Synthetic MRI with Magnetic Resonance Spin TomogrAphy in Time-Domain (MR-STAT): Results from a Prospective Cross-Sectional Clinical Trial

Jordi P D Kleinloog; Stefano Mandija; Federico D'Agata; Hongyan Liu; Oscar van der Heide; Beyza Koktas; Jan Willem Dankbaar; Vera C Keil; Evert-Jan Vonken; Sarah M Jacobs; Cornelis A T van den Berg; Jeroen Hendrikse; Anja G van der Kolk; Alessandro Sbrizzi

doi:10.1002/jmri.28425

Synthetic MRI with Magnetic Resonance Spin TomogrAphy in Time-Domain (MR-STAT): Results from a Prospective Cross-Sectional Clinical Trial

Jordi P D Kleinloog, Stefano Mandija, Federico D'Agata, Hongyan Liu, Oscar van der Heide, Beyza Koktas, Jan Willem Dankbaar, Vera C Keil, Evert-Jan Vonken, Sarah M Jacobs, Cornelis A T van den Berg, Jeroen Hendrikse, Anja G van der Kolk, Alessandro Sbrizzi

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Abstract

BACKGROUND: Magnetic Resonance Spin TomogrAphy in Time-domain (MR-STAT) can reconstruct whole-brain multi-parametric quantitative maps (eg, T 1 , T 2 ) from a 5-minute MR acquisition. These quantitative maps can be leveraged for synthetization of clinical image contrasts.

PURPOSE: The objective was to assess image quality and overall diagnostic accuracy of synthetic MR-STAT contrasts compared to conventional contrast-weighted images.

STUDY TYPE: Prospective cross-sectional clinical trial.

POPULATION: Fifty participants with a median age of 45 years (range: 21-79 years) consisting of 10 healthy participants and 40 patients with neurological diseases (brain tumor, epilepsy, multiple sclerosis or stroke).

FIELD STRENGTH/SEQUENCE: 3T/Conventional contrast-weighted imaging (T 1 /T 2 weighted, proton density [PD] weighted, and fluid-attenuated inversion recovery [FLAIR]) and a MR-STAT acquisition (2D Cartesian spoiled gradient echo with varying flip angle preceded by a non-selective inversion pulse).

ASSESSMENT: Quantitative T 1 , T 2 , and PD maps were computed from the MR-STAT acquisition, from which synthetic contrasts were generated. Three neuroradiologists blinded for image type and disease randomly and independently evaluated synthetic and conventional datasets for image quality and diagnostic accuracy, which was assessed by comparison with the clinically confirmed diagnosis.

STATISTICAL TESTS: Image quality and consequent acceptability for diagnostic use was assessed with a McNemar's test (one-sided α = 0.025). Wilcoxon signed rank test with a one-sided α = 0.025 and a margin of Δ = 0.5 on the 5-level Likert scale was used to assess non-inferiority.

RESULTS: All data sets were similar in acceptability for diagnostic use (≥3 Likert-scale) between techniques (T 1 w:P = 0.105, PDw:P = 1.000, FLAIR:P = 0.564). However, only the synthetic MR-STAT T 2 weighted images were significantly non-inferior to their conventional counterpart; all other synthetic datasets were inferior (T 1 w:P = 0.260, PDw:P = 1.000, FLAIR:P = 1.000). Moreover, true positive/negative rates were similar between techniques (conventional: 88%, MR-STAT: 84%).

DATA CONCLUSION: MR-STAT is a quantitative technique that may provide radiologists with clinically useful synthetic contrast images within substantially reduced scan time.

EVIDENCE LEVEL: 1 Technical Efficacy: Stage 2.

Original language	English
Pages (from-to)	1451-1461
Number of pages	11
Journal	Journal of Magnetic Resonance Imaging
Volume	57
Issue number	5
DOIs	https://doi.org/10.1002/jmri.28425
Publication status	Published - May 2023

Keywords

diagnostic accuracy
diagnostic quality
magnetic resonance imaging
MR-STAT
quantitative MRI
synthetic MRI

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Magnetic Resonance Imaging - 2022 - Kleinloog - Synthetic MRI with Magnetic Resonance Spin TomogrAphy in Time‐Domain Final published version, 1.19 MBLicence: CC BY

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Kleinloog, J. P. D., Mandija, S., D'Agata, F., Liu, H., van der Heide, O., Koktas, B., Dankbaar, J. W., Keil, V. C., Vonken, E.-J., Jacobs, S. M., van den Berg, C. A. T., Hendrikse, J., van der Kolk, A. G., & Sbrizzi, A. (2023). Synthetic MRI with Magnetic Resonance Spin TomogrAphy in Time-Domain (MR-STAT): Results from a Prospective Cross-Sectional Clinical Trial. Journal of Magnetic Resonance Imaging, 57(5), 1451-1461. https://doi.org/10.1002/jmri.28425

