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Literature DB >> 27061815

Efficient Synthesis of Molecular Precursors for Para-Hydrogen-Induced Polarization of Ethyl Acetate-1-(13) C and Beyond.

Roman V Shchepin¹, Danila A Barskiy¹, Aaron M Coffey¹, Isaac V Manzanera Esteve¹, Eduard Y Chekmenev^2,3.

Abstract

A scalable and versatile methodology for production of vinylated carboxylic compounds with (13) C isotopic label in C1 position is described. It allowed synthesis of vinyl acetate-1-(13) C, which is a precursor for preparation of (13) C hyperpolarized ethyl acetate-1-(13) C, which provides a convenient vehicle for potential in vivo delivery of hyperpolarized acetate to probe metabolism in living organisms. Kinetics of vinyl acetate molecular hydrogenation and polarization transfer from para-hydrogen to (13) C via magnetic field cycling were investigated. Nascent proton nuclear spin polarization (%PH ) of ca. 3.3 % and carbon-13 polarization (%P13C ) of ca. 1.8 % were achieved in ethyl acetate utilizing 50 % para-hydrogen corresponding to ca. 50 % polarization transfer efficiency. The use of nearly 100% para-hydrogen and the improvements of %PH of para-hydrogen-nascent protons may enable production of (13) C hyperpolarized contrast agents with %P13C of 20-50 % in seconds using this chemistry.

Entities: Chemical Disease Mutation Species

Keywords: MRI; contrast agents; ethyl acetate; hyperpolarization; para-hydrogen induced polarization (PHIP)

Mesh：

Substances：

Year: 2016 PMID： 27061815 PMCID： PMC4939483 DOI： 10.1002/anie.201600521

Source DB: PubMed Journal: Angew Chem Int Ed Engl ISSN： 1433-7851 Impact factor: 15.336

30 in total

1. Parahydrogen-induced polarization in imaging: subsecond (13)C angiography.

Authors: K Golman; O Axelsson; H Jóhannesson; S Månsson; C Olofsson; J S Petersson
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Review 2. Nuclear magnetic resonance of laser-polarized noble gases in molecules, materials, and organisms.

Authors: Boyd M Goodson
Journal: J Magn Reson Date: 2002-04 Impact factor: 2.229

3. Real-time molecular imaging of tricarboxylic acid cycle metabolism in vivo by hyperpolarized 1-(13)C diethyl succinate.

Authors: Niki M Zacharias; Henry R Chan; Napapon Sailasuta; Brian D Ross; Pratip Bhattacharya
Journal: J Am Chem Soc Date: 2011-12-22 Impact factor: 15.419

4. Transformation of symmetrization order to nuclear-spin magnetization by chemical reaction and nuclear magnetic resonance.

Authors:
Journal: Phys Rev Lett Date: 1986-11-24 Impact factor: 9.161

5. Imaging metabolism with hyperpolarized (13)C-labeled cell substrates.

Authors: Kevin M Brindle
Journal: J Am Chem Soc Date: 2015-05-15 Impact factor: 15.419

6. Analysis of cancer metabolism by imaging hyperpolarized nuclei: prospects for translation to clinical research.

Authors: John Kurhanewicz; Daniel B Vigneron; Kevin Brindle; Eduard Y Chekmenev; Arnaud Comment; Charles H Cunningham; Ralph J Deberardinis; Gary G Green; Martin O Leach; Sunder S Rajan; Rahim R Rizi; Brian D Ross; Warren S Warren; Craig R Malloy
Journal: Neoplasia Date: 2011-02 Impact factor: 5.715

7. A simple and low-cost device for generating hyperpolarized contrast agents using parahydrogen.

Authors: Stephen Kadlecek; Vahid Vahdat; Takeshi Nakayama; Danny Ng; Kiarash Emami; Rahim Rizi
Journal: NMR Biomed Date: 2011-08-15 Impact factor: 4.044

8. PASADENA hyperpolarization of 13C biomolecules: equipment design and installation.

Authors: Jan-Bernd Hövener; Eduard Y Chekmenev; Kent C Harris; William H Perman; Larry W Robertson; Brian D Ross; Pratip Bhattacharya
Journal: MAGMA Date: 2008-12-06 Impact factor: 2.310

9. 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

10. 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

26 in total

1. Toward Production of Pure ¹³C Hyperpolarized Metabolites Using Heterogeneous Parahydrogen-Induced Polarization of Ethyl[1-¹³C]acetate.

