Metabolic clearance rate modeling: A translational approach to quantifying cerebral metabolism using hyperpolarized [1-13C]pyruvate

Grist, James T.; Boegh, Nikolaj; Hansen, Esben Søvsø Szocska; Schneider, Anna; Healicon, Richard; Ball, Vicky; Miller, Jack M.; Smart, Sean; Couch, Yvonne; Buchan, Alastair; Tyler, Damian J.; Laustsen, Christoffer

doi:10.1101/2022.11.02.514924

2022

DOI: 10.1101/2022.11.02.514924

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Metabolic clearance rate modeling: A translational approach to quantifying cerebral metabolism using hyperpolarized [1-13C]pyruvate

James T. Grist¹,

Nikolaj Boegh²,

Esben Søvsø Szocska Hansen³

et al.

Abstract: Hyperpolarized carbon-13 MRI is a promising technique for in vivo metabolic interrogation of alterations between health and disease. This study introduces a model-free formalism for quantifying the metabolic information in hyperpolarized imaging. This study investigated a novel model-free perfusion and metabolic clearance rate (MCR) model in pre-clinical stroke and in the healthy human brain. Simulations showed that the proposed model was robust to perturbations in T1, transmit B1, and kPL. A significant diffe… Show more

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2024

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Evaluation of an integrated variable flip angle protocol to estimate coil B₁ for hyperpolarized MRI

Yeung,

Ng,

McGing

et al. 2024

Magnetic Resonance in Med

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PurposeThe purpose of this work is to validate a simple and versatile integrated variable flip angle (VFA) method for mapping B1 in hyperpolarized MRI, which can be used to correct signal variations due to coil inhomogeneity.Theory and MethodsSimulations were run to assess performance of the VFA B1 mapping method compared to the currently used constant flip angle (CFA) approach. Simulation results were used to inform the design of VFA sequences, validated in four volunteers for hyperpolarized xenon‐129 imaging of the lungs and another four volunteers for hyperpolarized carbon‐13 imaging of the human brain. B1 maps obtained were used to correct transmit and receive inhomogeneity in the images.ResultsSimulations showed improved performance of the VFA approach over the CFA approach with reduced sensitivity to T1. For xenon‐129, the B1 maps accurately reflected the variation of signal depolarization, but in some cases could not be used to correct for coil receive inhomogeneity due to a lack of transmit‐receive reciprocity resulting from suboptimal coil positioning. For carbon‐13, the B1 maps showed good agreement with a separately acquired B1 map of a phantom and were effectively used to correct coil‐induced signal inhomogeneity.ConclusionA simple, versatile, and effective VFA B1 mapping method was implemented and evaluated. Inclusion of the B1 mapping method in hyperpolarized imaging studies can enable more robust signal quantification.

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Evaluation of an integrated variable flip angle protocol to estimate coil B₁ for hyperpolarized MRI

Yeung,

Ng,

McGing

et al. 2024

Magnetic Resonance in Med

View full text Add to dashboard Cite

show abstract

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Metabolic clearance rate modeling: A translational approach to quantifying cerebral metabolism using hyperpolarized [1-13C]pyruvate

Cited by 1 publication

References 45 publications

Evaluation of an integrated variable flip angle protocol to estimate coil B₁ for hyperpolarized MRI

Evaluation of an integrated variable flip angle protocol to estimate coil B₁ for hyperpolarized MRI

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Metabolic clearance rate modeling: A translational approach to quantifying cerebral metabolism using hyperpolarized [1-13C]pyruvate

Cited by 1 publication

References 45 publications

Evaluation of an integrated variable flip angle protocol to estimate coil B1 for hyperpolarized MRI

Evaluation of an integrated variable flip angle protocol to estimate coil B1 for hyperpolarized MRI

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Evaluation of an integrated variable flip angle protocol to estimate coil B₁ for hyperpolarized MRI

Evaluation of an integrated variable flip angle protocol to estimate coil B₁ for hyperpolarized MRI