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在微特斯拉磁场中通过 [N]二甲弗林的可逆交换进行合成和 N 核磁共振信号放大。

Synthesis and N NMR Signal Amplification by Reversible Exchange of [ N]Dalfampridine at Microtesla Magnetic Fields.

机构信息

International Tomography Center SB RAS, 3A Institutskaya St., 630090, Novosibirsk, Russia.

Department of Natural Sciences, Novosibirsk State University, 2 Pirogova St., 630090, Novosibirsk, Russia.

出版信息

Chemphyschem. 2021 May 17;22(10):960-967. doi: 10.1002/cphc.202100109. Epub 2021 Apr 16.

DOI:10.1002/cphc.202100109
PMID:33738893
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8172086/
Abstract

Signal Amplification by Reversible Exchange (SABRE) technique enables nuclear spin hyperpolarization of wide range of compounds using parahydrogen. Here we present the synthetic approach to prepare N-labeled [ N]dalfampridine (4-amino[ N]pyridine) utilized as a drug to reduce the symptoms of multiple sclerosis. The synthesized compound was hyperpolarized using SABRE at microtesla magnetic fields (SABRE-SHEATH technique) with up to 2.0 % N polarization. The 7-hour-long activation of SABRE pre-catalyst [Ir(IMes)(COD)Cl] in the presence of [ N]dalfampridine can be remedied by the use of pyridine co-ligand for catalyst activation while retaining the N polarization levels of [ N]dalfampridine. The effects of experimental conditions such as polarization transfer magnetic field, temperature, concentration, parahydrogen flow rate and pressure on N polarization levels of free and equatorial catalyst-bound [ N]dalfampridine were investigated. Moreover, we studied N polarization build-up and decay at magnetic field of less than 0.04 μT as well as N polarization decay at the Earth's magnetic field and at 1.4 T.

摘要

信号放大可逆交换(SABRE)技术利用仲氢使广泛范围的化合物实现核自旋超极化。在这里,我们提出了一种合成 N 标记的[ N]二甲弗林(4-氨基[ N]吡啶)的方法,该化合物被用作药物来减轻多发性硬化症的症状。使用 SABRE 在微特斯拉磁场中对合成化合物进行极化(SABRE-SHEATH 技术),达到 2.0%的 N 极化率。通过使用吡啶共配体来激活催化剂,可以避免 [Ir(IMes)(COD)Cl] 前催化剂在存在[ N]二甲弗林的情况下 7 小时的 SABRE 激活,同时保持[ N]二甲弗林的 N 极化水平。研究了实验条件(如极化转移磁场、温度、浓度、仲氢流速和压力)对自由态和赤道催化剂结合态[ N]二甲弗林的 N 极化水平的影响。此外,我们还研究了磁场低于 0.04 μT 时的 N 极化建立和衰减以及在地球磁场和 1.4 T 时的 N 极化衰减。

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