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This is a Experimental Study study.

September 17, 2025

Magnetization Transfer Knee Imaging at 0.05 Tesla with Extremely Low SAR

Key Points

Magnetization transfer effects exceed 30% in articular cartilage, highlighting its evaluation potential.
The estimated specific absorption rate during imaging is extremely low at 3.1 mW/kg, making it safe.
GRE sequences used in the examination demonstrate robustness across multiple subjects and tests.
First-time demonstration of low-field magnetization transfer knee imaging opens avenues for advanced cartilage assessment.

Abstract

Motivation: The intrinsic low specific absorption rate (SAR) at ultra-low-field (ULF) enables the application of versatile RF pulses for magnetization transfer (MT) knee imaging. Goal(s): To explore MT knee imaging for articular cartilage evaluation at 0.05 Tesla. Approach: GRE sequences, without and with sinc-modulated RF pulse train (SPT) modules as MT preparation, were utilized for knee imaging. Results: Articular cartilage exhibits strong MT effects, with MT ratios exceeding 30% for different subjects. Both inter-examination test and multiple subject results demonstrate the robustness of ULF MT knee imaging. Moreover, the MT preparation SAR is estimated to be extremely low as 3.1mW/kg. Impact: MT knee imaging is demonstrated at 0.05 Tesla for the first time. Strong MT effects have been observed in articular cartilage with an extremely low SAR of 3.1mW/kg, rendering the potential of ULF MT knee imaging for articular cartilage evaluation.

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Magnetization Transfer Knee Imaging at 0.05 Tesla with Extremely Low SAR

Key Points

Abstract

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