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Literature DB >> 30395699

Catalyst-Substrate Effects on Biocompatible SABRE Hyperpolarization.

Anand Manoharan¹, Peter J Rayner¹, Marianna Fekete¹, Wissam Iali¹, Philip Norcott¹, V Hugh Perry², Simon B Duckett¹.

Abstract

The hyperpolarization technique, Signal Amplification by Reversible Exchange (SABRE), has the potential to improve clinical diagnosis by making molecular magnetic resonance imaging in vivo a reality. Essential to this goal is the ability to produce a biocompatible bolus for administration. We seek here to determine how the identity of the catalyst and substrate affects the cytotoxicity by in vitro study, in addition to reporting how the use of biocompatible solvent mixtures influence the polarization transfer efficiency. By illustrating this across five catalysts and 8 substrates, we are able to identify routes to produce a bolus with minimal cytotoxic effects.

Entities: Disease

Keywords: SABRE; biocompatibility; biomolecules; cytotoxicity; hyperpolarization

Mesh：

Substances：

Year: 2018 PMID： 30395699 DOI： 10.1002/cphc.201800915

Source DB: PubMed Journal: Chemphyschem ISSN： 1439-4235 Impact factor: 3.102

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Cited

4 in total

1. Pharmacokinetics of the SABRE agent 4,6-d₂-nicotinamide and also nicotinamide in rats following oral and intravenous administration.

Authors: Inna V Linnik; Peter J Rayner; Ruth A Stow; Simon B Duckett; Graham M T Cheetham
Journal: Eur J Pharm Sci Date: 2019-05-09 Impact factor: 4.384

Catalyst-Substrate Effects on Biocompatible SABRE Hyperpolarization.

1. Pharmacokinetics of the SABRE agent 4,6-d₂-nicotinamide and also nicotinamide in rats following oral and intravenous administration.

2. Reaction Monitoring Using SABRE-Hyperpolarized Benchtop (1 T) NMR Spectroscopy.

3. Hyperpolarisation of weakly binding N-heterocycles using signal amplification by reversible exchange.

4. Rapid SABRE Catalyst Scavenging Using Functionalized Silicas.

Catalyst-Substrate Effects on Biocompatible SABRE Hyperpolarization.

1. Pharmacokinetics of the SABRE agent 4,6-d2-nicotinamide and also nicotinamide in rats following oral and intravenous administration.

2. Reaction Monitoring Using SABRE-Hyperpolarized Benchtop (1 T) NMR Spectroscopy.

3. Hyperpolarisation of weakly binding N-heterocycles using signal amplification by reversible exchange.

4. Rapid SABRE Catalyst Scavenging Using Functionalized Silicas.

1. Pharmacokinetics of the SABRE agent 4,6-d₂-nicotinamide and also nicotinamide in rats following oral and intravenous administration.