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Main Authors: Arends, Gerrit, Versteeg, Edwin, Jia, Feng, Klomp, Dennis, Zaitsev, Maxim, Littin, Sebastian, Tax, Chantal
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2605.08957
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author Arends, Gerrit
Versteeg, Edwin
Jia, Feng
Klomp, Dennis
Zaitsev, Maxim
Littin, Sebastian
Tax, Chantal
author_facet Arends, Gerrit
Versteeg, Edwin
Jia, Feng
Klomp, Dennis
Zaitsev, Maxim
Littin, Sebastian
Tax, Chantal
contents Purpose: Diffusion MRI has shown promise for breast cancer screening, lesion characterization,and treatment response monitoring without contrast agents, but further translation is constraint by the gradient performance of conventional systems. The aim of this work is to develop a single-axis high performance bilateral plug-and-play breast gradient insert to enable strong-gradient diffusion MRI. Methods: An in-house breast gradient insert and bed-tabletop was constructed entirely from commercially available materials, providing a cost-effective solution compatible with existing MRI systems. Its wiring pattern was optimized for torque and force balancing, power dissipation, and target field performance. Evaluation included gradient field characterization, peripheral nerve stimulation simulation verification, and temperature and eddy current assessment. The setup was used for imaging of a diffusion phantom based on soy lecithin across a range of b-values. Results: Gradient efficiency reached 2.8 mT/m/A, enabling local strengths up to 1850 mT/m (660 A). No peripheral nerve stimulation was observed during tests on five healthy volunteers. Eddy currents were successfully characterized employed in standard correction methods. Imaging showed the feasibility of $b = 10 000 s/mm^2$ acquisitions at TE = 78 ms versus 161 ms with scanner gradients. Conclusion: This work demonstrates a dedicated bilateral breast gradient insert for safe and feasible strong-gradient breast diffusion MRI, and represents a first step toward dedicated hardware for breast cancer detection and characterization without contrast agents.
format Preprint
id arxiv_https___arxiv_org_abs_2605_08957
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Bilateral breast gradient insert prototype for strong diffusion encoding at 3T
Arends, Gerrit
Versteeg, Edwin
Jia, Feng
Klomp, Dennis
Zaitsev, Maxim
Littin, Sebastian
Tax, Chantal
Medical Physics
Purpose: Diffusion MRI has shown promise for breast cancer screening, lesion characterization,and treatment response monitoring without contrast agents, but further translation is constraint by the gradient performance of conventional systems. The aim of this work is to develop a single-axis high performance bilateral plug-and-play breast gradient insert to enable strong-gradient diffusion MRI. Methods: An in-house breast gradient insert and bed-tabletop was constructed entirely from commercially available materials, providing a cost-effective solution compatible with existing MRI systems. Its wiring pattern was optimized for torque and force balancing, power dissipation, and target field performance. Evaluation included gradient field characterization, peripheral nerve stimulation simulation verification, and temperature and eddy current assessment. The setup was used for imaging of a diffusion phantom based on soy lecithin across a range of b-values. Results: Gradient efficiency reached 2.8 mT/m/A, enabling local strengths up to 1850 mT/m (660 A). No peripheral nerve stimulation was observed during tests on five healthy volunteers. Eddy currents were successfully characterized employed in standard correction methods. Imaging showed the feasibility of $b = 10 000 s/mm^2$ acquisitions at TE = 78 ms versus 161 ms with scanner gradients. Conclusion: This work demonstrates a dedicated bilateral breast gradient insert for safe and feasible strong-gradient breast diffusion MRI, and represents a first step toward dedicated hardware for breast cancer detection and characterization without contrast agents.
title Bilateral breast gradient insert prototype for strong diffusion encoding at 3T
topic Medical Physics
url https://arxiv.org/abs/2605.08957