View clinical trials related to Stroke.
Filter by:Hemiplegic patient have unbalanced posture because paralysis leads to muscle atrophy, which then causes an unbalanced alignment in the structure of spinal joints. Evaluation and therapy of postural alignment are important as early predictable factors in the overall daily function of stroke patients
This research study is being done to look at the safety and diagnostic benefit of conducting an TMS(transcranial magnetic stimulation)-EEG measured before and after a brief experimental stimulation session using investigational devices repetitive TMS or transcranial direct current stimulation (tDCS).
The purpose of this study is to develop a database that contains movement and rehabilitation-related data collected through the use of wearable sensors and video. This database will serve as a resource for clinicians and researchers interested in the investigation of movement or rehabilitation-related research ideas.
The investigator will investigate our Integrated sensor-based Motion Analysis Suite (IMAS) to objectively and quantitatively measure acute stroke patient motor status.
This proposed research is in line with the National Health Research Institutes (NHRI) Innovative Research Grant priority to address innovative treatment strategies for neurological disorders that are in desperate need of scientific scrutiny. Stroke is one of the major medical conditions that leads to long-term disability and causes a heavy health care and financial burden. To meet multiple needs of patients with stroke, hybrid interventions that combine different approaches and practices in different settings are needed based on the complexity of stroke. Our previous research funded by the NHRI has been published and translated to stroke rehabilitation. Extending our previous research, the investigators will study the benefits of novel rehabilitation regimens of mirror therapy preceding augmented reality as well as the effects of practice setting (i.e., clinic- vs. home-based settings). In line with the current trend for the development of mirror therapy, mirror therapy will be implemented based on the bilateral and unilateral approach. Augmented reality will be implemented as a means of exergaming with real-time feedback to motivate the patients with stroke for active participation. In addition, telehealth techniques will be used to monitor home practice. This research is innovative in the use of telehealth techniques that will meet the call for therapy outside of the clinical settings in the era of COVID-19 pandemic.
The purpose of this study is to know the efficacy about the application of repetitive transcranial magnetic stimulation (rTMS) on the somatosensory cortex (S1) to enhance motor function in people with stroke.
Obstructive sleep apnea (OSA) is prevalent in patients with stroke and has a negative effect on outcomes by predisposing them to recurrent stroke, increasing mortality, and so forth. Therefore, it is extremely important to identify OSA in patients with stroke. Wearable devices can greatly reduce the manpower and material requirements of traditional laboratory-based polysomnography (PSG). With Photoplethysmography (PPG) technology and neural network algorithms, the Belun ring and the sleeping platform not only can detect blood oxygen, and heart rate but also can identify sleep stage and estimate the severity of sleep apnea. In this study, inpatients with acute ischemic stroke in the hospital will proceed with three nights test for recording the parameters of the autonomic nervous system in the acute phase, evaluate whether sleep apnea and the feasibility of the Belun sleep platform. It is important that early recognition of OSA and prompt treatment, which can potentially improve OSA-associated adverse outcomes, as well as understanding the degree of autonomic nervous function impairment for patients with acute ischemic stroke. After smoothing this process, it can help clinicians more accurately comprehend the condition, timing of admission, and discharge.
The Global Cardiovascular Risk Consortium (GCVRC) comprises harmonized data from nearly 1.7 Mio individuals of 126 cohorts across 43 countries and aims to elucidate the distribution of five major cardiovascular risk factors (body mass index, systolic blood pressure, non-high-density lipoprotein cholesterol, current smoking, and diabetes) and their impact on cardiovascular disease (CVD) by geographical region and sex.
According to the "Chinese Stroke Report" released in 2020, the incidence of stroke in China is 1114.8/100,000, acute ischemic stroke (AIS) accounts for 70% to 80% of the total number of stroke population, and elderly stroke patients are up to 2/3. About 1/3 of stroke patients would experience post-stroke cognitive impairment (PSCI), which seriously affected patients' quality of life and survival time, and increases disease and economic burden. Therefore, early identification, assessment, prevention and intervention of PSCI, and improvement of patients' quality of life and prognosis have become the focus of clinical research. This is a prospective cohort study. We intend to: (1) continuously collect elderly AIS patients who will be admitted to the Department of Neurology, The Department of Rehabilitation and the Department of Gerontology of Shenzhen Second People's Hospital from 2022 year to 2024 year; (2) collect baseline and follow-up data, and build a prediction model for cognitive impairment in elderly AIS patients; (3) internal validation using Bootstrap model; (4) collect the data of the elderly AIS patients who will be admitted to Shenzhen Longhua District People's Hospital andShenzhen Longgang Central Hospital, and conduct external validation; (5) evaluate the predictive efficacy of the model.
To successfully manipulate objects in one's surroundings, such as when lifting a cup, one must accurately perceive their physical interactions. This includes accurately interpreting the tactile cues arising at one's fingertips when touching an object. Currently, tactile perception is assessed in individuals with stroke using passive protocols. Research has yet to explore whether activating one's muscles impacts the tactile perceptual process in individuals with stroke despite previous research demonstrating the effect of muscle activation on tactile perception in individuals who are neurologically intact. The proposed research will be the first to address the impact of muscle activation, in addition to stroke, on tactile perception. As such, the proposed research is significant for advancing our understanding of the extent to which tactile deficits occur in individuals with stroke, particularly during volitional movement.