Hyperpolarized Carbon-13 Magnetic Resonance Imaging: Technical Considerations and Clinical Applications

Hyperpolarized (HP) carbon-13 ( C) MRI represents an innovative approach for noninvasive, real-time assessment of dynamic metabolic flux, with potential integration into routine clinical MRI. The use of [1- C]pyruvate as a probe and its conversion to [1- C]lactate constitute an extensively explored...

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Published inKorean journal of radiology Vol. 25; no. 5; pp. 459 - 472
Main Authors Lai, Ying-Chieh, Hsieh, Ching-Yi, Juan, Yu-Hsiang, Lu, Kuan-Ying, Lee, Hsien-Ju, Ng, Shu-Hang, Wan, Yung-Liang, Lin, Gigin
Format Journal Article
LanguageEnglish
Published Korea (South) The Korean Society of Radiology 01.05.2024
대한영상의학회
Subjects
Brain - diagnostic imaging
Brain - metabolism
Carbon
Carbon Isotopes
Dehydrogenases
Human subjects
Humans
Liver - diagnostic imaging
Magnetic fields
Magnetic resonance imaging
Magnetic Resonance Imaging - methods
Manufacturing
Metabolism
Metabolites
Muscle, Skeletal - diagnostic imaging
Oncologic Imaging
Pyruvic Acid
Quality control
R&D
Regulatory approval
Research & development
Scanners
Signal to noise ratio
방사선과학
United States > US
Pyruvate
Hyperpolarized
Lactate
Magnetic resonance imaging
Carbon 13
Online AccessGet full text
ISSN1229-6929
2005-8330
2005-8330
DOI10.3348/kjr.2024.0069

