Portable, Low Field Brain Magnetic Resonance Imaging (MRI) for Acute Stroke

用于急性中风的便携式低场脑部磁共振成像 (MRI)

基本信息

批准号：
10366629
负责人：
William Taylor Kimberly
金额：
$ 74.42万
依托单位：
YALE UNIVERSITY
依托单位国家：
美国
项目类别：
财政年份：
2022
资助国家：
美国
起止时间：
2022-04-01 至 2026-12-31
项目状态：
未结题

来源：
https://reporter.nih.gov/project-details/10366629
关键词：
Acute Address Algorithms Ambulances Blood Brain Edema Brain Injuries Brain hemorrhage Cerebral hemisphere hemorrhage Cessation of life Characteristics Classification Clinical Clinical Research Collaborations Communities Computed Tomography Scanners Computer Interface Controlled Environment Critical Illness Data Data Set Decision Making Detection Development Diagnosis Diagnostic Diffusion Emergency Medicine Engineering Enrollment Environment General Hospitals Gold Health Health system Hemorrhage Hospitals Hour Human Image Image Analysis Imaging technology Industry Collaboration Infarction Institution Ischemia Ischemic Stroke Liquid substance Machine Learning Magnetic Resonance Imaging Massachusetts Measurement Measures Methodology Methods Modeling Monitor Multicenter Studies Neurologic Operating System Patient Care Patients Physiologic pulse Positioning Attribute Power Sources Public Health Radiation Research Resolution Resources Rural Community Sampling Scanning Sensitivity and Specificity Serial Magnetic Resonance Imaging Source Specialist Stroke System Tablet Computer Techniques Time Training Translational Research Uncertainty Weight X-Ray Computed Tomography acute stroke base brain magnetic resonance imaging classification algorithm clinical care clinical translation cost cryogenics deep learning deep neural network design diagnostic accuracy diagnostic technologies disability experience health care settings image reconstruction imaging system improved individual patient industry partner innovation insight instrument instrumentation low and middle-income countries magnetic field multidisciplinary neuroimaging novel novel strategies operation point of care portability post stroke prevent prospective reconstruction standard of care stroke neurology stroke patient success technological innovation tool virtual

项目摘要

Abstract Neuroimaging is a cornerstone of patient care for patients with brain injury. High field magnets and access to imaging interpretation have prevented magnetic resonance imaging (MRI) from becoming a universally available tool. Our group has demonstrated the feasibility of acquiring clinically useful images on a portable, low-field MRI. In this proposal, we will validate the use and successful deployment of a portable, mobile MRI into the acute stroke setting. In current practice, all patients, including those that are critically ill, must be transported to a centralized, controlled-access environment to obtain an MRI at a single time point, in a highly inaccessible paradigm. Our hypothesis is that a highly portable, low-field MRI can be deployed into nearly any setting on a platform that provides real-time, automated neuroimaging analysis. Development of this solution incorporates engineering and technological innovation (low field MRI), methodological innovation (imaging reconstruction techniques, machine learning approaches to automated diagnosis), and conceptual innovation (changing clinical workflow to accommodate a non-invasive method capable of point-of-care and serial MRI). Our key rationale is that we can expand already available treatments, facilitate decision making, and inform new approaches to patient care when we reposition the availability of MRI on a near-universal scale. The fundamental insight is that a low field, portable MRI solution, including advanced methods in image quality, reconstruction, and interpretation, can make imaging available to virtually any patient. We will bring MRI technology and interpretation to an individual patient's bedside and in doing so create a platform for MR imaging and analysis on an unprecedented scale. Because the instrument is inexpensive, does not have cooling requirements and operates on a standard 15A 120V electrical source, project success would democratize diagnostic MR imaging for ischemic and hemorrhagic stroke. In this proposal, we will develop, quantify, and validate the measure of certainty required for transition into clinical care. Stroke has been carefully chosen because of the substantial public health burden and existing treatment options that are available but currently limited because of the requirement for acute neuroimaging. We have developed a highly collaborative and multidisciplinary framework, with leading experts in low field MRI, machine learning, stroke, multicenter studies, clinical and translational research. Embedded as well in our team is the expertise to immediately take this exciting solution to a variety of novel settings (e.g. ambulance, low/middle income countries). Our industry partner, Hyperfine, is the first company in the world to develop a truly portable MRI solution, in collaboration with our academic team over the last three years. As we prospectively develop, troubleshoot, and fine-tune our solution at two leading institutions (Yale and MGH), we have assembled a broad scientific team to incorporate technological, clinical workflow, and health systems factors so that our solution is ready to deploy in any clinical setting to improve patient care across human health.

抽象的神经影像学是脑损伤患者护理的基石。高场磁铁和访问成像解释阻碍了磁共振成像（MRI）成为一种普遍的技术可用的工具。我们的小组已经证明了在便携式、低场 MRI。在本提案中，我们将验证便携式移动 MRI 的使用和成功部署进入急性中风环境。在目前的实践中，所有患者，包括危重患者，都必须接受治疗。运输到一个集中的、受控访问的环境，以在单一时间点以高度的方式获得 MRI 难以接近的范式。我们的假设是，高度便携的低场 MRI 可以部署到几乎任何领域。设置在提供实时、自动化神经影像分析的平台上。该解决方案的开发融合了工程和技术创新（低场 MRI）、方法创新（成像重建技术、自动诊断的机器学习方法）和概念创新（改变临床工作流程以适应能够进行现场护理和连续磁共振成像）。我们的主要理由是我们可以扩大现有的治疗方法，促进决策，当我们重新定位 MRI 的可用性时，它会为患者护理提供新的方法规模。基本见解是低场、便携式 MRI 解决方案，包括先进的图像方法质量、重建和解释，几乎可以为任何患者提供成像。我们将带来 MRI 技术和对单个患者床边的解释，并以此创建一个平台 MR 成像和分析规模空前。由于仪器价格便宜，没有冷却要求并在标准 15A 120V 电源上运行，项目成功将使缺血性和出血性中风的诊断 MR 成像大众化。在这个提案中，我们将开发，量化并验证过渡到临床护理所需的确定性措施。中风已由于巨大的公共健康负担和现有的治疗选择，因此经过精心选择可用但目前由于急性神经影像学的需要而受到限制。我们开发了一个高度协作和多学科框架，拥有低场 MRI、机器学习、中风、多中心研究、临床和转化研究。我们的团队也融入了专业知识立即将这一令人兴奋的解决方案应用于各种新颖的环境（例如救护车、低/中等收入国家）。我们的行业合作伙伴 Hyperfine 是世界上第一家开发真正便携式 MRI 的公司过去三年与我们的学术团队合作的解决方案。随着我们前瞻性的发展，在两个领先的机构（耶鲁大学和麻省总医院）进行故障排除和微调我们的解决方案，我们组装了一个广泛的科学团队将技术、临床工作流程和卫生系统因素结合起来，以便我们解决方案已准备好部署在任何临床环境中，以改善整个人类健康领域的患者护理。