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MR temperature imaging using PRF phase difference and a geometric model-based fat suppression method

Issue title: Papers from the 3rd International Conference on Biomedical Engineering and Technology (iCBEB 2014), 25–28 September 2014, Beijing, China

Subtitle:

Guest editors: Edward J. Ciaccio

Article type: Research Article

Authors: Liu, Shoubin* | Zhou, Yanming

Affiliations: Department of Mechanical Engineering and Automation, Harbin Institute of Technology Shenzhen Graduate School, Shenzhen University Town, Xili, Shenzhen, China

Correspondence: [*] Corresponding author: Shoubin Liu, Department of Mechanical Engineering and Automation, Harbin Institute of Technology Shenzhen Graduate School, Shenzhen University Town, Xili, Shenzhen, China. Tel.: +86 755 2603 3516; Fax: +86 755 2603 3774; E-mail:[email protected]

Keywords: MR thermometry, PRFS, fat suppression, geometric model

DOI: 10.3233/THC-150997

Journal: Technology and Health Care, vol. 23, no. s2, pp. S587-S592, 2015

Published: 2015
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Abstract

BACKGROUND: Because protons in fat do not exhibit a temperature-dependent frequency shift, proton resonance frequency shift (PRFS)-based MR thermometry always suffers from disturbances due to the presence of fats or lipids.

OBJECTIVE: A new fat suppression method for PRFS-based MR thermometry is proposed to obtain accurate variation of phase angle.

METHODS: Similar to the approach of separating fat and water with the two-point Dixon technique, we first scan a complex MR image for reference and then scan another complex image varying with temperature at the same TE point. Based on the conventional PRFS method, we use geometric relationships to remove the effect of fat on the variation of the phase angle.

RESULTS: Two phantoms with different water-to-fat ratios are involved in the temperature mapping test. Experimental results show that the temperature images of two phantoms are approximated under the same conditions.

CONCLUSIONS: The proposed fat suppression method is simple and effective for PRFS-based MR thermometry.

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