Hyperpolarized 13C MRI data acquisition and analysis in prostate and brain at University of California, San Francisco

Based on the expanding set of applications for hyperpolarized carbon‐13 (HP‐13C) MRI, this work aims to communicate standardized methodology implemented at the University of California, San Francisco, as a primer for conducting reproducible metabolic imaging studies of the prostate and brain. Curren...

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Bibliographic Details
Published in:NMR in biomedicine 2021-05, Vol.34 (5), p.n/a
Main Authors: Crane, Jason C., Gordon, Jeremy W., Chen, Hsin‐Yu, Autry, Adam W., Li, Yan, Olson, Marram P., Kurhanewicz, John, Vigneron, Daniel B., Larson, Peder E.Z., Xu, Duan
Format: Article
Language:English
Subjects:
13C
Biological products
Brain
Brain cancer
Carbon 13
Data acquisition
Data analysis
Data processing
hyperpolarized MRI
Image reconstruction
Interoperability
Magnetic resonance imaging
Medical imaging
metabolic imaging
Methodology
Neuroimaging
Prostate
prostate cancer
Spectroscopy
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Summary:Based on the expanding set of applications for hyperpolarized carbon‐13 (HP‐13C) MRI, this work aims to communicate standardized methodology implemented at the University of California, San Francisco, as a primer for conducting reproducible metabolic imaging studies of the prostate and brain. Current state‐of‐the‐art HP‐13C acquisition, data processing/reconstruction and kinetic modeling approaches utilized in patient studies are presented together with the rationale underpinning their usage. Organized around spectroscopic and imaging‐based methods, this guide provides an extensible framework for handling a variety of HP‐13C applications, which derives from two examples with dynamic acquisitions: 3D echo‐planar spectroscopic imaging of the human prostate and frequency‐specific 2D multislice echo‐planar imaging of the human brain. Details of sequence‐specific parameters and processing techniques contained in these examples should enable investigators to effectively tailor studies around individual‐use cases. Given the importance of clinical integration in improving the utility of HP exams, practical aspects of standardizing data formats for reconstruction, analysis and visualization are also addressed alongside open‐source software packages that enhance institutional interoperability and validation of methodology. To facilitate the adoption and further development of this methodology, example datasets and analysis pipelines have been made available in the supporting information. This work describes standardized hyperpolarized carbon‐13 (HP‐13C) MRI methodology implemented at University of California, San Francisco, for prostate and brain exams as a primer for conducting reproducible metabolic imaging studies of the prostate and brain. Data processing, reconstruction and kinetic modeling approaches utilized in patient studies are presented together with the rationale underpinning their usage. Practical aspects of standardizing data formats for analysis and visualization are described and accompanied by supporting information that includes open‐source software packages, example datasets and analysis pipelines.
ISSN:0952-3480
1099-1492
DOI:10.1002/nbm.4280