磁共振小组/磁共振兼容/The physics of MRI safety:修订间差异
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{{文章推荐|Reason=从物理原理出发描述磁共振安全性的综述文章,对理解物理本质比较有帮助。|Journal=Journal of Magnetic Resonance Imaging|PubYear=2018|DOI=10.1002/jmri.25761|Category_=综述|Domain=磁共振兼容|RecomBy=龙天罡|RecomGrp=磁共振小组|ReviewBy=姜老师|Abstract=The main risks associated with magnetic resonance imaging (MRI) have been extensively reported and studied; for example, everyday objects may turn into projectiles, energy deposition can cause burns, varying fields can induce nerve stimulation, and loud noises can lead to auditory loss. The present review article is geared toward providing intuition about the physical mechanisms that give rise to these risks. On the one hand, excellent literature already exists on the practical aspect of risk management, with clinical workflow and recommendations. On the other hand, excellent technical articles also exist that explain these risks from basic principles of electromagnetism. We felt that an underserved niche might be found between the two, ie, somewhere between basic science and practical advice, to help develop intuition about electromagnetism that might prove of practical value when working around MR scanners. Following a wide-ranging introduction, risks originating from the main magnetic field, the excitation RF electromagnetic field, and switching of the imaging gradients will be presented in turn.|DetaialsDM=射频致热|Citation_=170}} | {{文章推荐|Reason=从物理原理出发描述磁共振安全性的综述文章,对理解物理本质比较有帮助。|Journal=Journal of Magnetic Resonance Imaging|PubYear=2018|DOI=10.1002/jmri.25761|Category_=综述|Domain=磁共振兼容|RecomBy=龙天罡|RecomGrp=磁共振小组|ReviewBy=姜老师|Abstract=The main risks associated with magnetic resonance imaging (MRI) have been extensively reported and studied; for example, everyday objects may turn into projectiles, energy deposition can cause burns, varying fields can induce nerve stimulation, and loud noises can lead to auditory loss. The present review article is geared toward providing intuition about the physical mechanisms that give rise to these risks. On the one hand, excellent literature already exists on the practical aspect of risk management, with clinical workflow and recommendations. On the other hand, excellent technical articles also exist that explain these risks from basic principles of electromagnetism. We felt that an underserved niche might be found between the two, ie, somewhere between basic science and practical advice, to help develop intuition about electromagnetism that might prove of practical value when working around MR scanners. Following a wide-ranging introduction, risks originating from the main magnetic field, the excitation RF electromagnetic field, and switching of the imaging gradients will be presented in turn.|DetaialsDM=射频致热|Citation_=170|CitationBy=/scholar?cites=13330223165373188143&as_sdt=2005&sciodt=0,5&hl=en}} | ||
2024年1月22日 (一) 14:00的最新版本
推荐理由
从物理原理出发描述磁共振安全性的综述文章,对理解物理本质比较有帮助。
| 文章简介 | |
|---|---|
| 期刊 | Journal of Magnetic Resonance Imaging |
| 发表年份 | 2018 |
| DOI | 10.1002/jmri.25761 |
| 类型 | 综述 |
| 领域 | 磁共振兼容 |
| 引用量 | 170 |
| 推荐信息 | |
|---|---|
| 推荐人 | 龙天罡 |
| 审核 | 姜老师 |
| 推荐小组 | 磁共振小组 |
摘要
The main risks associated with magnetic resonance imaging (MRI) have been extensively reported and studied; for example, everyday objects may turn into projectiles, energy deposition can cause burns, varying fields can induce nerve stimulation, and loud noises can lead to auditory loss. The present review article is geared toward providing intuition about the physical mechanisms that give rise to these risks. On the one hand, excellent literature already exists on the practical aspect of risk management, with clinical workflow and recommendations. On the other hand, excellent technical articles also exist that explain these risks from basic principles of electromagnetism. We felt that an underserved niche might be found between the two, ie, somewhere between basic science and practical advice, to help develop intuition about electromagnetism that might prove of practical value when working around MR scanners. Following a wide-ranging introduction, risks originating from the main magnetic field, the excitation RF electromagnetic field, and switching of the imaging gradients will be presented in turn.
细分领域
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