Active clinical trials for "Ischemic Stroke"

Texas Biomedical Device Center (TxBDC) has developed an innovative strategy to enhance recovery of motor and sensory function after neurological injury termed targeted plasticity therapy (TPT). This technique uses brief pulses of vagus nerve stimulation to engage pro-plasticity neuromodulatory circuits during rehabilitation exercises. Preclinical findings demonstrate that VNS paired with rehabilitative training enhances recovery in multiple models of neurological injury, including stroke, spinal cord injury, intracerebral hemorrhage, and traumatic brain injury. Recovery is associated with neural plasticity in spared motor networks in the brain and spinal cord. Moreover, two initial studies and a recently completed Phase 3 clinical trial using a commercially available device demonstrates that paired VNS with rehabilitation is safe and improves motor recovery after stroke. The purpose of this study is to extend these findings and evaluate whether VNS delivered with the new device paired with rehabilitation represents a safe and feasible strategy to improve recovery of motor and sensory function in participants with stroke.

Ischemic stroke is the first cause of acquired disability of the adult, the second cause of dementia and the third cause of death in the industrialized countries, what constitutes à major public health issue. Stroke is characterized by a cerebral parenchymal lesion due to an ischemic mechanism (85% of the cases) or hemorrhagic mechanism (15%). For a long time, the only approved treatment was the intravenous thrombolysis (rt-PA). Recently, thrombectomy has proven its superiority in this pathology. Cohorts of patients with stroke are rare but can be very valuable by their clinical, laboratory and imaging well documented. They are the source of new hypotheses for research or interventions as well as the quality of care assessment tool. The main objective of this project is to identify new markers: biological and imaging, treatment response and prognosis after ischemic stroke. Secondary objectives of the HIBISCUS-STROKE II cohort are to establish a clinical database, completed by biological samples and by imaging data that can be used in the following areas: Descriptive epidemiology of ischemic stroke and cerebral reperfusion, Pharmacoepidemiology and treatments observatory: safety, efficacy, indication of treatment in real life, costs Assessment of the long-term effect of the treatment on the occurrence of disability, stroke recurrence and death, Quality of life and personal, familial, professional and social consequences of stroke, Research of new diagnostic and prognostic biomarkers, Research projects. Ancillary study : Cardiac complications are the second leading cause of death after stroke. A close relationship between brain damage and heart complications, referred to as "neuro-cardiac syndrome" has been established. 20% of patients admitted for ischemic stroke present at least one major cardiac event, including acute coronary syndrome, heart failure and / or cardiac arrhythmia, within three months of the event, while 28% have a left ventricular ejection fraction less than 50%. However, the underlying pathological mechanisms remain unclear and the therapeutic targets unknown. To study these mechanisms, an ancillary study will be proposed to patient whom accepted to participate in the main project research. The general objective of the ancillary study is to identify early markers of cardiac damage during ischemic stroke having benefited from mechanical recanalization by thrombectomy, and to improve the understanding of the pathophysiology at the origin of cardiac complications in the course of an ischemic stroke with the final objective of identifying new therapeutic targets.

DETERMINE is a multicenter, prospective, randomised, open, blinded end-point assessed (PROBE) trial, to evaluate two approaches of blood pressure (BP) management during mechanical thrombectomy for acute ischemic stroke due to an anterior large vessel occlusion.

The goal of this clinical trial is to compare implementation of a Decision Support System (DSS) - aligned to the 2019 ESC/EAS Guidelines - in addition to routine clinical care versus routine clinical care without availability of a DSS, in participants aged ≥18 to < 80 years old presenting with Acute Coronary Syndrome (ACS). The main questions it aims to answer are: to assess whether the availability of a DSS (which provides estimates of risk and estimates of potential benefit through LDL-C lowering) to current practice results in an increase in the early initiation of combination Lipid Lowering Therapies (LLTs) or intensification of LLT regimens compared to current practice alone over a 24-week period after an Acute Coronary Syndromes (ACS) event To estimate in the study cohort the potential benefits of guideline-based LLT intensification via simulation-based methods using estimates of baseline risk: LLT utilisation, additional LDL-C reductions and LDL-C goal achievement, on simulated risk of CV events through modelling. Participants will give consent to randomised clinical sites to collect their data. The clinical sites will either be randomised to standard of care or the availability of and access to the DSS. Researchers will compare patients from DSS and Non-DSS sites to see if the availability of the DSS results in implementation of more intensive lipid lowering regimens, resulting in the achievement of lower LDL-C values as well as the proportion of patients who reach target LDL-C levels (<1.4 mmol/L (<55 mg/dL) by Week 24.

The goal of this clinical trial is to compare a telemedicine neurologist staffing model to a traditional on-board model in patients being assessed for suspected acute stroke on a mobile stroke unit.

In a double-blinded sham-controlled study the effect of patient-tailored transcranial direct current stimulation during rehabilitation training will be examined.

The primary goal of this project is to carry out a trial comparing pre-hospital diagnosis and treatment of patients with stroke symptoms using a Mobile Stroke Unit (MSU) with subsequent transfer to a Comprehensive Stroke Center (CSC) Emergency Department (ED) for further management, to standard pre-hospital triage and transport by Emergency Medical Services (EMS) to a CSC ED for evaluation and treatment (Standard Management-SM).

The primary efficacy objective of the MOST trial is to determine if argatroban (100µg/kg bolus followed by 3µg/kg per minute for 12 hours) or eptifibatide (135µg/kg bolus followed by 0.75µg/kg/min infusion for two hours) results in improved 90-day modified Rankin scores (mRS) as compared with placebo in acute ischemic stroke (AIS) patients treated with standard of care thrombolysis (0.9mg/kg IV rt-PA or 0.25mg/kg IV tenecteplase or TNK) within three hours of symptom onset. Patients may also receive endovascular thrombectomy (ET) per usual care. Time of onset is defined as the last time the patient was last known to be well.

Recent endovascular thrombectomy (EVT) trial have proven the effectiveness of intraarterial revascularization in patients with larger cerebral artery occlusion. The success rate of EVT is close to 80%, but only 50% of patients improve to independent functional outcome. Therefore, new treatment strategies are needed to reduce the futile revascularization. However, updated guidelines recommend the indications for EVT based on the results of randomized clinical trials (RCT), management of post-revascularization is largely unknown. Current guidelines suggest that systolic blood pressure should be adjusted below 180 mmHg and diastolic blood pressure below 105 mmHg in patients undergoing intraarterial reopening. However, in the case of successful recanalization by EVT, same guideline is adopted even though the possibility of intracerebral hemorrhage or reperfusion injury by high blood pressure. On the other hand, too low blood pressure can worsen cerebral ischemia. Therefore, this study will compare the effectiveness of active blood pressure control group (with less than 140 mmHg systolic blood pressure) versus standard blood pressure control group (with less than 180 mmHg systolic blood pressure) during the first 24 hours in patients who underwent EVT and achieved successful recanalization (TICI 2b-3). The goal is to reach the target blood pressure within 60 minutes of randomization.

For this project the investigators ask, how the activation and organization of muscle synergies may be disrupted by brain lesions, and whether it is possible to modify synergy activations by means of specific therapies. Will be investigated whether there is a relationship between post-stroke cortical plasticity and changes in synergy activations due to a therapy.