Repeatability of Magnetic Resonance Elastography‐Derived Mechanical Parameters in Intracranial Meningiomas

Magnetic resonance elastography (MRE) quantifies tissue viscoelasticity, offering insights into intracranial meningiomas. MRE-derived parameters, including the storage modulus (G') and the magnitude of the complex modulus (|G*|), may aid neurosurgical planning, but their repeatability remains u...

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Published in	Journal of magnetic resonance imaging
Main Authors	Aunan‐Diop, Jan Saip, Friismose, Ancuta Ioana, Halle, Bo, Pedersen, Christian Bonde, Mussmann, Bo, Hojo, Emi, Yin, Ziying, Nortvig, Mathias Just, Lagerstrand, Kerstin, Poulsen, Frantz Rom
Format	Journal Article
Language	English
Published	United States 15.05.2025
Subjects	Clinical Medicine Klinisk medicin magnetic resonance elastography meningiomas neurosurgery repeatability viscoelasticity repeatability meningiomas neurosurgery magnetic resonance elastography viscoelasticity
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ISSN	1053-1807 1522-2586 1522-2586
DOI	10.1002/jmri.29825

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Abstract	Magnetic resonance elastography (MRE) quantifies tissue viscoelasticity, offering insights into intracranial meningiomas. MRE-derived parameters, including the storage modulus (G') and the magnitude of the complex modulus (\|G\|), may aid neurosurgical planning, but their repeatability remains unexplored in brain tumors. To evaluate the repeatability of G' and \|G\| in meningiomas, the influence of tumor volume and spatial location on variability, and ranking stability across paired elastograms. Prospective. Seventeen paired MRE scans from 16 patients with meningiomas (mean age 64 ± 12 years, 10 females) scheduled for resection. MRE was performed on a 3 T system using a single-shot spin-echo echo-planar imaging (SE-EPI) sequence. Tumors were segmented on contrast-enhanced T1-weighted images; distance and volume metrics were extracted. Regions of interest were applied to G' and \|G\| elastograms. Repeatability was evaluated using the coefficient of variation (CV%). Ranking stability was assessed by comparing median G' or \|G\| values. The difference in CV% was assessed using the Wilcoxon signed rank test. Linear regression assessed the effect of tumor volume and distance from the external occipital protuberance (EOP) on CV%. The Wilcoxon signed-rank test evaluated ranking stability and scan-rescan CV%. Statistical significance was defined as p < 0.05. The difference in CV% G' (14.89 ± 12.32) and CV% \|G\| (13.88 ± 12.60) was not significant (p = 0.61). Tumor volume inversely correlated with CV% (G': β = -0.75 \|G\|: β = -0.59). Tumor-EOP distance had no significant effect (G': p = 0.58, \|G\|: p = 0.23). Rankings remained stable (G': p = 0.82, \|G\|: p = 0.71). MRE-derived parameters are repeatable in intracranial meningiomas, with G' and \|G*\| being equally stable. Larger tumors yielded more consistent estimates. Preserved ranking stability supports the use of MRE in preoperative planning. 2. Stage 2.