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Abstract Hyperpolarized (HP) carbon-13 ( C) MRI represents an innovative approach for noninvasive, real-time assessment of dynamic metabolic flux, with potential integration into routine clinical MRI. The use of [1- C]pyruvate as a probe and its conversion to [1- C]lactate constitute an extensively explored metabolic pathway. This review comprehensively outlines the establishment of HP C-MRI, covering multidisciplinary team collaboration, hardware prerequisites, probe preparation, hyperpolarization techniques, imaging acquisition, and data analysis. This article discusses the clinical applications of HP C-MRI across various anatomical domains, including the brain, heart, skeletal muscle, breast, liver, kidney, pancreas, and prostate. Each section highlights the specific applications and findings pertinent to these regions, emphasizing the potential versatility of HP C-MRI in diverse clinical contexts. This review serves as a comprehensive update, bridging technical aspects with clinical applications and offering insights into the ongoing advancements in HP C-MRI.
AbstractList Hyperpolarized (HP) carbon-13 (13C) MRI represents an innovative approach for noninvasive, real-time assessment of dynamic metabolic flux, with potential integration into routine clinical MRI. The use of [1-13C]pyruvate as a probe and its conversion to [1-13C]lactate constitute an extensively explored metabolic pathway. This review comprehensively outlines the establishment of HP 13C-MRI, covering multidisciplinary team collaboration, hardware prerequisites, probe preparation, hyperpolarization techniques, imaging acquisition, and data analysis. This article discusses the clinical applications of HP 13C-MRI across various anatomical domains, including the brain, heart, skeletal muscle, breast, liver, kidney, pancreas, and prostate. Each section highlights the specific applications and findings pertinent to these regions, emphasizing the potential versatility of HP 13C-MRI in diverse clinical contexts. This review serves as a comprehensive update, bridging technical aspects with clinical applications and offering insights into the ongoing advancements in HP 13C-MRI. KCI Citation Count: 0
Hyperpolarized (HP) carbon-13 ( 13 C) MRI represents an innovative approach for noninvasive, real-time assessment of dynamic metabolic flux, with potential integration into routine clinical MRI. The use of [1- 13 C]pyruvate as a probe and its conversion to [1- 13 C]lactate constitute an extensively explored metabolic pathway. This review comprehensively outlines the establishment of HP 13 C-MRI, covering multidisciplinary team collaboration, hardware prerequisites, probe preparation, hyperpolarization techniques, imaging acquisition, and data analysis. This article discusses the clinical applications of HP 13 C-MRI across various anatomical domains, including the brain, heart, skeletal muscle, breast, liver, kidney, pancreas, and prostate. Each section highlights the specific applications and findings pertinent to these regions, emphasizing the potential versatility of HP 13 C-MRI in diverse clinical contexts. This review serves as a comprehensive update, bridging technical aspects with clinical applications and offering insights into the ongoing advancements in HP 13 C-MRI.
Hyperpolarized (HP) carbon-13 ( C) MRI represents an innovative approach for noninvasive, real-time assessment of dynamic metabolic flux, with potential integration into routine clinical MRI. The use of [1- C]pyruvate as a probe and its conversion to [1- C]lactate constitute an extensively explored metabolic pathway. This review comprehensively outlines the establishment of HP C-MRI, covering multidisciplinary team collaboration, hardware prerequisites, probe preparation, hyperpolarization techniques, imaging acquisition, and data analysis. This article discusses the clinical applications of HP C-MRI across various anatomical domains, including the brain, heart, skeletal muscle, breast, liver, kidney, pancreas, and prostate. Each section highlights the specific applications and findings pertinent to these regions, emphasizing the potential versatility of HP C-MRI in diverse clinical contexts. This review serves as a comprehensive update, bridging technical aspects with clinical applications and offering insights into the ongoing advancements in HP C-MRI.
Hyperpolarized (HP) carbon-13 (13C) MRI represents an innovative approach for noninvasive, real-time assessment of dynamic metabolic flux, with potential integration into routine clinical MRI. The use of [1-13C]pyruvate as a probe and its conversion to [1-13C]lactate constitute an extensively explored metabolic pathway. This review comprehensively outlines the establishment of HP 13C-MRI, covering multidisciplinary team collaboration, hardware prerequisites, probe preparation, hyperpolarization techniques, imaging acquisition, and data analysis. This article discusses the clinical applications of HP 13C-MRI across various anatomical domains, including the brain, heart, skeletal muscle, breast, liver, kidney, pancreas, and prostate. Each section highlights the specific applications and findings pertinent to these regions, emphasizing the potential versatility of HP 13C-MRI in diverse clinical contexts. This review serves as a comprehensive update, bridging technical aspects with clinical applications and offering insights into the ongoing advancements in HP 13C-MRI.Hyperpolarized (HP) carbon-13 (13C) MRI represents an innovative approach for noninvasive, real-time assessment of dynamic metabolic flux, with potential integration into routine clinical MRI. The use of [1-13C]pyruvate as a probe and its conversion to [1-13C]lactate constitute an extensively explored metabolic pathway. This review comprehensively outlines the establishment of HP 13C-MRI, covering multidisciplinary team collaboration, hardware prerequisites, probe preparation, hyperpolarization techniques, imaging acquisition, and data analysis. This article discusses the clinical applications of HP 13C-MRI across various anatomical domains, including the brain, heart, skeletal muscle, breast, liver, kidney, pancreas, and prostate. Each section highlights the specific applications and findings pertinent to these regions, emphasizing the potential versatility of HP 13C-MRI in diverse clinical contexts. This review serves as a comprehensive update, bridging technical aspects with clinical applications and offering insights into the ongoing advancements in HP 13C-MRI.
Author Juan, Yu-Hsiang
Ng, Shu-Hang
Lin, Gigin
Lee, Hsien-Ju
Hsieh, Ching-Yi
Lai, Ying-Chieh
Lu, Kuan-Ying
Wan, Yung-Liang
AuthorAffiliation 4 Research Center for Radiation Medicine, Chang Gung University, Taoyuan, Taiwan
1 Department of Medical Imaging and Intervention, Chang Gung Memorial Hospital at Linkou, Taoyuan, Taiwan
3 Clinical Metabolomics Core Laboratory, Chang Gung Memorial Hospital at Linkou, Taoyuan, Taiwan
2 Department of Medical Imaging and Radiological Sciences, Chang Gung University, Taoyuan, Taiwan
AuthorAffiliation_xml – name: 2 Department of Medical Imaging and Radiological Sciences, Chang Gung University, Taoyuan, Taiwan
– name: 3 Clinical Metabolomics Core Laboratory, Chang Gung Memorial Hospital at Linkou, Taoyuan, Taiwan
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Issue 5
Keywords Pyruvate
Hyperpolarized
Lactate
Magnetic resonance imaging
Carbon 13
Language English
License Copyright © 2024 The Korean Society of Radiology.
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Snippet Hyperpolarized (HP) carbon-13 ( C) MRI represents an innovative approach for noninvasive, real-time assessment of dynamic metabolic flux, with potential...
Hyperpolarized (HP) carbon-13 (13C) MRI represents an innovative approach for noninvasive, real-time assessment of dynamic metabolic flux, with potential...
Hyperpolarized (HP) carbon-13 ( 13 C) MRI represents an innovative approach for noninvasive, real-time assessment of dynamic metabolic flux, with potential...
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SubjectTerms Brain - diagnostic imaging
Brain - metabolism
Carbon
Carbon Isotopes
Dehydrogenases
Human subjects
Humans
Liver - diagnostic imaging
Magnetic fields
Magnetic resonance imaging
Magnetic Resonance Imaging - methods
Manufacturing
Metabolism
Metabolites
Muscle, Skeletal - diagnostic imaging
Oncologic Imaging
Pyruvic Acid
Quality control
R&D
Regulatory approval
Research & development
Scanners
Signal to noise ratio
방사선과학
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