T1D‐weighted ihMT imaging – Part II. Investigating the long‐ and short‐T1D components correlation with myelin content. Comparison with R1 and the macromolecular proton fraction

Hertanu, Andreea; Soustelle, Lucas; Buron, Julie; Priellec, Julie Le; Cayre, Myriam; Troter, Arnaud Le; Varma, Gopal; Alsop, David C.; Durbec, Pascale; Girard, Olivier; Duhamel, Guillaume

doi:10.1002/mrm.29140

Cited by 12 publications

(28 citation statements)

References 73 publications

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“…A detailed analysis on the explored filters’ selectivity to certain T 1D components and their impact on the specificity and sensitivity of ihMT to myelin concerns the Part II of this work 43 …”

Section: Discussionmentioning

confidence: 99%

T_1D‐weighted ihMT imaging – Part I. Isolation of long‐ and short‐T_1D components by T_1D‐filtering

Hertanu

Soustelle

Troter

et al. 2022

Magnetic Resonance in Med

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To identify T 1D -filtering methods, which can specifically isolate various ranges of T 1D components as they may be sensitive to different microstructural properties.Methods: Modified Bloch-Provotorov equations describing a bi-T 1D component biophysical model were used to simulate the inhomogeneous magnetization transfer (ihMT) signal from ihMTRAGE sequences at high RF power and low duty-cycle with different switching time values for the dual saturation experiment: Δt = 0.0, 0.8, 1.6, and 3.2 ms. Simulations were compared with experimental signals on the brain gray and white matter tissues of healthy mice at 7T. Results:The lengthening of Δt created ihMT high-pass T 1D -filters, which efficiently eliminated the signal from T 1D components shorter than 1 ms, while partially attenuating that of longer components (≥ 1 ms). Subtraction of ihMTR images obtained with Δt = 0.0 ms and Δt = 0.8 ms generated a new ihMT band-pass T 1D -filter isolating short-T 1D components in the 100-µs to 1-ms range. Simulated ihMTR values in central nervous system tissues were confirmed experimentally. Conclusion:Long-and short-T 1D components were successfully isolated with high RF power and low duty-cycle ihMT filters in the healthy mouse brain.Future studies should investigate the various T 1D -range microstructural correlations in in vivo tissues.

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Section: Discussionmentioning

confidence: 99%

T_1D‐weighted ihMT imaging – Part I. Isolation of long‐ and short‐T_1D components by T_1D‐filtering

Hertanu

Soustelle

Troter

et al. 2022

Magnetic Resonance in Med

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“…A comprehensive theoretical and experimental analysis of the T 1D -weighting associated with ihMT was described and allowed the generation of high-pass and band-pass T 1D -filters dedicated to brain tissues ( Hertanu et al, 2022a ). Furthermore, a second study performed on healthy mice focused on the validation of the sensitivity and specificity to myelination of these T 1D -filters by comparing brain ihMT MRI data with histology ( Hertanu et al, 2022b ). Consistent with a dominant contribution of the long T 1D component in myelin, high specificity to healthy myelinated tissues was obtained for the high-pass T 1Dfilter selective for the long T 1D component.…”

Section: Introductionmentioning

confidence: 88%

“…• TA = 4 min 32 s • TA = 9 min 30 s • TA = 1 min 59 s T 2 -weighted (T 2 w) anatomical images were acquired along with specific sequences for the generation of the semi-quantitative and quantitative metrics of interest to assess myelination: ihMTsat, MPF and R 1 . The protocols have been thoroughly described in previous work ( Hertanu et al, 2022b ). In brief, a slab-selective 3D low duty cycle Mchinda et al, 2018 ) ihMT rapid gradient echo (ihMTRAGE) ( Varma et al, 2020 ) sequence was used with various values of the dual-frequency offset switching time ( ∆t) (see Fig.…”

Section: Acquisition Timementioning

confidence: 99%

“…Consistent with a dominant contribution of the long T 1D component in myelin, high specificity to healthy myelinated tissues was obtained for the high-pass T 1Dfilter selective for the long T 1D component. In addition an increasing trend in specificity was noticed as the ihMT T 1D -filter was weighted towards longer T 1D ranges by Δt lengthening ( Duhamel et al, 2019 ;Hertanu et al, 2022b ). In contrast, for the band-pass T 1D -filter isolating short T 1D components in the 100 μs to 1 ms range, lower specificity and poor correlation with histology myelin biomarkers suggested a dominant contribution of non-myelin signal source ( Hertanu et al, 2022b ).…”

Section: Introductionmentioning

confidence: 95%

“…In addition an increasing trend in specificity was noticed as the ihMT T 1D -filter was weighted towards longer T 1D ranges by Δt lengthening ( Duhamel et al, 2019 ;Hertanu et al, 2022b ). In contrast, for the band-pass T 1D -filter isolating short T 1D components in the 100 μs to 1 ms range, lower specificity and poor correlation with histology myelin biomarkers suggested a dominant contribution of non-myelin signal source ( Hertanu et al, 2022b ). Therefore, by providing access to different microstructural tissue components and features, ihMT might allow the evaluation of distinct biophysical mechanisms underlying myelin pathology.…”

Section: Introductionmentioning

confidence: 99%

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Inhomogeneous Magnetization Transfer (ihMT) imaging in the acute cuprizone mouse model of demyelination/remyelination

et al. 2023

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

Soustelle

Troalen

Hertanu

et al. 2023

Magnetic Resonance in Med

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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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T_1D‐weighted ihMT imaging – Part II. Investigating the long‐ and short‐T_1D components correlation with myelin content. Comparison with R₁ and the macromolecular proton fraction

Cited by 12 publications

References 73 publications

T_1D‐weighted ihMT imaging – Part I. Isolation of long‐ and short‐T_1D components by T_1D‐filtering

T_1D‐weighted ihMT imaging – Part I. Isolation of long‐ and short‐T_1D components by T_1D‐filtering

Inhomogeneous Magnetization Transfer (ihMT) imaging in the acute cuprizone mouse model of demyelination/remyelination

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

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T1D‐weighted ihMT imaging – Part II. Investigating the long‐ and short‐T1D components correlation with myelin content. Comparison with R1 and the macromolecular proton fraction

Cited by 12 publications

References 73 publications

T1D‐weighted ihMT imaging – Part I. Isolation of long‐ and short‐T1D components by T1D‐filtering

T1D‐weighted ihMT imaging – Part I. Isolation of long‐ and short‐T1D components by T1D‐filtering

Inhomogeneous Magnetization Transfer (ihMT) imaging in the acute cuprizone mouse model of demyelination/remyelination

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

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T_1D‐weighted ihMT imaging – Part II. Investigating the long‐ and short‐T_1D components correlation with myelin content. Comparison with R₁ and the macromolecular proton fraction

T_1D‐weighted ihMT imaging – Part I. Isolation of long‐ and short‐T_1D components by T_1D‐filtering

T_1D‐weighted ihMT imaging – Part I. Isolation of long‐ and short‐T_1D components by T_1D‐filtering