AbstractList	Magnetic resonance elastography (MRE) quantifies tissue viscoelasticity, offering insights into intracranial meningiomas. MRE-derived parameters, including the storage modulus (G') and the magnitude of the complex modulus (\|G\|), may aid neurosurgical planning, but their repeatability remains unexplored in brain tumors.BACKGROUNDMagnetic resonance elastography (MRE) quantifies tissue viscoelasticity, offering insights into intracranial meningiomas. MRE-derived parameters, including the storage modulus (G') and the magnitude of the complex modulus (\|G\|), may aid neurosurgical planning, but their repeatability remains unexplored in brain tumors.To evaluate the repeatability of G' and \|G\| in meningiomas, the influence of tumor volume and spatial location on variability, and ranking stability across paired elastograms.PURPOSE/HYPOTHESISTo evaluate the repeatability of G' and \|G\| in meningiomas, the influence of tumor volume and spatial location on variability, and ranking stability across paired elastograms.Prospective.STUDY TYPEProspective.Seventeen paired MRE scans from 16 patients with meningiomas (mean age 64 ± 12 years, 10 females) scheduled for resection.POPULATION/SUBJECTSSeventeen paired MRE scans from 16 patients with meningiomas (mean age 64 ± 12 years, 10 females) scheduled for resection.MRE was performed on a 3 T system using a single-shot spin-echo echo-planar imaging (SE-EPI) sequence.FIELD STRENGTH/SEQUENCEMRE was performed on a 3 T system using a single-shot spin-echo echo-planar imaging (SE-EPI) sequence.Tumors were segmented on contrast-enhanced T1-weighted images; distance and volume metrics were extracted. Regions of interest were applied to G' and \|G\| elastograms. Repeatability was evaluated using the coefficient of variation (CV%). Ranking stability was assessed by comparing median G' or \|G\| values.ASSESSMENTTumors were segmented on contrast-enhanced T1-weighted images; distance and volume metrics were extracted. Regions of interest were applied to G' and \|G\| elastograms. Repeatability was evaluated using the coefficient of variation (CV%). Ranking stability was assessed by comparing median G' or \|G\| values.The difference in CV% was assessed using the Wilcoxon signed rank test. Linear regression assessed the effect of tumor volume and distance from the external occipital protuberance (EOP) on CV%. The Wilcoxon signed-rank test evaluated ranking stability and scan-rescan CV%. Statistical significance was defined as p < 0.05.STATISTICAL TESTSThe difference in CV% was assessed using the Wilcoxon signed rank test. Linear regression assessed the effect of tumor volume and distance from the external occipital protuberance (EOP) on CV%. The Wilcoxon signed-rank test evaluated ranking stability and scan-rescan CV%. Statistical significance was defined as p < 0.05.The difference in CV% G' (14.89 ± 12.32) and CV% \|G\| (13.88 ± 12.60) was not significant (p = 0.61). Tumor volume inversely correlated with CV% (G': β = -0.75 \|G\|: β = -0.59). Tumor-EOP distance had no significant effect (G': p = 0.58, \|G\|: p = 0.23). Rankings remained stable (G': p = 0.82, \|G\|: p = 0.71).RESULTSThe difference in CV% G' (14.89 ± 12.32) and CV% \|G\| (13.88 ± 12.60) was not significant (p = 0.61). Tumor volume inversely correlated with CV% (G': β = -0.75 \|G\|: β = -0.59). Tumor-EOP distance had no significant effect (G': p = 0.58, \|G\|: p = 0.23). Rankings remained stable (G': p = 0.82, \|G\|: p = 0.71).MRE-derived parameters are repeatable in intracranial meningiomas, with G' and \|G\| being equally stable. Larger tumors yielded more consistent estimates. Preserved ranking stability supports the use of MRE in preoperative planning.DATA CONCLUSIONMRE-derived parameters are repeatable in intracranial meningiomas, with G' and \|G\| being equally stable. Larger tumors yielded more consistent estimates. Preserved ranking stability supports the use of MRE in preoperative planning.2.EVIDENCE LEVEL2.Stage 2.TECHNICAL EFFICACYStage 2. Background: Magnetic resonance elastography (MRE) quantifies tissue viscoelasticity, offering insights into intracranial meningiomas. MRE-derived parameters, including the storage modulus (G') and the magnitude of the complex modulus (\|G\|), may aid neurosurgical planning, but their repeatability remains unexplored in brain tumors. Purpose/Hypothesis: To evaluate the repeatability of G' and \|G\| in meningiomas, the influence of tumor volume and spatial location on variability, and ranking stability across paired elastograms. Study