[New clinical applications for low-field magnetic resonance imaging : Technical and physical aspects].

4区 医学 Q3 Medicine Radiologe Pub Date : 2022-05-01 Epub Date: 2022-02-22 DOI:10.1007/s00117-022-00967-y
Hanns-Christian Breit, Jan Vosshenrich, Michael Bach, Elmar M Merkle
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引用次数: 1

Abstract

Background: Low-field magnetic resonance imaging (MRI) is experiencing a renaissance due to technical innovations. The new-generation devices offer new applications for imaging and a possible solution to increasing cost pressures in the healthcare system.

Objectives: Effects of field strength on technique, physics, image acquisition, and diagnostic quality of examinations are presented.

Methods: Important basic physical parameters for image acquisition and quality are summarized. Initial clinical experience with a new 0.55 T low-field scanner is presented.

Results: Field strengths that are lower than the currently used 1.5 T and 3 T field strengths are characterized by an expected lower signal-to-noise ratio in image acquisition. Whether this is a diagnostic limitation needs to be evaluated in studies, as there are several options to offset this perceived drawback, including increasing measurement time or artificial intelligence (AI) postprocessing techniques. In addition, it is necessary to meticulously investigate whether low-field systems allow diagnostically adequate image quality to be achieved in different body regions and different disease entities. Initial studies in our clinic are promising and show, for example, diagnostic quality without relevant loss of time for examinations of the lumbar spine. Advantages of low-field MRI include reduced susceptibility artifacts when imaging the lungs and in patients with metallic implants.

Conclusion: Low-field scanners offer a variety of new fields of application with field strength-related advantages. In most other clinical examination fields, at least diagnostic quality can be expected.

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[低场磁共振成像的新临床应用:技术和物理方面]。
背景:由于技术创新,低场磁共振成像(MRI)正在经历复兴。新一代设备为成像提供了新的应用,并为医疗保健系统中不断增加的成本压力提供了可能的解决方案。目的:介绍场强对技术、物理、图像采集和检查诊断质量的影响。方法:总结了影响图像采集和质量的重要基本物理参数。初步临床经验与新的0.55 T低场扫描仪提出。结果:低于目前使用的1.5 T和3 T场强的场强在图像采集中具有预期的较低信噪比。这是否是一种诊断限制需要在研究中进行评估,因为有几种选择可以抵消这一感知缺陷,包括增加测量时间或人工智能(AI)后处理技术。此外,有必要仔细研究低场系统是否能够在不同的身体区域和不同的疾病实体中获得诊断上足够的图像质量。我们诊所的初步研究是有希望的,例如,在不浪费腰椎检查时间的情况下,显示出诊断质量。低场MRI的优点包括在肺部成像和金属植入物患者中减少敏感性伪影。结论:低场扫描仪具有场强相关的优势,提供了多种新的应用领域。在大多数其他临床检查领域,至少可以期望诊断质量。
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来源期刊
Radiologe
Radiologe 医学-核医学
CiteScore
1.10
自引率
0.00%
发文量
61
审稿时长
6-12 weeks
期刊介绍: Der Radiologe is an internationally recognized journal dealing with all aspects of radiology and serving the continuing medical education of radiologists in clinical and practical environments. The focus is on x-ray diagnostics, angiography computer tomography, interventional radiology, magnet resonance tomography, digital picture processing, radio oncology and nuclear medicine. Comprehensive reviews on a specific topical issue focus on providing evidenced based information on diagnostics and therapy. Freely submitted original papers allow the presentation of important clinical studies and serve the scientific exchange. Review articles under the rubric ''Continuing Medical Education'' present verified results of scientific research and their integration into daily practice.
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