Assessment of ultra-high-field Magnetic Resonance Imaging safety via temperature increase monitoring with Magnetic Resonance Thermometry

机译：通过使用磁共振测温仪进行温度升高监控来评估超高场磁共振成像的安全性

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Patient safety during Magnetic Resonance Imaging (MRI) examinations is currently guaranteed through the compliance with the limitations on the Specific Absorption Rate (SAR) exposure provided by the current regulations. SAR limits are implemented by scanner vendors in a strictly conservative way to nullify the risk of patient hazard, even at the cost of limiting sometimes the diagnostic power of the exam. Nonetheless, both in the case of ultra-high field applications (i.e. with static magnetic field of 7 T and above) and at clinical field strengths for example in the presence of metallic prosthetic implants, the inhomogeneities in the RF excitation field distribution may cause a local and subject-specific SAR increase. In those cases, local tissue temperatures could reach damaging levels. To directly quantify the local temperature increase caused by the more commonly used RF acquisition sequences in MRI of the human extremities, we have implemented Magnetic Resonance Thermometry (MRT) techniques on a 7 T MRI scanner. We demonstrated that temperature increase maps are easily and fast obtainable with MRT techniques, which are sensitive enough to detect potential hazardous tissue heating.

机译：当前，通过遵守当前法规对特定吸收率（SAR）暴露的限制，可以确保磁共振成像（MRI）检查期间的患者安全。 SAR限制由扫描仪供应商以严格保守的方式实施，以消除患者危害的风险，即使是以有时会限制检查的诊断能力为代价。但是，无论是在超高磁场应用（即7 T及更高的静磁场）下还是在临床磁场强度下（例如在存在金属假体的情况下），RF激发场分布中的不均匀性都可能导致局部和特定对象的SAR增加。在那些情况下，局部组织温度可能达到破坏性水平。为了直接量化由人类肢体MRI中更常用的RF采集序列引起的局部温度升高，我们在7 T MRI扫描仪上实施了磁共振测温（MRT）技术。我们证明，使用MRT技术可以轻松快速地获得温度升高图，该技术足够灵敏以检测潜在的危险组织发热。

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《IEEE International Symposium on Medical Measurements and Applications》|2020年|1-5|共5页
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Laura Biagi; Vito Gagliardi; Alessandra Retico; Massimo Marletta; Giacomo Aringhieri; Gianluigi Tiberi; Francesco Campanella; Michela Tosetti;
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Patient Safety; Magnetic Resonance Imaging; Ultra High Field; Specific Absorption Rate; Magnetic Resonance Thermometry;

机译：患者安全;磁共振成像;超高场;比吸收率;磁共振测温;

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Assessment of ultra-high-field Magnetic Resonance Imaging safety via temperature increase monitoring with Magnetic Resonance Thermometry

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