Authors: K V Kovtunov; D A Barskiy; O G Salnikov; R V Shchepin; A M Coffey; L M Kovtunova; V I Bukhtiyarov; I V Koptyug; E Y Chekmenev
Journal: RSC Adv Date: 2016-07-15 Impact factor: 3.361

2. Parahydrogen-Induced Polarization of 1-¹³C-Acetates and 1-¹³C-Pyruvates Using Sidearm Hydrogenation of Vinyl, Allyl, and Propargyl Esters.

Authors: Oleg G Salnikov; Nikita V Chukanov; Roman V Shchepin; Isaac V Manzanera Esteve; Kirill V Kovtunov; Igor V Koptyug; Eduard Y Chekmenev
Journal: J Phys Chem C Nanomater Interfaces Date: 2019-04-19 Impact factor: 4.126

Review 3. 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

4. Effects of Deuteration of ¹³C-Enriched Phospholactate on Efficiency of Parahydrogen-Induced Polarization by Magnetic Field Cycling.

Authors: Oleg G Salnikov; Roman V Shchepin; Nikita V Chukanov; Lamya Jaigirdar; Wellington Pham; Kirill V Kovtunov; Igor V Koptyug; Eduard Y Chekmenev
Journal: J Phys Chem C Nanomater Interfaces Date: 2018-10-02 Impact factor: 4.126

Review 5. The use of hyperpolarized carbon-13 magnetic resonance for molecular imaging.

Authors: Sarmad Siddiqui; Stephen Kadlecek; Mehrdad Pourfathi; Yi Xin; William Mannherz; Hooman Hamedani; Nicholas Drachman; Kai Ruppert; Justin Clapp; Rahim Rizi
Journal: Adv Drug Deliv Rev Date: 2016-09-04 Impact factor: 15.470

6. Toward Cleavable Metabolic/pH Sensing "Double Agents" Hyperpolarized by NMR Signal Amplification by Reversible Exchange.

Authors: Bryce E Kidd; Jamil A Mashni; Miranda N Limbach; Fan Shi; Eduard Y Chekmenev; Yuqing Hou; Boyd M Goodson
Journal: Chemistry Date: 2018-06-29 Impact factor: 5.236

7. Pulse-Programmable Magnetic Field Sweeping of Parahydrogen-Induced Polarization by Side Arm Hydrogenation.

Authors: Baptiste Joalland; Andreas B Schmidt; Mohammad S H Kabir; Nikita V Chukanov; Kirill V Kovtunov; Igor V Koptyug; Jürgen Hennig; Jan-Bernd Hövener; Eduard Y Chekmenev
Journal: Anal Chem Date: 2019-12-23 Impact factor: 6.986

8. Efficient Batch-Mode Parahydrogen-Induced Polarization of Propane.

Authors: Oleg G Salnikov; Danila A Barskiy; Aaron M Coffey; Kirill V Kovtunov; Igor V Koptyug; Eduard Y Chekmenev
Journal: Chemphyschem Date: 2016-09-05 Impact factor: 3.102

9. Production of Pure Aqueous ¹³ C-Hyperpolarized Acetate by Heterogeneous Parahydrogen-Induced Polarization.

Authors: Kirill V Kovtunov; Danila A Barskiy; Roman V Shchepin; Oleg G Salnikov; Igor P Prosvirin; Andrey V Bukhtiyarov; Larisa M Kovtunova; Valerii I Bukhtiyarov; Igor V Koptyug; Eduard Y Chekmenev
Journal: Chemistry Date: 2016-10-10 Impact factor: 5.236

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