Optimization of SABRE for polarization of the tuberculosis drugs pyrazinamide and isoniazid

Haifeng Zeng; Jiadi Xu; Joseph Gillen; Michael T. McMahon; Dmitri Artemov; Jean Max Tyburn; Joost A.B. Lohman; Ryan E. Mewis; Kevin D. Atkinson; Gary G.R. Green; Simon B. Duckett; Peter C.M. Van Zijl

doi:10.1016/j.jmr.2013.09.012

Optimization of SABRE for polarization of the tuberculosis drugs pyrazinamide and isoniazid

Haifeng Zeng, Jiadi Xu, Joseph Gillen, Michael T. McMahon, Dmitri Artemov, Jean Max Tyburn, Joost A.B. Lohman, Ryan E. Mewis, Kevin D. Atkinson, Gary G.R. Green, Simon B. Duckett, Peter C.M. Van Zijl

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

98 Scopus citations

Abstract

Hyperpolarization produces nuclear spin polarization that is several orders of magnitude larger than that achieved at thermal equilibrium thus providing extraordinary contrast and sensitivity. As a parahydrogen induced polarization (PHIP) technique that does not require chemical modification of the substrate to polarize, Signal Amplification by Reversible Exchange (SABRE) has attracted a lot of attention. Using a prototype parahydrogen polarizer, we polarize two drugs used in the treatment of tuberculosis, namely pyrazinamide and isoniazid. We examine this approach in four solvents, methanol-d₄, methanol, ethanol and DMSO and optimize the polarization transfer magnetic field strength, the temperature as well as intensity and duration of hydrogen bubbling to achieve the best overall signal enhancement and hence hyperpolarization level.

Original language	English (US)
Pages (from-to)	73-78
Number of pages	6
Journal	Journal of Magnetic Resonance
Volume	237
DOIs	https://doi.org/10.1016/j.jmr.2013.09.012
State	Published - 2013

Keywords

Hyperpolarization
Isoniazid
Mycobacterium Tuberculosis
Parahydrogen
Pyrazinamide
SABRE

ASJC Scopus subject areas

Biophysics
Biochemistry
Nuclear and High Energy Physics
Condensed Matter Physics

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10.1016/j.jmr.2013.09.012

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@article{4a6993c5ebbb4bcc90ccc9b3e3fcb060,

title = "Optimization of SABRE for polarization of the tuberculosis drugs pyrazinamide and isoniazid",

abstract = "Hyperpolarization produces nuclear spin polarization that is several orders of magnitude larger than that achieved at thermal equilibrium thus providing extraordinary contrast and sensitivity. As a parahydrogen induced polarization (PHIP) technique that does not require chemical modification of the substrate to polarize, Signal Amplification by Reversible Exchange (SABRE) has attracted a lot of attention. Using a prototype parahydrogen polarizer, we polarize two drugs used in the treatment of tuberculosis, namely pyrazinamide and isoniazid. We examine this approach in four solvents, methanol-d4, methanol, ethanol and DMSO and optimize the polarization transfer magnetic field strength, the temperature as well as intensity and duration of hydrogen bubbling to achieve the best overall signal enhancement and hence hyperpolarization level.",

keywords = "Hyperpolarization, Isoniazid, Mycobacterium Tuberculosis, Parahydrogen, Pyrazinamide, SABRE",

author = "Haifeng Zeng and Jiadi Xu and Joseph Gillen and McMahon, {Michael T.} and Dmitri Artemov and Tyburn, {Jean Max} and Lohman, {Joost A.B.} and Mewis, {Ryan E.} and Atkinson, {Kevin D.} and Green, {Gary G.R.} and Duckett, {Simon B.} and {Van Zijl}, {Peter C.M.}",

note = "Funding Information: The authors would like to thank the University of York for financial assistance and Bruker Biospin for a parahydrogen polarizer. KDA would like to thank the MRC for a studentship, SBD, GGRG and REM would like to thank the EPSRC (Grant no. EP/G009546/1 ) and the Wellcome Trust (awards WT092506MA and WT098335MA ). ",

year = "2013",

doi = "10.1016/j.jmr.2013.09.012",

language = "English (US)",

volume = "237",

pages = "73--78",

journal = "Journal of Magnetic Resonance",

issn = "1090-7807",

publisher = "Academic Press Inc.",

}

TY - JOUR

T1 - Optimization of SABRE for polarization of the tuberculosis drugs pyrazinamide and isoniazid

AU - Zeng, Haifeng

AU - Xu, Jiadi

AU - Gillen, Joseph

AU - McMahon, Michael T.

AU - Artemov, Dmitri

AU - Tyburn, Jean Max

AU - Lohman, Joost A.B.

AU - Mewis, Ryan E.

AU - Atkinson, Kevin D.

AU - Green, Gary G.R.

AU - Duckett, Simon B.

AU - Van Zijl, Peter C.M.

N1 - Funding Information: The authors would like to thank the University of York for financial assistance and Bruker Biospin for a parahydrogen polarizer. KDA would like to thank the MRC for a studentship, SBD, GGRG and REM would like to thank the EPSRC (Grant no. EP/G009546/1 ) and the Wellcome Trust (awards WT092506MA and WT098335MA ).

PY - 2013

Y1 - 2013

N2 - Hyperpolarization produces nuclear spin polarization that is several orders of magnitude larger than that achieved at thermal equilibrium thus providing extraordinary contrast and sensitivity. As a parahydrogen induced polarization (PHIP) technique that does not require chemical modification of the substrate to polarize, Signal Amplification by Reversible Exchange (SABRE) has attracted a lot of attention. Using a prototype parahydrogen polarizer, we polarize two drugs used in the treatment of tuberculosis, namely pyrazinamide and isoniazid. We examine this approach in four solvents, methanol-d4, methanol, ethanol and DMSO and optimize the polarization transfer magnetic field strength, the temperature as well as intensity and duration of hydrogen bubbling to achieve the best overall signal enhancement and hence hyperpolarization level.

AB - Hyperpolarization produces nuclear spin polarization that is several orders of magnitude larger than that achieved at thermal equilibrium thus providing extraordinary contrast and sensitivity. As a parahydrogen induced polarization (PHIP) technique that does not require chemical modification of the substrate to polarize, Signal Amplification by Reversible Exchange (SABRE) has attracted a lot of attention. Using a prototype parahydrogen polarizer, we polarize two drugs used in the treatment of tuberculosis, namely pyrazinamide and isoniazid. We examine this approach in four solvents, methanol-d4, methanol, ethanol and DMSO and optimize the polarization transfer magnetic field strength, the temperature as well as intensity and duration of hydrogen bubbling to achieve the best overall signal enhancement and hence hyperpolarization level.

KW - Hyperpolarization

KW - Isoniazid

KW - Mycobacterium Tuberculosis

KW - Parahydrogen

KW - Pyrazinamide

KW - SABRE

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JO - Journal of Magnetic Resonance

JF - Journal of Magnetic Resonance

ER -

Optimization of SABRE for polarization of the tuberculosis drugs pyrazinamide and isoniazid

Abstract

Keywords

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