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Literature DB >> 28377523

Delivering strong ¹H nuclear hyperpolarization levels and long magnetic lifetimes through signal amplification by reversible exchange.

Peter J Rayner¹, Michael J Burns¹, Alexandra M Olaru¹, Philip Norcott¹, Marianna Fekete¹, Gary G R Green¹, Louise A R Highton¹, Ryan E Mewis¹, Simon B Duckett².

Abstract

Hyperpolarization turns typically weak NMR and MRI responses into strong signals so that ordinarily impractical measurements become possible. The potential to revolutionize analytical NMR and clinical diagnosis through this approach reflect this area's most compelling outcomes. Methods to optimize the low-cost parahydrogen-based approach signal amplification by reversible exchange with studies on a series of biologically relevant nicotinamides and methyl nicotinates are detailed. These procedures involve specific 2H labeling in both the agent and catalyst and achieve polarization lifetimes of ca 2 min with 50% polarization in the case of methyl-4,6-d2 -nicotinate. Because a 1.5-T hospital scanner has an effective 1H polarization level of just 0.0005% this strategy should result in compressed detection times for chemically discerning measurements that probe disease. To demonstrate this technique's generality, we exemplify further studies on a range of pyridazine, pyrimidine, pyrazine, and isonicotinamide analogs that feature as building blocks in biochemistry and many disease-treating drugs.

Entities: Chemical

Keywords: MRI; NMR; SABRE; catalysis; hyperpolarization

Year: 2017 PMID： 28377523 PMCID： PMC5402466 DOI： 10.1073/pnas.1620457114

Source DB: PubMed Journal: Proc Natl Acad Sci U S A ISSN： 0027-8424 Impact factor: 11.205

41 in total

1. Similarity of SABRE field dependence in chemically different substrates.

Authors: Eibe B Dücker; Lars T Kuhn; Kerstin Münnemann; Christian Griesinger
Journal: J Magn Reson Date: 2011-11-18 Impact factor: 2.229

2. Developments and advances concerning the hyperpolarisation technique SABRE.

Authors: Ryan E Mewis
Journal: Magn Reson Chem Date: 2015-08-12 Impact factor: 2.447

3. Deactivation of signal amplification by reversible exchange catalysis, progress towards in vivo application.

Authors: Ryan E Mewis; Marianna Fekete; Gary G R Green; Adrian C Whitwood; Simon B Duckett
Journal: Chem Commun (Camb) Date: 2015-06-18 Impact factor: 6.222

Review 4. The theory and practice of hyperpolarization in magnetic resonance using parahydrogen.

Authors: Richard A Green; Ralph W Adams; Simon B Duckett; Ryan E Mewis; David C Williamson; Gary G R Green
Journal: Prog Nucl Magn Reson Spectrosc Date: 2012-03-15 Impact factor: 9.795

5. XeNA: an automated 'open-source' (129)Xe hyperpolarizer for clinical use.

Authors: Panayiotis Nikolaou; Aaron M Coffey; Laura L Walkup; Brogan M Gust; Nicholas Whiting; Hayley Newton; Iga Muradyan; Mikayel Dabaghyan; Kaili Ranta; Gregory D Moroz; Matthew S Rosen; Samuel Patz; Michael J Barlow; Eduard Y Chekmenev; Boyd M Goodson
Journal: Magn Reson Imaging Date: 2014-02-10 Impact factor: 2.546

6. Hyperpolarized 15N-pyridine derivatives as pH-sensitive MRI agents.

Authors: Weina Jiang; Lloyd Lumata; Wei Chen; Shanrong Zhang; Zoltan Kovacs; A Dean Sherry; Chalermchai Khemtong
Journal: Sci Rep Date: 2015-03-16 Impact factor: 4.379

7. ¹⁵N Hyperpolarization by Reversible Exchange Using SABRE-SHEATH.

Authors: Milton L Truong; Thomas Theis; Aaron M Coffey; Roman V Shchepin; Kevin W Waddell; Fan Shi; Boyd M Goodson; Warren S Warren; Eduard Y Chekmenev
Journal: J Phys Chem C Nanomater Interfaces Date: 2015-03-30 Impact factor: 4.126

8. Toward biocompatible nuclear hyperpolarization using signal amplification by reversible exchange: quantitative in situ spectroscopy and high-field imaging.

Authors: Jan-Bernd Hövener; Niels Schwaderlapp; Robert Borowiak; Thomas Lickert; Simon B Duckett; Ryan E Mewis; Ralph W Adams; Michael J Burns; Louise A R Highton; Gary G R Green; Alexandra Olaru; Jürgen Hennig; Dominik von Elverfeldt
Journal: Anal Chem Date: 2014-01-24 Impact factor: 6.986

9. A hyperpolarized equilibrium for magnetic resonance.

Authors: Jan-Bernd Hövener; Niels Schwaderlapp; Thomas Lickert; Simon B Duckett; Ryan E Mewis; Louise A R Highton; Stephen M Kenny; Gary G R Green; Dieter Leibfritz; Jan G Korvink; Jürgen Hennig; Dominik von Elverfeldt
Journal: Nat Commun Date: 2013 Impact factor: 14.919

10. Direct and cost-efficient hyperpolarization of long-lived nuclear spin states on universal (15)N2-diazirine molecular tags.

