View clinical trials related to Hemorrhagic Stroke.
Filter by:The objective of this study is to evaluate the efficacy of the COOLSTAT® Transnasal Thermal Regulating Device in reducing temperature in a population of febrile subjects who meet the inclusion/exclusion criteria.
The goal of this research project is to develop a tele-rehabilitation programme, which will constitute an original care pathway for brain damaged patients. It will aim to improve their impairments, activities and social participation. The programme will deliver a therapeutic education and self-education programme targeting the upper and lower limbs, and will assess the patients by means of a diary and self-evaluation questionnaires.
In this study the investigators will assess both procoagulant and anticoagulant pathways using thrombin generation and platelet function tests; as well as neuronal ischemia using cell free DNA in all patients presenting with ischaemic and haemorrhagic stroke (including aneurysmal subarachnoid haemorraghe). Also the cross-talk between inflammation and thrombosis, so-called thrombo-inflammation is further investigated. As such the investigators aim to characterise the patient's coagulation profile before administration of any treatment. By assessing these pathways the investigators strive to detect specific markers to predict vital and functional outcome at 3 months in these patients. Finally the investigators may provide new pathophysiological insights in the course of disease following these events that can possibly improve future therapeutic strategies.
People living with stroke have very low aerobic fitness, which can negatively impact brain health. Identifying the best exercise which includes exercise stimulus type (interval, continuous) or intensity, how hard to exercise (moderate, high) that benefit aerobic fitness, vascular health, and the brain's main blood vessels after stroke are unknown. This study is designed to determine the preliminary efficacy of high-volume HIIT to moderate intensity exercise using a seated stepper exercise device that allows the arms and legs to move back and forth.
Intracerebral hemorrhage (ICH) is a devastating disease with high early mortality, unfavorable neurological outcomes, and high cost of care. To date, the role of DTI-guided minimally invasive hematoma evacuation in ICH is still uncertain. The investigators will conduct a multicenter randomized controlled trial, as well as a concurrent prospective observational study including all ICH patients who decline participation in the trial and will therefore receive minimally invasive hematoma evacuation or best medical therapy and consent to be followed up. All participants will be followed up at the same time using the same outcomes measures. The primary outcome will be collected by a blinded assessor.
The aim of this study is to evaluate the effect of early rehabilitation treatment by electroencephalographic neurofeedback on upper limb motor function after stroke. Researchers will compare : Interventional group: electroencephalographic neurofeedback + traditional reference rehabilitation programme Control group: SHAM electroencephalographic neurofeedback + traditional reference rehabilitation programme
Study using ultrasound of the brain as a diagnostic tool to differentiate between ischemic stroke and hemorrhagic stroke. Correlation of brain perfusion and size of stroke in relation to systemic hemodynamic targets will be assessed on serial scans.
This multicenter, pragmatic randomized, open-label clinical trial aims to assess whether Tranexamic Acid improves outcomes in adult patients with spontaneous intracerebral haemorrhage. The participants presenting within 4.5 hours of the onset of symptoms of stroke with intracerebral haemorrhage confirmed on Computed Tomography (CT Scan) will be randomized into two groups in a 1:1 ratio using a central online randomization. The treatment arm will consist of giving intravenously 2 grams of Tranexamic Acid in 100 ml 0.9% sodium chloride administered over 45 minutes. Control arm patients will receive standard of care treatment as per the institutional protocol. In both arms, intensive systolic blood pressure reduction to less than 140 mmHg will be done using antihypertensive medications, which has to be achieved within one hour and will be maintained over next seven days. The choice of antihypertensive drug will depend on the clinician's preference. Both groups will have a repeat CT scan after 24 hours to check for any increase in the haematoma volume. Any deterioration in the neurological status will warrant urgent brain imaging. On day 7, the patient will be assessed for their NIHSS score and mRS score. On day 90, quality of life and the functional outcome will be assessed.
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.