View clinical trials related to Stroke.
Filter by:The purposes of this study is to investigate the differences in upper extremity function, sleep quality, and functional independence between patients with and without hemiplegic shoulder pain (HSP). HSP is defined as musculoskeletal pain in the affected shoulders of individuals after stroke.Numerous studies have found an association between post-stroke shoulder pain and range of motion, sensory impairment, subluxation, spasticity, and complex regional pain syndrome. HSP is a problem that, starting from mild discomfort, leads to gradual functional impairment, ultimately resulting in increasing disability and decreased independence.In the literature, the relationship between HSP and upper extremity function, functional independence, and sleep quality has not been clarified.
The goal of this clinical trial is to learn about effect of lower robot in stroke population. The main question[s] it aims to answer are: the efficacy of lower limb robot assisted training in improving walking ability, lower limb function, cognition, and quality of life in stroke patients.The robot group of patients received lower limb robot assisted training combined with routine rehabilitation treatment. The control group only received routine rehabilitation treatment.Compare two groups to explore the therapeutic effect of lower limb robots on lower limb dysfunction after stroke.
The investigators continuously collected data from 482 AIS inpatients at the Neurology Department of Hebei General Hospital. Both demographic and clinical data were collected from the study subjects. Different head magnetic resonance imaging sequences were used to assess the subjects' CMBs, white matter lesions, and old lacunar infarcts (LI). Various statistical methods, including the t-test, χ2 test, and logistic regression, were used to analyze the gender heterogeneity of the influencing factors for CMBs in AIS patients.
The goal of this clinical trial is to test the effectiveness of START (Startle Adjuvant Rehabilitation Therapy) in improving arm function after a stroke. The main questions it aims to answer are 1) Does startle rehabilitation therapy improve functional arm performance after training on a specific task and 2) Can training benefits, if any, be seen in other untrained tasks? Researchers will enroll participants across a wide range of upper extremity impairments post-stroke. Participants will be enrolled in three consecutive days of in-person training on an upper extremity task followed by a single-day follow-up session one month after training is completed. Each training session will last for approximately 3 hours per day. Participants will be randomly assigned to one of two groups; 1) Arm training with START and 2) Arm training without START. Study participants and assessors will be blinded to the type of training received. Before the training, participants will be clinically assessed to determine impairment level. During training, participants will be asked to perform; 1) a simulated feed task which involves transferring kidney beans using a spoon from one cup (start position) to another cup (end position) in front of them OR 2) A functional reaching task where participants will maintain a tool (spoon) in their hand while extending their arm forward towards an end position based on the severity of arm impairment as determined by the clinical assessment. Researchers will compare the % change in trained task scores, muscle activity, and arm movement outcome measures at three-time points; baseline on day 1, at the end of training on day 3, and one month after training.
The purpose of this research study is to measure the effect of participating in extra arm exercise in addition to standard rehabilitation exercises in the Acute Rehabilitation Unit. This study will compare two different ways to perform the extra arm exercise. The first is following a customized program of hand and arm exercises that will be developed for study participants by an experienced rehabilitation therapist. The second is moving a participants arm back and forth when they are sitting in their wheelchair by using a moveable wheelchair arm rest (Boost).
The goal of this (monocentric, randomised, placebo-controlled single-blinded; phase 2) clinical trial is to test the hypothesis that DNase 1 administration leads to a reduction in systemic immune response measured in patients after acute ischaemic stroke compared to control treatment. Participants will receive intravenous DNase 1 (500 µg/kg) or placebo (NaCl 0.9%) twice within 24±6 hours after symptom onset (last seen well). Blood samples will be taken at baseline, day 1 and 3. Personal visits will occur on baseline, day 1, 3 and discharge date. A telephone interview will be conducted on day 30±3.
Loss of strength is a common complication post stroke which leads to loss of balance and walking ability. Variety of interventions are adopted to improve muscle strength after stroke. These include progressive resistance training, specific task training or functional training, functional electrical stimulation and high intensity aerobic exercises
The goal of this clinical trial is to determine the effects of treadmill training with and without trunk kinesiotaping on balance and gait of chronic stroke patients. The main question it aims to answer is:- Does kinesiotaping have added benefit to improve gait and balance in chronic stroke patients?. Researcher will compare the treadmill training group with the group receiving treadmill training with kinesiotaping to see if there is any difference in the outcomes.
This pilot study will investigate the safety, feasibility, tolerability, and preliminary efficacy of accelerated high-dose repetitive transcranial magnetic stimulation (rTMS) targeting the medial prefrontal cortex (mPFC) to address apathy symptoms in individuals with chronic stroke.
Post-stroke spasticity is a common complication affecting the neurological recovery, self-care daily activities and patients' quality of life. Extracorporeal shock waves (ESWT) have been proven therapeutic effects on decreasing spasticity and regaining function. Stroke patients often suffer ankle plantar flexor spasticity with poor ankle movement control, leading to abnormal gait patterns and risk of falling; local pain appears as well in the ankle. Research showed application of ESWT to lower extremity spasticity reduced ankle plantar flexor spasticity, ankle pain and increased the range of ankle motion. However, the current study did not investigate the effect of ESWT on different muscles in patients with post-stroke ankle spasticity. Therefore, this study will compare the effect of focused ESWT on combination of the gastrocnemius and soleus muscles to gastrocnemius muscle alone in the post-stroke ankle plantar flexor spasticity.