Authors: Thomas Theis; Gerardo X Ortiz; Angus W J Logan; Kevin E Claytor; Yesu Feng; William P Huhn; Volker Blum; Steven J Malcolmson; Eduard Y Chekmenev; Qiu Wang; Warren S Warren
Journal: Sci Adv Date: 2016-03-25 Impact factor: 14.136

57 in total

1. Hyperpolarizing Concentrated Metronidazole ¹⁵ NO₂ Group over Six Chemical Bonds with More than 15 % Polarization and a 20 Minute Lifetime.

Authors: Roman V Shchepin; Jonathan R Birchall; Nikita V Chukanov; Kirill V Kovtunov; Igor V Koptyug; Thomas Theis; Warren S Warren; Juri G Gelovani; Boyd M Goodson; Sepideh Shokouhi; Matthew S Rosen; Yi-Fen Yen; Wellington Pham; Eduard Y Chekmenev
Journal: Chemistry Date: 2019-05-30 Impact factor: 5.236

2. Spin-Lattice Relaxation of Hyperpolarized Metronidazole in Signal Amplification by Reversible Exchange in Micro-Tesla Fields.

Authors: Roman V Shchepin; Lamya Jaigirdar; Eduard Y Chekmenev
Journal: J Phys Chem C Nanomater Interfaces Date: 2018-02-27 Impact factor: 4.126

3. Spin Relays Enable Efficient Long-Range Heteronuclear Signal Amplification By Reversible Exchange.

Authors: Roman V Shchepin; Lamya Jaigirdar; Thomas Theis; Warren S Warren; Boyd M Goodson; Eduard Y Chekmenev
Journal: J Phys Chem C Nanomater Interfaces Date: 2017-12-01 Impact factor: 4.126

Review 4. Hyperpolarized NMR Spectroscopy: d-DNP, PHIP, and SABRE Techniques.

Authors: Kirill V Kovtunov; Ekaterina V Pokochueva; Oleg G Salnikov; Samuel F Cousin; Dennis Kurzbach; Basile Vuichoud; Sami Jannin; Eduard Y Chekmenev; Boyd M Goodson; Danila A Barskiy; Igor V Koptyug
Journal: Chem Asian J Date: 2018-05-23

5. Quasi-Resonance Fluorine-19 Signal Amplification by Reversible Exchange.

Authors: Nuwandi M Ariyasingha; Jacob R Lindale; Shannon L Eriksson; Grayson P Clark; Thomas Theis; Roman V Shchepin; Nikita V Chukanov; Kirill V Kovtunov; Igor V Koptyug; Warren S Warren; Eduard Y Chekmenev
Journal: J Phys Chem Lett Date: 2019-07-16 Impact factor: 6.475

6. Long-Lived ¹³C₂ Nuclear Spin States Hyperpolarized by Parahydrogen in Reversible Exchange at Microtesla Fields.

Authors: Zijian Zhou; Jin Yu; Johannes F P Colell; Raul Laasner; Angus Logan; Danila A Barskiy; Roman V Shchepin; Eduard Y Chekmenev; Volker Blum; Warren S Warren; Thomas Theis
Journal: J Phys Chem Lett Date: 2017-06-19 Impact factor: 6.475

7. ¹⁹F Hyperpolarization of ¹⁵N-3-¹⁹F-Pyridine Via Signal Amplification by Reversible Exchange.

Authors: Nikita V Chukanov; Oleg G Salnikov; Roman V Shchepin; Alexandra Svyatova; Kirill V Kovtunov; Igor V Koptyug; Eduard Y Chekmenev
Journal: J Phys Chem C Nanomater Interfaces Date: 2018-09-18 Impact factor: 4.126

8. Late-stage deuteration of ¹³C-enriched substrates for T₁ prolongation in hyperpolarized ¹³C MRI.

Authors: Céline Taglang; David E Korenchan; Cornelius von Morze; Justin Yu; Chloé Najac; Sinan Wang; Joseph E Blecha; Sukumar Subramaniam; Robert Bok; Henry F VanBrocklin; Daniel B Vigneron; Sabrina M Ronen; Renuka Sriram; John Kurhanewicz; David M Wilson; Robert R Flavell
Journal: Chem Commun (Camb) Date: 2018-05-17 Impact factor: 6.222

9. Automated pneumatic shuttle for magnetic field cycling and parahydrogen hyperpolarized multidimensional NMR.

Authors: Patrick TomHon; Evan Akeroyd; Sören Lehmkuhl; Eduard Y Chekmenev; Thomas Theis
Journal: J Magn Reson Date: 2020-02-04 Impact factor: 2.229

Review 10. Parahydrogen-Based Hyperpolarization for Biomedicine.

Authors: Jan-Bernd Hövener; Andrey N Pravdivtsev; Bryce Kidd; C Russell Bowers; Stefan Glöggler; Kirill V Kovtunov; Markus Plaumann; Rachel Katz-Brull; Kai Buckenmaier; Alexej Jerschow; Francesca Reineri; Thomas Theis; Roman V Shchepin; Shawn Wagner; Pratip Bhattacharya; Niki M Zacharias; Eduard Y Chekmenev
Journal: Angew Chem Int Ed Engl Date: 2018-08-01 Impact factor: 15.336