Accelerated 3D T             2 mapping with dictionary-based matching for prostate imaging

Elisa Roccia; Rohini Vidya Shankar; Radhouene Neji; Gastao Lima da Cruz; Camila Munoz; Rene Botnar; Vicky Goh; Claudia Prieto; Isabel Dregely

doi:10.1002/mrm.27540

Accelerated 3D T ₂ mapping with dictionary-based matching for prostate imaging

Elisa Roccia, Rohini Vidya Shankar, Radhouene Neji, Gastao Lima da Cruz, Camila Munoz, Rene Botnar, Vicky Goh, Claudia Prieto, Isabel Dregely

Research output: Contribution to journal › Article › peer-review

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Abstract

PURPOSE: To develop a fast and accurate method for 3D T2 mapping of prostate cancer using undersampled acquisition and dictionary-based fitting.

METHODS: 3D high-resolution T2 -weighted images (0.9 × 0.9 × 3 mm3 ) were obtained with a multishot T2 -prepared balanced steady-state free precession (T2 -prep-bSSFP) acquisition sequence using a 3D variable density undersampled Cartesian trajectory. Each T2 -weighted image was reconstructed using total variation regularized sensitivity encoding. A flexible simulation framework based on extended phase graphs generated a dictionary of magnetization signals, which was customized to the proposed sequence. The dictionary was matched to the acquired T2 -weighted images to retrieve quantitative T2 values, which were then compared to gold-standard spin echo acquisition values using monoexponential fitting. The proposed approach was validated in simulations and a T1 /T2 phantom, and feasibility was tested in 8 healthy subjects.

RESULTS: The simulation analysis showed that the proposed T2 mapping approach is robust to noise and typically observed T1 variations. T2 values obtained in the phantom with T2 prep-bSSFP and the acquisition-specific, dictionary-based matching were highly correlated with the gold-standard spin echo method (r = 0.99). Furthermore, no differences were observed with the accelerated acquisition compared to the fully sampled acquisition (r = 0.99). T2 values obtained in prostate peripheral zone, central gland, and muscle in healthy subjects (age, 26 ± 6 years) were 97 ± 14, 76 ± 7, and 36 ± 3 ms, respectively.

CONCLUSION: 3D quantitative T2 mapping of the whole prostate can be achieved in 3 minutes.

Original language	English
Pages (from-to)	1795-1805
Number of pages	11
Journal	Magnetic resonance in medicine
Volume	81
Issue number	3
Early online date	28 Oct 2018
DOIs	https://doi.org/10.1002/mrm.27540
Publication status	Published - 1 Mar 2019

Keywords

3T MRI
T mapping
prostate cancer imaging
quantitative MRI

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This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1002/mrm.27540

T2mapping_pre_reviewSubmitted manuscript, 877 KB
Accelerated 3D T2 Mapping_ROCCIA_Accepted28August2018Publishedonline28October2018_GREEN AAMAccepted author manuscript, 1.41 MB

Cite this

@article{dc4b246a35804a7981f3df7b3ab0a4c9,

title = "Accelerated 3D T 2 mapping with dictionary-based matching for prostate imaging",

abstract = "PURPOSE: To develop a fast and accurate method for 3D T2 mapping of prostate cancer using undersampled acquisition and dictionary-based fitting.METHODS: 3D high-resolution T2 -weighted images (0.9 × 0.9 × 3 mm3 ) were obtained with a multishot T2 -prepared balanced steady-state free precession (T2 -prep-bSSFP) acquisition sequence using a 3D variable density undersampled Cartesian trajectory. Each T2 -weighted image was reconstructed using total variation regularized sensitivity encoding. A flexible simulation framework based on extended phase graphs generated a dictionary of magnetization signals, which was customized to the proposed sequence. The dictionary was matched to the acquired T2 -weighted images to retrieve quantitative T2 values, which were then compared to gold-standard spin echo acquisition values using monoexponential fitting. The proposed approach was validated in simulations and a T1 /T2 phantom, and feasibility was tested in 8 healthy subjects.RESULTS: The simulation analysis showed that the proposed T2 mapping approach is robust to noise and typically observed T1 variations. T2 values obtained in the phantom with T2 prep-bSSFP and the acquisition-specific, dictionary-based matching were highly correlated with the gold-standard spin echo method (r = 0.99). Furthermore, no differences were observed with the accelerated acquisition compared to the fully sampled acquisition (r = 0.99). T2 values obtained in prostate peripheral zone, central gland, and muscle in healthy subjects (age, 26 ± 6 years) were 97 ± 14, 76 ± 7, and 36 ± 3 ms, respectively.CONCLUSION: 3D quantitative T2 mapping of the whole prostate can be achieved in 3 minutes.",