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title = "Synthetic MRI with Magnetic Resonance Spin TomogrAphy in Time-Domain (MR-STAT): Results from a Prospective Cross-Sectional Clinical Trial",

abstract = "BACKGROUND: Magnetic Resonance Spin TomogrAphy in Time-domain (MR-STAT) can reconstruct whole-brain multi-parametric quantitative maps (eg, T 1 , T 2 ) from a 5-minute MR acquisition. These quantitative maps can be leveraged for synthetization of clinical image contrasts. PURPOSE: The objective was to assess image quality and overall diagnostic accuracy of synthetic MR-STAT contrasts compared to conventional contrast-weighted images.STUDY TYPE: Prospective cross-sectional clinical trial.POPULATION: Fifty participants with a median age of 45 years (range: 21-79 years) consisting of 10 healthy participants and 40 patients with neurological diseases (brain tumor, epilepsy, multiple sclerosis or stroke).FIELD STRENGTH/SEQUENCE: 3T/Conventional contrast-weighted imaging (T 1 /T 2 weighted, proton density [PD] weighted, and fluid-attenuated inversion recovery [FLAIR]) and a MR-STAT acquisition (2D Cartesian spoiled gradient echo with varying flip angle preceded by a non-selective inversion pulse). ASSESSMENT: Quantitative T 1 , T 2 , and PD maps were computed from the MR-STAT acquisition, from which synthetic contrasts were generated. Three neuroradiologists blinded for image type and disease randomly and independently evaluated synthetic and conventional datasets for image quality and diagnostic accuracy, which was assessed by comparison with the clinically confirmed diagnosis. STATISTICAL TESTS: Image quality and consequent acceptability for diagnostic use was assessed with a McNemar's test (one-sided α = 0.025). Wilcoxon signed rank test with a one-sided α = 0.025 and a margin of Δ = 0.5 on the 5-level Likert scale was used to assess non-inferiority.RESULTS: All data sets were similar in acceptability for diagnostic use (≥3 Likert-scale) between techniques (T 1 w:P = 0.105, PDw:P = 1.000, FLAIR:P = 0.564). However, only the synthetic MR-STAT T 2 weighted images were significantly non-inferior to their conventional counterpart; all other synthetic datasets were inferior (T 1 w:P = 0.260, PDw:P = 1.000, FLAIR:P = 1.000). Moreover, true positive/negative rates were similar between techniques (conventional: 88%, MR-STAT: 84%). DATA CONCLUSION: MR-STAT is a quantitative technique that may provide radiologists with clinically useful synthetic contrast images within substantially reduced scan time.EVIDENCE LEVEL: 1 Technical Efficacy: Stage 2.",

keywords = "diagnostic accuracy, diagnostic quality, magnetic resonance imaging, MR-STAT, quantitative MRI, synthetic MRI",

author = "Kleinloog, {Jordi P D} and Stefano Mandija and Federico D'Agata and Hongyan Liu and {van der Heide}, Oscar and Beyza Koktas and Dankbaar, {Jan Willem} and Keil, {Vera C} and Evert-Jan Vonken and Jacobs, {Sarah M} and {van den Berg}, {Cornelis A T} and Jeroen Hendrikse and {van der Kolk}, {Anja G} and Alessandro Sbrizzi",

note = "Publisher Copyright: {\textcopyright} 2022 The Authors. Journal of Magnetic Resonance Imaging published by Wiley Periodicals LLC on behalf of International Society for Magnetic Resonance in Medicine.",

year = "2023",

month = may,

doi = "10.1002/jmri.28425",

language = "English",

volume = "57",

pages = "1451--1461",

journal = "Journal of Magnetic Resonance Imaging",

issn = "1053-1807",

publisher = "John Wiley & Sons Inc.",

number = "5",

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Kleinloog, JPD, Mandija, S, D'Agata, F, Liu, H, van der Heide, O, Koktas, B, Dankbaar, JW, Keil, VC, Vonken, E-J, Jacobs, SM, van den Berg, CAT , Hendrikse, J, van der Kolk, AG & Sbrizzi, A 2023, 'Synthetic MRI with Magnetic Resonance Spin TomogrAphy in Time-Domain (MR-STAT): Results from a Prospective Cross-Sectional Clinical Trial', Journal of Magnetic Resonance Imaging, vol. 57, no. 5, pp. 1451-1461. https://doi.org/10.1002/jmri.28425

TY - JOUR

T1 - Synthetic MRI with Magnetic Resonance Spin TomogrAphy in Time-Domain (MR-STAT)

