Three-dimensional whole-body imaging of the bioreduction and clearance of nitroxide probes in the thoracic and abdominal regions of mice using a compact and mobile electron paramagnetic resonance imager.

IF 3 3区医学 Q2 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING Magnetic Resonance in Medicine Pub Date : 2025-01-20 DOI:10.1002/mrm.30432

Hideo Sato-Akaba, Miho C Emoto, Hirotada G Fujii

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Abstract

Purpose: Redox homeostasis plays a key role in regulating the overall health and development of organisms. This study aimed to develop a compact and mobile continuous-wave (CW) electron paramagnetic resonance (EPR) imager to facilitate stable, highly sensitive fast three-dimensional (3D) whole-body imaging of nitroxide-infused mice.

Methods: A multiturn loop gap resonator with a diameter of 30 mm and length of 35 mm was designed for whole-body EPR imaging. A compact and mobile CW-EPR imager operating at 750 MHz was developed using this resonator. The automatic matching and tuning control systems were also adjusted to compensate for perturbations caused by the movement of the mice.

Results: When the mice were inserted into the resonator, the resonant frequency was easily determined for all parts of the mouse, from the head to the lower abdomen. 3D EPR images of the mouse body from the thoracic region to the lower abdomen were obtained following infusion of a nitroxide, 3-carboxy-2,2,5,5-tetramethylpyrrolidine-1-oxyl (CxP). The EPR images clearly visualized the CxP distribution in various organs at different concentrations. Time-dependent EPR images also revealed that the signal intensities of the CxP decayed over time, and the decay rates for the heart, liver, and kidneys were evaluated.

Conclusion: A compact and mobile EPR imager that enables 3D whole-body EPR image of nitroxide in mice was developed. The EPR imager exhibited long-term stability against motion effects caused by respiratory motion and heartbeats in mice. The EPR images clearly visualized the in vivo distribution, clearance, and metabolism of the nitroxide in organs.

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使用紧凑的移动电子顺磁共振成像仪对小鼠胸部和腹部区域的氮氧化物探针的生物还原和清除进行三维全身成像。

目的：氧化还原稳态在调节生物体的整体健康和发育中起着关键作用。本研究旨在开发一种紧凑、可移动的连续波（CW）电子顺磁共振（EPR）成像仪，为注入氮氧化物的小鼠提供稳定、高灵敏度的快速三维（3D）全身成像。方法：设计了直径为30 mm、长度为35 mm的多匝环形间隙谐振器，用于全身EPR成像。使用该谐振器开发了一种工作频率为750 MHz的紧凑型移动式CW-EPR成像仪。自动匹配和调谐控制系统也进行了调整，以补偿由小鼠运动引起的扰动。结果：当将小鼠插入谐振器时，小鼠从头部到下腹的所有部位的谐振频率都很容易确定。注射3-羧基-2,2,5,5-四甲基吡咯烷-1-氧（CxP）后，获得小鼠从胸部到下腹的3D EPR图像。EPR图像清晰地显示了不同浓度下CxP在各脏器中的分布。随时间变化的EPR图像也显示CxP的信号强度随时间衰减，并评估了心脏、肝脏和肾脏的衰减率。结论：研制了一种紧凑、移动的EPR成像仪，可实现小鼠体内氮氧化物的三维全身EPR成像。EPR成像仪对小鼠呼吸运动和心跳引起的运动效应表现出长期的稳定性。EPR图像清晰地显示了体内氮氧化物在器官中的分布、清除和代谢。

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来源期刊

Magnetic Resonance in Medicine 医学-核医学

CiteScore

6.70

自引率

24.20%

发文量

376

审稿时长

2-4 weeks

期刊介绍： Magnetic Resonance in Medicine (Magn Reson Med) is an international journal devoted to the publication of original investigations concerned with all aspects of the development and use of nuclear magnetic resonance and electron paramagnetic resonance techniques for medical applications. Reports of original investigations in the areas of mathematics, computing, engineering, physics, biophysics, chemistry, biochemistry, and physiology directly relevant to magnetic resonance will be accepted, as well as methodology-oriented clinical studies.