keywords = "3T MRI, T mapping, prostate cancer imaging, quantitative MRI",

author = "Elisa Roccia and {Vidya Shankar}, Rohini and Radhouene Neji and {Lima da Cruz}, Gastao and Camila Munoz and Rene Botnar and Vicky Goh and Claudia Prieto and Isabel Dregely",

note = "{\textcopyright} 2018 International Society for Magnetic Resonance in Medicine.",

year = "2019",

month = mar,

day = "1",

doi = "10.1002/mrm.27540",

language = "English",

volume = "81",

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T1 - Accelerated 3D T 2 mapping with dictionary-based matching for prostate imaging

AU - Roccia, Elisa

AU - Vidya Shankar, Rohini

AU - Neji, Radhouene

AU - Lima da Cruz, Gastao

AU - Munoz, Camila

AU - Botnar, Rene

AU - Goh, Vicky

AU - Prieto, Claudia

AU - Dregely, Isabel

PY - 2019/3/1

Y1 - 2019/3/1

N2 - PURPOSE: To develop a fast and accurate method for 3D T2 mapping of prostate cancer using undersampled acquisition and dictionary-based fitting.METHODS: 3D high-resolution T2 -weighted images (0.9 × 0.9 × 3 mm3 ) were obtained with a multishot T2 -prepared balanced steady-state free precession (T2 -prep-bSSFP) acquisition sequence using a 3D variable density undersampled Cartesian trajectory. Each T2 -weighted image was reconstructed using total variation regularized sensitivity encoding. A flexible simulation framework based on extended phase graphs generated a dictionary of magnetization signals, which was customized to the proposed sequence. The dictionary was matched to the acquired T2 -weighted images to retrieve quantitative T2 values, which were then compared to gold-standard spin echo acquisition values using monoexponential fitting. The proposed approach was validated in simulations and a T1 /T2 phantom, and feasibility was tested in 8 healthy subjects.RESULTS: The simulation analysis showed that the proposed T2 mapping approach is robust to noise and typically observed T1 variations. T2 values obtained in the phantom with T2 prep-bSSFP and the acquisition-specific, dictionary-based matching were highly correlated with the gold-standard spin echo method (r = 0.99). Furthermore, no differences were observed with the accelerated acquisition compared to the fully sampled acquisition (r = 0.99). T2 values obtained in prostate peripheral zone, central gland, and muscle in healthy subjects (age, 26 ± 6 years) were 97 ± 14, 76 ± 7, and 36 ± 3 ms, respectively.CONCLUSION: 3D quantitative T2 mapping of the whole prostate can be achieved in 3 minutes.

AB - PURPOSE: To develop a fast and accurate method for 3D T2 mapping of prostate cancer using undersampled acquisition and dictionary-based fitting.METHODS: 3D high-resolution T2 -weighted images (0.9 × 0.9 × 3 mm3 ) were obtained with a multishot T2 -prepared balanced steady-state free precession (T2 -prep-bSSFP) acquisition sequence using a 3D variable density undersampled Cartesian trajectory. Each T2 -weighted image was reconstructed using total variation regularized sensitivity encoding. A flexible simulation framework based on extended phase graphs generated a dictionary of magnetization signals, which was customized to the proposed sequence. The dictionary was matched to the acquired T2 -weighted images to retrieve quantitative T2 values, which were then compared to gold-standard spin echo acquisition values using monoexponential fitting. The proposed approach was validated in simulations and a T1 /T2 phantom, and feasibility was tested in 8 healthy subjects.RESULTS: The simulation analysis showed that the proposed T2 mapping approach is robust to noise and typically observed T1 variations. T2 values obtained in the phantom with T2 prep-bSSFP and the acquisition-specific, dictionary-based matching were highly correlated with the gold-standard spin echo method (r = 0.99). Furthermore, no differences were observed with the accelerated acquisition compared to the fully sampled acquisition (r = 0.99). T2 values obtained in prostate peripheral zone, central gland, and muscle in healthy subjects (age, 26 ± 6 years) were 97 ± 14, 76 ± 7, and 36 ± 3 ms, respectively.CONCLUSION: 3D quantitative T2 mapping of the whole prostate can be achieved in 3 minutes.

KW - 3T MRI

KW - T mapping

KW - prostate cancer imaging

KW - quantitative MRI

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DO - 10.1002/mrm.27540

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SN - 0740-3194

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EP - 1805

JO - Magnetic resonance in medicine

JF - Magnetic resonance in medicine

IS - 3

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