View clinical trials related to Stroke.
Filter by:Aphasia is an acquired impairment of language, that commonly results from damage to language areas in the brain (typically the left side of the brain). This impairment is seen in many aspects of language, including understanding, speaking, reading and writing. It is estimated that about 2 million individuals are currently living with aphasia in the United States. Further, about 200,000 Americans acquire aphasia every year (National Aphasia Association, 2020). Aphasia poses significant impact on the affected individuals and their families. Behavioral treatments that target language deficits have been shown to enhance overall communication skills and life satisfaction among individuals with aphasia. Although there is evidence that suggests that treatment is efficacious for individuals with aphasia, the extent of improvement long-term coupled with the neural patterns among those individuals are largely unknown. The current study aims to investigate the efficacy of language-based treatment and its corresponding neural patterns.
One hundred participants with acquired brain injury (ABI) will be included in a randomized controlled trial, with one group playing a commercially available VR game and the control group doing activities in their everyday as cognitive training. The trial aims to investigate how VR can affect processing speed in the ABI population, and if these effects can transfer into everyday activities. The training will be performed in the participants homes, with assistance provided by the project group via phone or video conference. The training period will last five weeks. Participant's cognitive functions will be measured with questionnaires and neuropsychological tests at the start of the training period, at the end of training and sixteen weeks after the start of the intervention. In depth experiences with VR as a training method will be gathered through performing focus group interviews with some of the participants from the VR group, in addition to self-reported questionnaires from all the participants.
The objective of the study is to evaluate the effect of engaging in adaptive sports for individuals who have had a stroke. The study is cross-sectional, participants with stroke will be recruited and divided into two groups: the first group composed of individuals with stroke who regularly participate in adaptive sports; and the second of individuals with stroke who do not regularly participate in adaptive sports. The two groups will have to be similar in terms of demographic variables (age, gender, time since beginning of stroke). A series of parameters will be tested, on one occasion for each participant. The two groups will then be compared to one another.
The purpose of the study is to compare the effectiveness of virtual reality and mirror therapy in stroke patients. Different studies has been done to find out the best therapy for stroke patients. Use of virtual reality in medical field is becoming more popular now-a-days. Different devices and applications are available to treat various conditions. Research has been done to find the clinical applications of virtual reality for upper limb motor rehabilitation in stroke. in another study, mirror therapy with bilateral arm training was used for hemiplegic upper extremity motor functions in patients with chronic stroke. After doing literature review, it was found that no research has been done to compare the effectiveness of mirror therapy with virtual reality in improving motor function of upper limb of stroke patients. So, In this study these two therapies are compared. For virtual reality Oculus Quest 2 has been used. Patients were allowed to use beat saber game on Oculus.
An Exploratory Interventional study to assess the effects of cranioplasty on brain network connectivity, neuropsychological and motor functioning in patients with severe acquired brain injury with pre-, post-cranioplasty and 6 months follow-up assessments.
Stroke is a global health problem and a leading cause of disability. Limitation of upper limb function occurs in 55 -75% of patients after stroke. In recent years, non-invasive brain stimulation techniques, such as repetitive transcranial magnetic stimulation (rTMS), have been shown that can promote functional recovery in stroke patients, and multiple studies have reported that low-frequency rTMS stimulation on the motor areas of the unaffected hemispheres of stroke patients can significantly improve motor function of the affected upper limb. The standard procedure for TMS to determine the primary motor area is to measure hotspot, which is used as a common target for movement disorders such as hemiplegia after stroke. In the 1990s, the hands-on task activation point determined by functional magnetic resonance imaging(fMRI) and positron emission computed tomography(PET) studies was located at "Hand Knob" in the primary motor area. The study found that although the hands-on task activation point was closer to hotspot, it was significantly different from hotspot. The hands-on task activation point had stronger functional connection with the whole brain, especially the motor cognition-related brain area. Therefore, this study aims to compare the efficacy of rTMS stimulation on individual rTMS targets(task fMRI activation point) with traditional hotspot in patients with post-stroke hemiplegia. The regulation effect of rTMS was evaluated by using local brain function indicators and functional connections, and the longitudinal change pattern of brain function before and after treatment was observed to explore the therapeutic targets of rTMS for motor dysfunction after stroke and the mechanism of brain functional plasticity.
This study will be designed to evaluate the effectiveness mirror therapy combined with electrical muscle stimulations compared with constraint induced therapy in upper limb stroke patients. The aim of the study is to investigate the therapeutic effectiveness of mirror therapy and EMS in stroke patients and compare the outcomes with CIMT.
This study is a multicentre, randomized, double-blind, placebo-controlled, investigator-sponsored study that aims to investigate the efficacy of colchicine in preventing recurrent stroke in the patients with acute minor-to-moderate ischemic stroke or TIA and a hsCRP level of ≥2mg/L.
Endovascular thrombectomy (EVT) enormously improves the prognosis of patients with large vessel occlusion (LVO) stroke, but its effect is highly time-dependent. Direct presentation of patients with an LVO stroke to an EVT-capable hospital reduces onset-to-treatment time by 40-115 minutes and thereby improves clinical outcome. Electroencephalography (EEG) may be a suitable prehospital stroke triage instrument for identifying LVO stroke, as differences have been found between EEG recordings of patients with an LVO stroke and those of suspected acute ischemic stroke patients with a smaller or no vessel occlusion. The investigators expect EEG can be performed in less than five minutes in the prehospital setting using a dry electrode EEG cap. An automatic LVO-detection algorithm will be the key to reliable, simple and fast interpretation of EEG recordings by ambulance paramedics. The primary objective of this study is to develop one or more novel AI-based algorithms (the AI-STROKE algorithms) with optimal diagnostic accuracy for identification of LVO stroke in patients with a suspected acute ischemic stroke in the prehospital setting, based on ambulant EEG data.
The objective of this study is to demonstrate the safety and efficacy of the Penumbra System including Thunderbolt Aspiration Tubing (Thunderbolt) in a population presenting with acute ischemic stroke (AIS) secondary to intracranial large vessel occlusion (LVO) who are eligible for mechanical thrombectomy.