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Article Dans Une Revue Magnetic Resonance in Medicine Année : 2023

Quantitative magnetization transfer MRI unbiased by on‐resonance saturation and dipolar order contributions

Thomas Troalen

Résumé

To demonstrate the bias in quantitative MT (qMT) measures introduced by the presence of dipolar order and on-resonance saturation (ONRS) effects using magnetization transfer (MT) spoiled gradient-recalled (SPGR) acquisitions, and propose changes to the acquisition and analysis strategies to remove these biases. Methods: The proposed framework consists of SPGR sequences prepared with simultaneous dual-offset frequency-saturation pulses to cancel out dipolar order and associated relaxation (T 1D) effects in Z-spectrum acquisitions, and a matched quantitative MT (qMT) mathematical model that includes ONRS effects of readout pulses. Variable flip angle and MT data were fitted jointly to simultaneously estimate qMT parameters (macromolecular proton fraction [MPF], T 2,f , T 2,b , R, and free pool T 1). This framework is compared with standard qMT and investigated in terms of reproducibility, and then further developed to follow a joint single-point qMT methodology for combined estimation of MPF and T 1. Results: Bland-Altman analyses demonstrated a systematic underestimation of MPF (−2.5% and −1.3%, on average, in white and gray matter, respectively) and overestimation of T 1 (47.1 ms and 38.6 ms, on average, in white and gray matter, respectively) if both ONRS and dipolar order effects are ignored. Reproducibility of the proposed framework is excellent (ΔMPF = −0.03% and ΔT 1 = −19.0 ms). The single-point methodology yielded consistent MPF and T 1 values with respective maximum relative average bias of −0.15% and −3.5 ms found in white matter. Conclusion: The influence of acquisition strategy and matched mathematical model with regard to ONRS and dipolar order effects in qMT-SPGR frameworks has been investigated. The proposed framework holds promise for improved accuracy with reproducibility.
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Origine : Publication financée par une institution
Licence : CC BY - Paternité

Dates et versions

hal-04103313 , version 1 (23-05-2023)

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Paternité

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Lucas Soustelle, Thomas Troalen, Andreea Hertanu, Jean‐philippe Ranjeva, Maxime Guye, et al.. Quantitative magnetization transfer MRI unbiased by on‐resonance saturation and dipolar order contributions. Magnetic Resonance in Medicine, 2023, ⟨10.1002/mrm.29678⟩. ⟨hal-04103313⟩
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