Type: Prospective. Population/Subjects: Seventeen paired MRE scans from 16 patients with meningiomas (mean age 64 +/- 12 years, 10 females) scheduled for resection. Field Strength/Sequence: MRE was performed on a 3 T system using a single-shot spin-echo echo-planar imaging (SE-EPI) sequence. Assessment: Tumors were segmented on contrast-enhanced T1-weighted images; distance and volume metrics were extracted. Regions of interest were applied to G' and \|G\| elastograms. Repeatability was evaluated using the coefficient of variation (CV%). Ranking stability was assessed by comparing median G' or \|G\| values. Statistical Tests: The difference in CV% was assessed using the Wilcoxon signed rank test. Linear regression assessed the effect of tumor volume and distance from the external occipital protuberance (EOP) on CV%. The Wilcoxon signed-rank test evaluated ranking stability and scan-rescan CV%. Statistical significance was defined as p < 0.05. Results: The difference in CV% G' (14.89 +/- 12.32) and CV% \|G\| (13.88 +/- 12.60) was not significant (p = 0.61). Tumor volume inversely correlated with CV% (G': beta = -0.75 \|G\|: beta = -0.59). Tumor-EOP distance had no significant effect (G': p = 0.58, \|G\|: p = 0.23). Rankings remained stable (G': p = 0.82, \|G\|: p = 0.71). Data Conclusion: MRE-derived parameters are repeatable in intracranial meningiomas, with G' and \|G\| being equally stable. Larger tumors yielded more consistent estimates. Preserved ranking stability supports the use of MRE in preoperative planning. Magnetic resonance elastography (MRE) quantifies tissue viscoelasticity, offering insights into intracranial meningiomas. MRE-derived parameters, including the storage modulus (G') and the magnitude of the complex modulus (\|G\|), may aid neurosurgical planning, but their repeatability remains unexplored in brain tumors. To evaluate the repeatability of G' and \|G\| in meningiomas, the influence of tumor volume and spatial location on variability, and ranking stability across paired elastograms. Prospective. Seventeen paired MRE scans from 16 patients with meningiomas (mean age 64 ± 12 years, 10 females) scheduled for resection. MRE was performed on a 3 T system using a single-shot spin-echo echo-planar imaging (SE-EPI) sequence. Tumors were segmented on contrast-enhanced T1-weighted images; distance and volume metrics were extracted. Regions of interest were applied to G' and \|G\| elastograms. Repeatability was evaluated using the coefficient of variation (CV%). Ranking stability was assessed by comparing median G' or \|G\| values. The difference in CV% was assessed using the Wilcoxon signed rank test. Linear regression assessed the effect of tumor volume and distance from the external occipital protuberance (EOP) on CV%. The Wilcoxon signed-rank test evaluated ranking stability and scan-rescan CV%. Statistical significance was defined as p < 0.05. The difference in CV% G' (14.89 ± 12.32) and CV% \|G\| (13.88 ± 12.60) was not significant (p = 0.61). Tumor volume inversely correlated with CV% (G': β = -0.75 \|G\|: β = -0.59). Tumor-EOP distance had no significant effect (G': p = 0.58, \|G\|: p = 0.23). Rankings remained stable (G': p = 0.82, \|G\|: p = 0.71). MRE-derived parameters are repeatable in intracranial meningiomas, with G' and \|G\| being equally stable. Larger tumors yielded more consistent estimates. Preserved ranking stability supports the use of MRE in preoperative planning. 2. Stage 2.
Author	Nortvig, Mathias Just Lagerstrand, Kerstin Yin, Ziying Poulsen, Frantz Rom Pedersen, Christian Bonde Mussmann, Bo Hojo, Emi Aunan‐Diop, Jan Saip Friismose, Ancuta Ioana Halle, Bo
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Keywords	repeatability meningiomas neurosurgery magnetic resonance elastography viscoelasticity
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Snippet	Magnetic resonance elastography (MRE) quantifies tissue viscoelasticity, offering insights into intracranial meningiomas. MRE-derived parameters, including the... Background: Magnetic resonance elastography (MRE) quantifies tissue viscoelasticity, offering insights into intracranial meningiomas. MRE-derived parameters,...
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SubjectTerms	Clinical Medicine Klinisk medicin magnetic resonance elastography meningiomas neurosurgery repeatability viscoelasticity
Title	Repeatability of Magnetic Resonance Elastography‐Derived Mechanical Parameters in Intracranial Meningiomas
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