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Literature DB >> 23599691

Conductivity and permittivity imaging at 3.0T.

Abstract

Tissue conductivity and permittivity are critical to understanding local radio frequency (RF) power deposition during magnetic resonance imaging (MRI). These electrical properties are also important in treatment planning of RF thermotherapy methods (e.g. RF hyperthermia). The electrical properties may also have diagnostic value as malignant tissues have been reported to have higher conductivity and higher relative permittivity than surrounding healthy tissue. In this study, we consider imaging conductivity and permittivity using MRI transmit field maps (B1+ maps) at 3.0 Tesla. We formulate efficient methods to calculate conductivity and relative permittivity from 2-dimensional B1+ data and validate the methods with simulated B1+ maps, generated at 128 MHz. Next we use the recently introduced Bloch-Siegert shift B1+ mapping method to acquire B1+ maps at 3.0 Tesla and demonstrate conductivity and relative permittivity images that successfully identify contrast in electrical properties.

Entities: Chemical Disease Gene Species

Keywords: Hyperthermia; Magnetic resonance imaging; Oncology; Tissue conductivity; Tissue permittivity

Year: 2012 PMID： 23599691 PMCID： PMC3627401 DOI： 10.1002/cmr.b.21204

Source DB: PubMed Journal: Concepts Magn Reson Part B Magn Reson Eng ISSN： 1552-5031 Impact factor: 1.176

10 in total

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10 in total

1. Tissue electrical property mapping from zero echo-time magnetic resonance imaging.

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Journal: Nan Fang Yi Ke Da Xue Xue Bao Date: 2018-04-20

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Journal: Phys Med Biol Date: 2020-02-28 Impact factor: 3.609

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