Improving the robustness of MOLLI T1 maps with a dedicated motion correction algorithm

Improving the robustness of MOLLI T1 maps with a dedicated motion correction algorithm

Myocardial tissue T1 constitutes a reliable indicator of several heart diseases related to extracellular changes (e.g. edema, fibrosis) as well as fat, iron and amyloid content. Magnetic resonance (MR) T1-mapping is typically achieved by pixel-wise exponential fitting of a series of inversion or sat...

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Bibliographic Details
Published in:Scientific reports Vol. 11; no. 1; p. 18546
Main Authors: Delso, Gaspar, Farré, Laura, Ortiz-Pérez, José T., Prat, Susanna, Doltra, Adelina, Perea, Rosario J., Caralt, Teresa M., Lorenzatti, Daniel, Vega, Julián, Sotes, Santi, Janich, Martin A., Sitges, Marta
Format: Journal Article
Language:English
Published: London Nature Publishing Group UK 17-09-2021
Nature Publishing Group
Nature Portfolio
Subjects:
639/166/985
692/4019
Algorithms
Amyloid
Cardiomyopathy
Cardiovascular disease
Cardiovascular diseases
Coronary artery disease
Edema
Exports
Fibrosis
Heart
Heart diseases
Humanities and Social Sciences
Magnetic fields
Mapping
multidisciplinary
Myocarditis
Scanners
Science
Science (multidisciplinary)
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Summary:Myocardial tissue T1 constitutes a reliable indicator of several heart diseases related to extracellular changes (e.g. edema, fibrosis) as well as fat, iron and amyloid content. Magnetic resonance (MR) T1-mapping is typically achieved by pixel-wise exponential fitting of a series of inversion or saturation recovery measurements. Good anatomical alignment between these measurements is essential for accurate T1 estimation. Motion correction is recommended to improve alignment. However, in the case of inversion recovery sequences, this correction is compromised by the intrinsic contrast variation between frames. A model-based, non-rigid motion correction method for MOLLI series was implemented and validated on a large database of cardiac clinical cases (n = 186). The method relies on a dedicated similarity metric that accounts for the intensity changes caused by T1 magnetization relaxation. The results were compared to uncorrected series and to the standard motion correction included in the scanner. To automate the quantitative analysis of results, a custom data alignment metric was defined. Qualitative evaluation was performed on a subset of cases to confirm the validity of the new metric. Motion correction caused noticeable (i.e. > 5%) performance degradation in 12% of cases with the standard method, compared to 0.3% with the new dedicated method. The average alignment quality was 85% ± 9% with the default correction and 90% ± 7% with the new method. The results of the qualitative evaluation were found to correlate with the quantitative metric. In conclusion, a dedicated motion correction method for T1 mapping MOLLI series has been evaluated on a large database of clinical cardiac MR cases, confirming its increased robustness with respect to the standard method implemented in the scanner.
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ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-021-97841-z