View clinical trials related to Hemorrhagic Stroke.
Filter by:Consecutive patients accessing the emergency department with suspected stroke dispatch will be recruited at 3 study units: 1) ASL Abruzzo 1, hospitals of L'Aquila and Avezzano; 2) ASL Abruzzo 2, hospital of Chieti; 3) IRCCS Humanitas Research Hospital of Milan. Anonymized clinical and low-field (LF) MRI data as well as conventional neuroimaging data will be independently assessed by external units (Università Politecnica delle Marche and Policlinico di Messina, respectively). Both units will independently adjudicate the best treatment option, while the latter will also provide historical MRI data of stroke patients to develop artificial intelligence algorithms facilitating LF-MRI images interpretation (Libera Università di Bolzano). Agreement with conventional neuroimaging will be evaluated at different time points (hyperacute, acute -24 h, subacute -72 h, discharge, chronic -4 weeks). Further investigations will include feasibility study to develop an ambulance (mobile stroke unit) equipped with LF-MRI and cost-effectiveness analysis of LF-MRI. This trial will provide necessary data to validate the use of LF-MRI in the acute stroke care.
Upper limb motor impairment is one of the most common sequelae after stroke. Indeed, the recovery of upper limb sensory-motor functions remains one of the most important goals in stroke rehabilitation. In the last years, new approaches in neurorehabilitation field has been investigated to enhance motor recovery. The use of wearable devices combined with surface electromyography (i.e. sEMG) electrodes allows to detect patients muscle activation during motor performance. Moreover, sEMG is used to provide to the patients the biofeedback about their muscle activity during exercises execution to enhance motor control and motor recovery. The aim of the study is to define the efficacy of using REMO® (Morecognition srl, Turin,Italy) for hand motor recovery after stroke. A randomised-controlled trial will be conducted compared to a task-oriented training, in hand motor rehabilitation after stroke. 28 patients with diagnosis of first stroke event will be enrolled in this study. After randomization process, participants will be allocated in Experimental Group (REMO training) or in Control Group (task-oriented training). The participants will be assessed before and after the treatment and sEMG will be collected during 12 hand movements. The treatment will consist of 15 sessions (1h/day, 5day/week, 3 weeks). Finally, the sEMG of the same 12 hand movements will be collected from 15 healthy subjects to compare muscle activation with a normal reference model.
The purpose of this study is to demonstrate the effectiveness and safety of CVA-FLOW, a digital health AI based Telestroke system developed by CVAID Ltd. Company aims to assist certified medical staff to triage acute ischemic stroke patients using dedicated algorithms in order to support application for market approval for CVA-FLOW device.
The goal of this clinical trial is to test the effects of aerobic exercise and BDNF on patients with ischemic and hemorrhagic stroke during a computerized cognitive training. The main questions it aims to answer are: 1. Does a moderate intensity aerobic exercise, prior to a cognitive training, allow a better performance? 2. Is it possible to exploit the timing of rehabilitation interventions to obtain greater effects? Participants will be divided in 2 groups. The experimental group will first perform 20 minutes of pedaling as a moderate intensity aerobic exercise. It will then participate in one-hour cognitive training sessions, with the aim of training attentional, working memory and executive functions. The control group will carry out the same interventions but in reverse order. The researchers will compare the results of the cognitive training in the two groups to verify if the order of the interventions influences the results themselves.
This study will determine the acceptability of delivering seated exercises online and if seated exercises can improve balance, mobility, quality of life, and cardiometabolic health in those living with a stroke related mobility impairment. Participants will be allocated to either a 10-week seated exercise program or a delayed 2-week Boot Camp program. All seated exercises sessions and assessments will be conducted virtually.
Stroke survivors frequently suffer disabilities including motor and cognitive problems, impairments in speech and vision, depression, and several other disabilities that worsen their quality of life. Some will recover fully after stroke and others will have permanent impairments. Few studies show trajectories of recovery in different domains after stroke, hence recovery time-lines are not fully known. Also, the whole range of mechanisms leading to recovery are not precisely known (1). To monitor those mechanisms one can utilize biomarkers. In parallel to the studies of recovery, studies on time series of biomarkers after stroke are limited (2). Hence, a crucial first step to increase knowledge on biomarkers of stroke recovery is to gain a better understanding of the time course of both stroke recovery and biomarker patterns. Biomarkers can later be used for outcome predictions after stroke.
The goal is to pilot test a highly accessible, web-based, pragmatic, scalable intervention to overcome ongoing problems with high stakes decision-making by surrogate decision-makers of patients in ICUs with severe acute brain injury (SABI), including those with moderate-severe traumatic brain injury, large hemispheric acute ischemic stroke and intracerebral hemorrhage.
The overall goal of this study is to increase health care provider awareness for common risk factors and comorbidities in patients with hemorrhagic stroke that are related to impaired brain health, to ultimately improve patients management and associated outcomes. The specific objective is to test the performance and effectiveness of a custom electronic health record (EHR)-based notification module at time of index hospitalization and at follow-up for hemorrhagic stroke survivors, before disparities in access to outpatient care may limit opportunities to intervene. The investigators hypothesize that notification of health care providers through the EHR will increase measurements of low-density lipoprotein (LDL) and glycated hemoglogbin A1c (HbA1c) and increase evaluation and management rates for obstructive sleep apnea and hearing impairment.
A stroke is a vascular condition that can suddenly cause the loss of neurological functions. The disability derived from a stroke can imply reduced communication and limited activities of daily living in the long term. Thus, specifically walking rehabilitation is crucial in order to restore the lower limbs' function and to re-establish the social participation of patients. Robotics has been demonstrated in being a suitable and effective tool in order to assist and treat post-stroke patients, thanks to its capability to deliver intensive and task-oriented training. Specifically, the exosuits, are a sub-group of robotics devices designed in lighter materials that assist the patients by actively moving the hip, knee or ankle. Given this framework, the aim of this work is to conduct a pilot study on the usability and perceived effectiveness of a lower-limb exosuit, the Myosuit device, on post-stroke patients. The secondary aims of the study concern the evaluation of the functional performances of the patients both with and without the device and before and after the treatment.
Objective: To explore the predictive value of characteristic disorder of intestinal flora for clinical prognosis in patients with intracerebral hemorrhage. Secondary objectives: 1) To investigate the correlation of gut microbiota and its serological indicators with imaging features and clinical neurological deficits in ICH; 2) Dynamically observe the changes of human microbiome and its serological indicators after ICH, and explore the biomarkers based on human microbiome related to disease changes.