View clinical trials related to Stroke.
Filter by:To investigate the impact of algorithms utilizing artificial intelligence technology and computer vision on the recovery of motor functions within the context of rehabilitation practice for patients who have experienced a cerebral stroke.
- In this study, large-scale ECG data (Electrocardiogram data of all patients stored in the MUSE system by measuring standard 12-guided ECG at Severance Health Checkup at Severance Hospital from November 1, 2005 to October 31, 2022) are combined with electronic medical records, National Health Insurance Corporation data, and National Statistical Office death cause data, and the artificial intelligence algorithm is used to extract ECG features to analyze the association between death, stroke, and various health conditions, and to conduct external verification or transfer learning using public databases (e.g., UK Biobank data). - Intended to use a web-based artificial intelligence platform to distribute computational loads generated during large-scale data processing and improve analysis accuracy and efficiency.
Mortality rates after acute ischemic stroke remain high despite continuously improving treatment. In this context, it is important to note that a relevant portion of acute ischemic stroke patients die from adverse cardiovascular events, such as myocardial infarction, rather than from complications associated with the stroke itself. A possible reason might be that this patient group often suffers from at least moderate asymptomatic coronary artery disease. This study seeks to integrate cardiac computed tomography angiography into the standard-of-care diagnostic protocol of acute ischemic stroke. The aim of this prospective mono-centric trial is to enable accurate diagnosis of therapy-relevant coronary artery disease, other concomitant cardiac findings and cardiac causes of acute ischemic stroke, without delaying stroke therapy. In the long-run, the goal is to investigate whether cardiac computed tomography angiography and the resulting therapeutic measures (interventions or medications added) can improve functional outcome and rate of adverse cardiac complications in patients with acute ischemic stroke compared to a retrospective matched-cohort of patients without cardiac CT imaging.
The goal of this clinical trial is to explore the influence of chronic RIC on collateral status evaluated by DSA in ischemic stroke patients with LAA etiology.
The purpose of the project is to compare intensity (minutes in target heart rate zone) and steps per session across three gait training modalities, including body-weight supported treadmill training (BWSTT), overground gait training with body weight-support (BWS), and overground gait training utilizing a lower extremity exoskeleton, between patients presenting with varying functional ambulation capacities in the inpatient setting. Additionally, the researchers will compare physical therapist (PT) burden across these modalities and patient functional presentation levels.
Introduction: Stroke is the second leading cause of death in Europe. In the case of stroke survival (almost 70%), only 25% of patients recover completely, while the remaining 75% will undergo a rehabilitation phase that varying from months to years. The main consequences of a stroke include motor disability of the upper limbs, which involves a partial or complete inability to move the right or left limb, depending on the damaged hemisphere. Furthermore, the motor deficit distorts the proprioception of the body and the embodiment ability of the injured limb. This could be rehabilitated through the paradigm of body illusion that modulates the motor rehabilitation. The present protocol aims to investigate the effectiveness of a Virtual Reality system for sensorimotor and proprioception upper limb deficit compared to a traditional upper limb rehabilitation program. Method: This study has a randomized and controlled design with control and experimental groups, a 1:1 allocation ratio, and 4 measurement times: pre-intervention, immediately after the intervention, and two follow-ups (at 6 and 12 months). The inclusion criteria are: (a) Being 18 to 85 years old, both males and females; (b) Suffering from ischemic or hemorrhagic stroke; (c) The stroke event must have occurred from two to eighteen months before recruitment; (d) Patients must have moderate to severe upper limb motor deficit, and the alteration of sensorimotor and proprioception abilities of the injury upper limb; (e) Patients must understand and sign the written consent for enrolment. The rehabilitation last four weeks with three sessions per week at Bellaria Hospital of Bologna (Italy). The VR protocol uses two types of technology: immersive and non-immersive, and the control group follow the traditional rehabilitation program. Ethics and dissemination: The protocol was accepted by the Local Ethics Committee (ASL_BO n. 0115481) and the clinical trial was promoted.
This study intends to use a standardized cohort study to collect biological samples (including throat swabs, sputum and blood) from subjects eligible for inclusion, and use 16s DNA / metagenomic sequencing and metabolome technology to explore the microbial-host interaction relationship of SAP patients.
HEROES is a multidisciplinary neurophysiological & neural rehabilitation engineering project, developed by the Lab of Medical Physics & Digital Innovation, School of Medicine, Faculty of Health Science Aristotle University of Thessaloniki and supported by a Neurosurgical Department. The website for the project can be accessed at https://heroes.med.auth.gr. The investigation's primary objectives include the development, testing and optimization of an intervention based on multiple immersive man-machine interfaces offering rich feedback, that include a) mountable robotic arm controlled with wireless Brain-Computer Interface and b) wearable robotics jacket & gloves in combination with a serious game application and c) augmented reality module for the presentation of the previous two, as well as the development and validation of a self-paced neuro-rehabilitation protocol for patients after chronic stroke with severe residual motor disability.
Oxidative stress is one of the main mechanisms causing harm in severe infection with septic shock, ischemia-reperfusion injury in resuscitated cardiac arrest and ischemic and hemorrhagic stroke. Melatonin is a potent scavenger of the mediators of oxidative stress, oxygen and nitrogen-reactive species, which directly injure cell structures like walls and DNA and thus cause organ dysfunction. In a previous study we have observed that high-dose oral bedtime melatonin (OBM) is associated with improved organ function in severe Covid-19 patients
This clinical trial aims to compare the effectiveness of Robotic versus conventional mirror therapy among post-stroke patients. The main questions it aims to answer are: - Effectiveness of both interventions in hand motoric recovery across time - Effectiveness of both interventions in functional outcomes across time - Clinical outcome difference between both interventions Participants will be allocated into either a robotic group as the main intervention or a mirror therapy group as the active comparator. A serial follow-up will be conducted to assess the selected clinical outcome and differences in outcome