Radio frequency continuous-wave and time-domain EPR imaging and Overhauser-enhanced magnetic resonance imaging of small animals: instrumental developments and comparison of relative merits for functional imaging.

Subramanian S; Matsumoto K; Mitchell JB; Krishna MC

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Radio frequency continuous-wave and time-domain EPR imaging and Overhauser-enhanced magnetic resonance imaging of small animals: instrumental developments and comparison of relative merits for functional imaging.

机译：小动物的射频连续波和时域EPR成像以及Overhauser增强磁共振成像：功能性成像的仪器开发和相对优点比较。

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Electron paramagnetic resonance (EPR) imaging in the continuous wave (CW) and time-domain modes, as well as Overhauser-enhanced magnetic resonance imaging in vivo is described. The review is based mainly on the CW and time-domain EPR instrumentation at 300 MHz developed in our laboratory, and the relative merits of these methods for functional in vivo imaging of small animals to assess hypoxia and tissue redox status are described. Overhauser imaging of small animals at magnetic fields in the range 10-15 mT that is being carried out in our laboratory for tumor imaging and the evaluation of tumor hypoxia based on quantitative evaluation of Overhauser enhancement is also described. Alternate approaches to spectral-spatial imaging using the transverse decay constants to infer in situ line widths and hence in vivo pO2 using CW and time-domain EPR imaging are also discussed. The nature of the spin probes used, the quality of the images obtained in all the three methods, the achievable resolution, limitations and possible future directions in small animal functional imaging with these modalities are summarized.

机译：描述了连续波（CW）和时域模式下的电子顺磁共振（EPR）成像，以及体内Overhauser增强的磁共振成像。该综述主要基于我们实验室开发的CW和300 MHz时域EPR仪器，并描述了这些方法对小型动物进行体内成像以评估缺氧和组织氧化还原状态的相对优点。还描述了在我们的实验室中正在对10-15 mT磁场下的小动物进行Overhauser成像，该成像用于实验室成像以及基于Overhauser增强的定量评估来评估肿瘤缺氧。还讨论了使用横向衰减常数推断原位线宽以及因此使用CW和时域EPR成像的体内pO2的光谱空间成像的替代方法。总结了使用自旋探针的性质，通过这三种方法获得的图像的质量，使用这些方式的小动物功能成像中可实现的分辨率，局限性以及可能的未来方向。

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《NMR in biomedicine》 |2004年第5期|共32页
作者
Subramanian S; Matsumoto K; Mitchell JB; Krishna MC;
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正文语种 eng
中图分类临床医学;
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Algorithms; Electron Spin Resonance Spectroscopy; Neoplasms; Oxygen; Tumor Markers; Biological; 算法; 电子自旋共振谱学; 肿瘤; 氧; 肿瘤标记; 生物学;

机译：Algorithms;Electron Spin Resonance Spectroscopy;Neoplasms;Oxygen;Tumor Markers;Biological;算法;电子自旋共振谱学;肿瘤;氧;肿瘤标记;生物学;
入库时间 2022-08-18 13:02:04

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1. Radio frequency continuous-wave and time-domain EPR imaging and Overhauser-enhanced magnetic resonance imaging of small animals: instrumental developments and comparison of relative merits for functional imaging. [J] . Subramanian S, Matsumoto K, Mitchell JB, NMR in biomedicine . 2004,第5期

机译：小动物的射频连续波和时域EPR成像以及Overhauser增强磁共振成像：功能性成像的仪器开发和相对优点比较。
2. An elastase activity reporter for Electronic Paramagnetic Resonance (EPR) and Overhauser-enhanced Magnetic Resonance Imaging (OMRI) as a line-shifting nitroxide [J] . Jugniot Natacha, Duttagupta Indranil, Rivot Angelique, Free Radical Biology and Medicine: The Official Journal of the Oxygen Society . 2018,第期

机译：用于电子顺磁共振（EPR）和过发器增强的磁共振成像（OMRI）的弹性蛋白酶活性报告称为偏移氮氧化物
3. Development of multifunctional Overhauser-enhanced magnetic resonance imaging for concurrent in vivo mapping of tumor interstitial oxygenation, acidosis and inorganic phosphate concentration [J] . Artem A. Gorodetskii, Timothy D. Eubank, Benoit Driesschaert, Scientific reports. . 2019,第1期

机译：肿瘤间质氧化，酸中毒和无机磷酸盐浓度的体内测绘同时进行多功能过发器增强磁共振成像的发展
4. Finite-difference time-domain simulations of radio frequency electromagnetic fields and signal inhomogeneities in ultrahigh-field magnetic resonance imaging systems [C] . Masaki Sekino, Dongmin Kim, Hiroyuki Ohsaki Annual Conference on Magnetism and Magnetic Materials . 2008

机译：超高场磁共振成像系统中射频电磁场和信号不均匀性的有限差分时域模拟
5. Improving Patient Safety by Quantifying Vascular Tissue Damage from Radio Frequency Induced Heating of Implanted Medical Devices during Magnetic Resonance Imaging. [D] . Gross, David C. 2016

机译：通过对磁共振成像过程中植入式医疗设备的射频感应加热产生的血管组织损伤进行量化，从而提高患者安全性。
6. Hybrid time-domain and continuous-wave diffuse optical tomography instrument with concurrent clinical magnetic resonance imaging for breast cancer imaging [O] . Jeffrey M. Cochran, David R. Busch, Li Lin, 2019

机译：混合时域和连续波漫射光学层析成像仪同时进行临床磁共振成像可用于乳腺癌成像
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8. Magnetic Resonance Spectroscopy Imaging and Functional Magnetic Resonance Imaging of Neurofibromatosis Type I: In Vivo Pathophysiology Brain- Behavior Relationships and Reading Disabilities [R] . Cutting, L. E. 2003

机译：神经纤维瘤病的磁共振波谱成像和功能磁共振成像I型：体内病理生理学脑 - 行为关系和阅读障碍

Radio frequency continuous-wave and time-domain EPR imaging and Overhauser-enhanced magnetic resonance imaging of small animals: instrumental developments and comparison of relative merits for functional imaging.

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