Concurrent water T2 and fat fraction mapping of the breast using the radial gradient and spin echo (RADGRASE) pulse sequence

IF 2.1 4区医学 Q2 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING Magnetic resonance imaging Pub Date : 2025-02-05 DOI:10.1016/j.mri.2025.110355

Tomoe Hagio , Jean-Philippe Galons , Denise Roe , Marylin T. Marron , Cynthia Thomson , Patricia Thompson , Alison T. Stopeck , Ali Bilgin , Maria I. Altbach , Jing-Tzyh Alan Chiang

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Abstract

This work describes and evaluates an efficient radial gradient- and spin-echo (RADGRASE) pulse sequence and reconstruction algorithm for concurrent measurement of proton-density weighted fat fraction (FF) and water component T₂ (T_2w) within breast tissues. The ability to estimate T_2w in breast tissues, where fat can be highly abundant, is demonstrated using oil/gel phantoms across a wide range of FF values (0.1–0.7). Successful T_2w mapping of breast tissues is also demonstrated in vivo by comparison with fat suppressed T₂ values. The sensitivity of RADGRASE to detect changes in the breast was assessed by tracking T_2w in 3 healthy volunteers through their menstrual cycle, demonstrating T_2w values in the late luteal phase to be 18–29 ms higher than in the follicular phase. The technique is also applied to a cohort of 68 patients taking tamoxifen for breast cancer risk reduction, where significant positive correlation between the FF parameter Frac50 and T_2w (p = 0.035) was observed in premenopausal subjects (n = 20). Our findings demonstrate the ability and efficacy of RADGRASE for simultaneously mapping FF and T_2w within breast tissues, and the potential utility of the technique in studying breast tissue changes in clinical applications.

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来源期刊

Magnetic resonance imaging 医学-核医学

CiteScore

4.70

自引率

4.00%

发文量

194

审稿时长

83 days

期刊介绍： Magnetic Resonance Imaging (MRI) is the first international multidisciplinary journal encompassing physical, life, and clinical science investigations as they relate to the development and use of magnetic resonance imaging. MRI is dedicated to both basic research, technological innovation and applications, providing a single forum for communication among radiologists, physicists, chemists, biochemists, biologists, engineers, internists, pathologists, physiologists, computer scientists, and mathematicians.