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MATRESHCA:用于通过化学交换和添加转移自旋超极化共振增强的微特斯拉装置。

MATRESHCA: Microtesla Apparatus for Transfer of Resonance Enhancement of Spin Hyperpolarization via Chemical Exchange and Addition.

作者信息

Nantogma Shiraz, Chowdhury Md Raduanul H, Kabir Mohammad S H, Adelabu Isaiah, Joshi Sameer M, Samoilenko Anna, de Maissin Henri, Schmidt Andreas B, Nikolaou Panayiotis, Chekmenev Yuri A, Salnikov Oleg G, Chukanov Nikita V, Koptyug Igor V, Goodson Boyd M, Chekmenev Eduard Y

机构信息

Department of Chemistry, Integrative Biosciences (Ibio), Wayne State University, Karmanos Cancer Institute (KCI), Detroit, Michigan 48202, United States.

German Cancer Consortium (DKTK), Partner Site Freiburg, German Cancer Research Center (DKFZ), Heidelberg 69120, Germany.

出版信息

Anal Chem. 2024 Mar 12;96(10):4171-4179. doi: 10.1021/acs.analchem.3c05233. Epub 2024 Feb 15.

DOI:10.1021/acs.analchem.3c05233
PMID:38358916
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10939749/
Abstract

We present an integrated, open-source device for parahydrogen-based hyperpolarization processes in the microtesla field regime with a cost of components of less than $7000. The device is designed to produce a batch of C and N hyperpolarized (HP) compounds via hydrogenative or non-hydrogenative parahydrogen-induced polarization methods that employ microtesla magnetic fields for efficient polarization transfer of parahydrogen-derived spin order to X-nuclei (e.g., C and N). The apparatus employs a layered structure (reminiscent of a Russian doll "Matryoshka") that includes a nonmagnetic variable-temperature sample chamber, a microtesla magnetic field coil (operating in the range of 0.02-75 microtesla), a three-layered mu-metal shield (to attenuate the ambient magnetic field), and a magnetic shield degaussing coil placed in the overall device enclosure. The gas-handling manifold allows for parahydrogen-gas flow and pressure control (up to 9.2 bar of total parahydrogen pressure). The sample temperature can be varied either using a water bath or a PID-controlled heat exchanger in the range from -12 to 80 °C. This benchtop device measures 62 cm (length) × 47 cm (width) × 47 cm (height), weighs 30 kg, and requires only connections to a high-pressure parahydrogen gas supply and a single 110/220 VAC power source. The utility of the device has been demonstrated using an example of parahydrogen pairwise addition to form HP ethyl [1-C]acetate ( = 7%, [c] = 1 M). Moreover, the Signal Amplification By Reversible Exchange in SHield Enables Alignment Transfer to Heteronuclei (SABRE-SHEATH) technique was employed to demonstrate efficient hyperpolarization of C and N spins in a wide range of biologically relevant molecules, including [1-C]pyruvate ( = 14%, [c] = 27 mM), [1-C]-α-ketoglutarate ( = 17%), [1-C]ketoisocaproate ( = 18%), [N]metronidazole ( = 13%, [c] = 20 mM), and others. While the vast majority of the utility studies have been performed in standard 5 mm NMR tubes, the sample chamber of the device can accommodate a wide range of sample container sizes and geometries of up to 1 L sample volume. The device establishes an integrated, simple, inexpensive, and versatile equipment gateway needed to facilitate parahydrogen-based hyperpolarization experiments ranging from basic science to preclinical applications; indeed, detailed technical drawings and a bill of materials are provided to support the ready translation of this design to other laboratories.

摘要

我们展示了一种集成的开源设备,用于在微特斯拉磁场范围内基于仲氢的超极化过程,其组件成本低于7000美元。该设备旨在通过氢化或非氢化仲氢诱导极化方法生产一批碳和氮超极化(HP)化合物,这些方法利用微特斯拉磁场将仲氢衍生的自旋序有效地转移到X核(如碳和氮)。该装置采用分层结构(类似于俄罗斯套娃“Matryoshka”),包括一个非磁性可变温度样品腔、一个微特斯拉磁场线圈(工作在0.02 - 75微特斯拉范围内)、一个三层坡莫合金屏蔽层(用于衰减环境磁场)以及一个置于整个设备外壳内的磁屏蔽去磁线圈。气体处理歧管可实现仲氢气流和压力控制(总仲氢压力可达9.2巴)。样品温度可通过水浴或PID控制的热交换器在 - 12至80°C范围内变化。这种台式设备尺寸为62厘米(长)×47厘米(宽)×47厘米(高),重30千克,仅需连接高压仲氢气体供应源和单个110/220 VAC电源。该设备的实用性已通过仲氢成对加成形成HP乙基[1 - C]乙酸酯( = 7%,[c] = 1 M)的示例得到证明。此外,还采用了屏蔽层中可逆交换实现信号放大以促进向异核的自旋转移(SABRE - SHEATH)技术,来证明在多种生物相关分子中碳和氮自旋的有效超极化,包括[1 - C]丙酮酸( = 14%,[c] = 27 mM)、[1 - C] - α - 酮戊二酸( = 17%)、[1 - C]酮异己酸( = 18%)、[N]甲硝唑( = 13%,[c] = 20 mM)等。虽然绝大多数实用性研究是在标准5毫米NMR管中进行的,但该设备的样品腔可容纳各种尺寸和几何形状的样品容器,样品体积可达1升。该设备建立了一个集成、简单、廉价且通用的设备通道,以促进从基础科学到临床前应用的基于仲氢的超极化实验;实际上,还提供了详细的技术图纸和材料清单,以支持将此设计方便地移植到其他实验室。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9cb5/10939749/ea5125cce738/nihms-1969707-f0002.jpg

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