具有烧结陶瓷珠的介电垫的介电常数和性能:3T 下的早期实验和模拟。
Permittivity and performance of dielectric pads with sintered ceramic beads in MRI: early experiments and simulations at 3 T.
机构信息
Department of Engineering Science and Mechanics, The Pennsylvania State University, University Park, Pennsylvania, USA.
出版信息
Magn Reson Med. 2013 Jul;70(1):269-75. doi: 10.1002/mrm.24433. Epub 2012 Aug 13.
Abstract
Passive dielectric materials have been used to improve aspects of MRI by affecting the distribution of radiofrequency electromagnetic fields. Recently, interest in such materials has increased with the number of high-field MRI sites. Here, we introduce a new material composed of sintered high-permittivity ceramic beads in deuterated water. This arrangement maintains the ability to create flexible pads for conforming to individual subjects. The properties of the material are measured and the performance of the material is compared to previously used materials in both simulation and experiment at 3 T. Results show that both permittivity of the beads and effect on signal-to-noise ratio and required transmit power in MRI are greater than those of materials consisting of ceramic powder in water. Importantly, use of beads results in both higher permittivity and lower conductivity than use of powder.
摘要
被动介电材料已被用于通过影响射频电磁场的分布来改善 MRI 的各个方面。最近,随着高磁场 MRI 站点数量的增加,人们对这类材料的兴趣有所增加。在这里,我们介绍了一种由烧结高介电陶瓷珠组成的新材料,该材料存在于氘水中。这种设置保持了为符合个体对象而制造灵活垫的能力。对材料的性能进行了测量,并在 3T 下进行了模拟和实验,比较了该材料与以前使用的材料的性能。结果表明,珠子的介电常数以及对磁共振成像中信噪比和所需发射功率的影响都大于由水中陶瓷粉末组成的材料。重要的是,与使用粉末相比,使用珠子既可以获得更高的介电常数,又可以获得更低的电导率。
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