In VivoImaging of Nitric Oxide by Magnetic Resonance Imaging Techniques

RakeshSharma; Jeong-WonSeo; SoonjoKwon

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In VivoImaging of Nitric Oxide by Magnetic Resonance Imaging Techniques

机译：磁共振成像技术对一氧化氮的体内成像

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Nitric oxide (NO) biosensors are novel tools for real-time bioimaging of tissue oxygen changes and physiological monitoring of tissue vasculature. Nitric oxide behavior further enhances its role in mapping signal transduction at the molecular level. Spectrometric electron paramagnetic resonance (EPR) and fluorometric imaging are well known techniques with the potential forin vivobioimaging of NO. In tissues, NO is a specific target of nitrosyl compounds for chemical reaction, which provides a unique opportunity for application of newly identified NO biosensors. However, the accuracy and sensitivity of NO biosensors still need to be improved. Another potential magnetic resonance technique based on short term NO effects on proton relaxation enhancement is magnetic resonance imaging (MRI), and some NO biosensors may be used as potent imaging contrast agents for measurement of tumor size by MRI combined with fluorescent imaging. The present review provides supporting information regarding the possible use of nitrosyl compounds as NO biosensors in MRI and fluorescent bioimaging showing their measurement limitations and quantitative accuracy. These new approaches open a perspective regarding bioimaging of NO and thein vivoelucidation of NO effects by magnetic resonance techniques.

机译：一氧化氮（NO）生物传感器是用于组织氧变化的实时生物成像和组织脉管生理监测的新型工具。一氧化氮的行为进一步增强了其在分子水平上映射信号转导的作用。光谱电子顺磁共振（EPR）和荧光成像是众所周知的技术，具有在体内进行NO生物成像的潜力。在组织中，NO是用于化学反应的亚硝酰基化合物的特定目标，这为应用新发现的NO生物传感器提供了独特的机会。然而，NO生物传感器的准确性和灵敏度仍需提高。另一种基于短期NO对质子弛豫增强的影响的潜在磁共振技术是磁共振成像（MRI），某些NO生物传感器可以用作有效的成像造影剂，通过MRI与荧光成像相结合来测量肿瘤的大小。本综述提供了有关亚硝酰基化合物在MRI和荧光生物成像中可能用作NO生物传感器的支持性信息，显示了它们的测量局限性和定量准确性。这些新方法为有关NO的生物成像和通过磁共振技术体内阐明NO的作用开辟了一个前景。

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《Journal of nanomaterials》 |2014年第1期|共13页
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RakeshSharma; Jeong-WonSeo; SoonjoKwon;
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机译：核磁共振研究煤，聚合物，氧化物和肌肉水中的氢;固态高分辨率技术的扩展

In VivoImaging of Nitric Oxide by Magnetic Resonance Imaging Techniques

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