T2 - Results from a Prospective Cross-Sectional Clinical Trial

AU - Kleinloog, Jordi P D

AU - Mandija, Stefano

AU - D'Agata, Federico

AU - Liu, Hongyan

AU - van der Heide, Oscar

AU - Koktas, Beyza

AU - Dankbaar, Jan Willem

AU - Keil, Vera C

AU - Vonken, Evert-Jan

AU - Jacobs, Sarah M

AU - van den Berg, Cornelis A T

AU - Hendrikse, Jeroen

AU - van der Kolk, Anja G

AU - Sbrizzi, Alessandro

PY - 2023/5

Y1 - 2023/5

N2 - BACKGROUND: Magnetic Resonance Spin TomogrAphy in Time-domain (MR-STAT) can reconstruct whole-brain multi-parametric quantitative maps (eg, T 1 , T 2 ) from a 5-minute MR acquisition. These quantitative maps can be leveraged for synthetization of clinical image contrasts. PURPOSE: The objective was to assess image quality and overall diagnostic accuracy of synthetic MR-STAT contrasts compared to conventional contrast-weighted images.STUDY TYPE: Prospective cross-sectional clinical trial.POPULATION: Fifty participants with a median age of 45 years (range: 21-79 years) consisting of 10 healthy participants and 40 patients with neurological diseases (brain tumor, epilepsy, multiple sclerosis or stroke).FIELD STRENGTH/SEQUENCE: 3T/Conventional contrast-weighted imaging (T 1 /T 2 weighted, proton density [PD] weighted, and fluid-attenuated inversion recovery [FLAIR]) and a MR-STAT acquisition (2D Cartesian spoiled gradient echo with varying flip angle preceded by a non-selective inversion pulse). ASSESSMENT: Quantitative T 1 , T 2 , and PD maps were computed from the MR-STAT acquisition, from which synthetic contrasts were generated. Three neuroradiologists blinded for image type and disease randomly and independently evaluated synthetic and conventional datasets for image quality and diagnostic accuracy, which was assessed by comparison with the clinically confirmed diagnosis. STATISTICAL TESTS: Image quality and consequent acceptability for diagnostic use was assessed with a McNemar's test (one-sided α = 0.025). Wilcoxon signed rank test with a one-sided α = 0.025 and a margin of Δ = 0.5 on the 5-level Likert scale was used to assess non-inferiority.RESULTS: All data sets were similar in acceptability for diagnostic use (≥3 Likert-scale) between techniques (T 1 w:P = 0.105, PDw:P = 1.000, FLAIR:P = 0.564). However, only the synthetic MR-STAT T 2 weighted images were significantly non-inferior to their conventional counterpart; all other synthetic datasets were inferior (T 1 w:P = 0.260, PDw:P = 1.000, FLAIR:P = 1.000). Moreover, true positive/negative rates were similar between techniques (conventional: 88%, MR-STAT: 84%). DATA CONCLUSION: MR-STAT is a quantitative technique that may provide radiologists with clinically useful synthetic contrast images within substantially reduced scan time.EVIDENCE LEVEL: 1 Technical Efficacy: Stage 2.

AB - BACKGROUND: Magnetic Resonance Spin TomogrAphy in Time-domain (MR-STAT) can reconstruct whole-brain multi-parametric quantitative maps (eg, T 1 , T 2 ) from a 5-minute MR acquisition. These quantitative maps can be leveraged for synthetization of clinical image contrasts. PURPOSE: The objective was to assess image quality and overall diagnostic accuracy of synthetic MR-STAT contrasts compared to conventional contrast-weighted images.STUDY TYPE: Prospective cross-sectional clinical trial.POPULATION: Fifty participants with a median age of 45 years (range: 21-79 years) consisting of 10 healthy participants and 40 patients with neurological diseases (brain tumor, epilepsy, multiple sclerosis or stroke).FIELD STRENGTH/SEQUENCE: 3T/Conventional contrast-weighted imaging (T 1 /T 2 weighted, proton density [PD] weighted, and fluid-attenuated inversion recovery [FLAIR]) and a MR-STAT acquisition (2D Cartesian spoiled gradient echo with varying flip angle preceded by a non-selective inversion pulse). ASSESSMENT: Quantitative T 1 , T 2 , and PD maps were computed from the MR-STAT acquisition, from which synthetic contrasts were generated. Three neuroradiologists blinded for image type and disease randomly and independently evaluated synthetic and conventional datasets for image quality and diagnostic accuracy, which was assessed by comparison with the clinically confirmed diagnosis. STATISTICAL TESTS: Image quality and consequent acceptability for diagnostic use was assessed with a McNemar's test (one-sided α = 0.025). Wilcoxon signed rank test with a one-sided α = 0.025 and a margin of Δ = 0.5 on the 5-level Likert scale was used to assess non-inferiority.RESULTS: All data sets were similar in acceptability for diagnostic use (≥3 Likert-scale) between techniques (T 1 w:P = 0.105, PDw:P = 1.000, FLAIR:P = 0.564). However, only the synthetic MR-STAT T 2 weighted images were significantly non-inferior to their conventional counterpart; all other synthetic datasets were inferior (T 1 w:P = 0.260, PDw:P = 1.000, FLAIR:P = 1.000). Moreover, true positive/negative rates were similar between techniques (conventional: 88%, MR-STAT: 84%). DATA CONCLUSION: MR-STAT is a quantitative technique that may provide radiologists with clinically useful synthetic contrast images within substantially reduced scan time.EVIDENCE LEVEL: 1 Technical Efficacy: Stage 2.

KW - diagnostic accuracy

KW - diagnostic quality

KW - magnetic resonance imaging

KW - MR-STAT

KW - quantitative MRI

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Synthetic MRI with Magnetic Resonance Spin TomogrAphy in Time-Domain (MR-STAT): Results from a Prospective Cross-Sectional Clinical Trial

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