill the gaps in the literature by studying the effectiveness of patient-tailored tDCS on lifestyle parameters, and physical, behavior, and cognitive functions among stroke survivors, and understanding the mediated factors of domains related to QoL improvements. Type of study: Multiple Randomized Controlled trials (RCTs) Methods: Multiple RCTs will be conducted for subacute stroke survivors (>7 days to 3 months post stroke) aged 40-75 years with National Institutes of Health stroke scale score of >10 and Mini-Mental State Examination Score between18-23 on admission. Anticipated 64 Participants will take part in a prospective, randomized, participant- and assessor-blinded, sham-controlled trial after voluntary consent. The participants will be randomly assigned at a ratio of 1:1 to receive either: 16 patient-tailored sessions of anodal tDCS or sham tDCS in addition to conventional rehabilitation. Battery driven tDCS will be applied at 2 mA intensity to the dorsolateral prefrontal cortex and primary motor cortex for 20 minutes. The primary endpoints of study will be differences in 36-Item Short Form Survey (SF-36) scores post intervention at 4 weeks. The secondary outcomes will include Stroke Specific Quality of Life Scale, Montreal cognitive assessment, Beck Anxiety Inventory, Fugl-Meyer Assessment and Barthel Index. Results: SPSS software version 22 will be used to analyze the normal distribution of data and based on data normality, within group and between group actual differences will be calculated for all outcome measures to examine the main effects of the intervention. The level of significance will be set at 0.05
Reducing or suspending the increase of the infarcted core, i.e., "freezing" the ischemic penumbra, may help improve the efficacy of mechanical thrombectomy. Hypothermia effectively reduces the metabolic level of brain tissue, may prolong the time window for recanalization therapy, and its multi-target therapeutic effect make it one of the most promising neuro-protection approach. In recent years, hypothermia has been increasingly used to treat acute ischemic stroke. However, its role in acute ischemic stroke is unclear. The objective of this trial is to investigate whether hypothermia combined with endovascular thrombectomy could add additional benefit without increasing the risk of adverse events such as pneumonia, intracerebral hemorrhage, and mortality.
Based on the findings of meta-analyses, upper limb robotic rehabilitation has shown to enhance daily living activities, motor function, and strength in stroke patients. However, when compared to traditional methods, recent randomized controlled trials conducted on larger participant groups failed to identify significant differences in motor-related outcomes between the two approaches. In addition to motor deficits, stroke survivors often experience cognitive decline and sensory disturbances, which can significantly impede their recovery process. The introduction of multisensory stimulation and an enriched environment through robotic interventions may offer valuable supplementary treatments in these specific areas. Nevertheless, this aspect of treatment has not been thoroughly explored. This study seeks to assess the effectiveness of upper limb robotic rehabilitation in individuals recovering from subacute strokes, in comparison to conventional treatments. Specifically, it aims to determine whether this robotic therapy can lead to improvements in (a) cognitive deficits, (b) somatosensory impairment, and (c) how these sensory and cognitive deficits influence the process of motor recovery.
To Compare effects of action observation and motor imagery training on upper limb function in chronic stroke patients.