View clinical trials related to Brain Ischemia.
Filter by:The purpose of this study is to test feasibility of a comparative effectiveness framework for acute stroke imaging using prospective electronic health data. This is a prospective, cohort feasibility study of patients presenting to the Emergency Department with suspected acute ischemic stroke. The clinical stroke team will not be blinded to the imaging modality given the nature and purpose of the interventions/imaging. Knowledge of the imaging modality used and the knowledge gained from the resulting data will need to be considered for treatment decisions. Blinding will be maintained for data abstraction and analyses. Analysis will be on an "intent-to-scan" basis and all qualifying patients will be included in their assigned cohort.
Mechanical thrombectomy of acute ischemic stroke caused by major vessel occlusion of the anterior circulation has become an accepted procedure in the last decade. Recent IAT modalities have been classified as suction aspiration,stent retrieval and combination modality. The suction aspiration technique is limited by the possibility of breaking the entire thrombus during the IAT. In addition, the stent retrieval technique is also limited because of thrombus migration during stent removal from an acute-angled artery as in the case of a carotid siphon. According to recent development of suction catheter, investigators expected that suction aspiration will prevent breaking the entire thrombus during the IAT. Investigators will evaluate the radiological and clinical outcome of suction aspiration technique in comparison with combination technique in the large artery occlusion feasible to both suction aspiration and combination technique prospectively in a randomized trial.
The goal of this prospective observational study is to assess the effectiveness and performance of Methinks AI stroke imaging software platform in acute Code Stroke patients, and as a comparator to study sites utilizing existing AI imaging stroke platforms. The main question[s] it aims to answer is: • Performance of and outcomes associated with the use of the Methinks AI stroke imaging medical device in real-world clinical practice.
This is an observational study in patients who require clinical anesthesia. The main purpose of this study is to understand whether there are differences in the cerebral blood flow, and oxygen metabolism affected by different types of anesthesia. Subjects who require clinical anesthesia for a clinical MRI and for whom the use of anesthetics for the exam are in clinical equipoise are asked to join the study. All eligible subjects will be asked to provide informed consent before participating in the study.
The aim of this study is to evaluate the safety and efficacy of remote ischemic conditioning ( RIC ) in the protection of cerebral ischemia in patients with Takayasu arteritis ( TAK ). The study was designed as a prospective, double-blind, exploratory randomized controlled study. The entire study included a screening period and a treatment observation period ( a total of 24 weeks ). All patients with cerebral ischemia of TAK will be randomly divided into RIC group and sham RIC group at 1:1 ratio. On the basis of receiving the conventional drug therapy, the patients will be treated with RIC or sham RIC treatment twice daily for six month. The clinical data of patients at baseline and each follow-up will be collected, including basic information, disease activity assessment, laboratory indicators, imaging indicators, treatment data, adverse events, etc.The Primary outcome is the mean cerebral blood flow improvement rate ( mCBF-IR ) of TAK patients after 24 weeks-treatment. Secondary endpoints include the incidence of major adverse cerebrovascular events ( MACE ) , the change value of arterial transit time ( ATT ) in pCASL hypoperfusion area compared with baseline, occurrence of RIC-related adverse reactions, the changes of hematological indexes and disease activity score, etc. This study will provide insights into the preliminary proof of principle, safety, and efficacy of RIC in cerebral ischemia in patients with Takayasu arteritis ( TAK ), and this data will provide parameters for future larger scale clinical trials if efficacious.
The goal of this clinical trial is to learn about brain waves during transauricular vagus nerve stimulation (taVNS) in healthy children. The main questions it aims to answer are: - What is the safety, tolerability, and physiological response of taVNS in children? - Does the electroencephalogram (EEG) change during taVNS? Participants will - undergo a brief titration session where taVNS will be titrated to below perceptual threshold - receive one session of 30 minutes of taVNS - undergo clinical EEG monitoring during taVNS - Continuous cardiorespiratory monitoring via pulse oximetry and blood pressure every 5 minutes - Answer tolerability questions before, during and after 30 minute taVNS session
To compare between Transcranial Ultrasound , MRI and CT in patients with Hypoxic Ischemic Encephalopathyas regards diagnostic accuracy and prognostic value .
In today's medical field, there is a growing emphasis on the development of functional and molecular imaging. Therefore, it has significant technical limitations. To address this issue, this project aims to develop a high-speed multimodal photoacoustic/ultrasound functional imaging system that provides both structural and functional information of tissue and organs, thus enhancing the accuracy of early screening and diagnosis of neonatal cranial lesions. This imaging technology is entirely non-invasive and does not involve ionizing radiation or contrast agents. Products using the same technology have already received FDA approval and entered clinical use in the United States. We develop a new generation of multimodal photoacoustic/ultrasound functional imaging equipment to reveal the physiological characteristics and structural details of neonatal cranial lesions, offering advantages and complementary information compared to traditional medical imaging methods.
The investigators recently identified Brain-derived tau (BD-tau) as a sensitive blood-based biomarker for brain injury in acute ischemic stroke: in patients with acute ischemic stroke, plasma BD-tau was associated with imaging-based metrics of brain injury upon admission, increased within the first 24 hours in correlation with infarct progression, and at 24 hours was superior to final infarct volume in predicting 90-day functional outcome. While informing on the relation of BD-tau with imaging-based metrics of brain injury, this cross-sectional study was restricted to BD-tau assessments upon admission and at day 2 and could not inform on key characteristics of the evolution of plasma BD-tau, including when exactly it starts to rise, how long it continues to rise, and how it is determined by infarct characteristics as well as comorbidities. Here, the investigators aim to assess plasma BD-tau every hour from admission to 48 hours after onset to evaluate the hypothesis that BD-tau rises immediately after onset and plateaus between three and 48 hours after onset.
The objective of the study is to compare the incidence of Hypoxic ischemic encephalopathy (all stages) among singleton term neonates (≥ 37 weeks) requiring resuscitation who will undergo Umbilical cord milking as compared to Immediate cord clamping.