Using injectable carriers of laser-polarized noble gases for enhancing NMR and MRI

Concepts in magnetic resonance Pub Date : 1999-06-01 DOI:10.1002/(SICI)1099-0534(1999)11:4<203::AID-CMR2>3.3.CO;2-G

B. Goodson

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引用次数: 30

Abstract

Laser-polarized noble gases hold enormous potential for enhancing sensitivity and contrast for a variety of nuclear magnetic resonance and magnetic resonance imaging experiments. Potential biomedical applications are especially tantalizing; however, overcoming the difficulty of delivering laser-polarized noble gases to living tissues with sufficient polarization and concentration may be critical to the feasibility of many proposed in vivo studies. One suggested means of delivering laser-polarized noble gases to tissues involves the local injection of biologically compatible solutions in which high noble gas concentrations and long polarization lifetimes can be achieved. In this review, the general topic of biomedical applications of laser-polarized noble gases is introduced. Special attention is given to a description of the injection technique and its applications, along with a discussion of potential advantages and limitations. Concluding remarks discuss the future outlook for biomedical applications of laser-polarized noble gases in general, particularly in light of recent low-field magnetic resonance experiments. ©1999 John Wiley & Sons, Inc. Concepts Magn Reson 11: 203–223, 1999

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利用激光极化惰性气体的可注射载体增强核磁共振和核磁共振

激光极化惰性气体在提高各种核磁共振和磁共振成像实验的灵敏度和对比度方面具有巨大的潜力。潜在的生物医学应用尤其诱人;然而，克服将激光极化惰性气体输送到具有足够极化和浓度的活组织中的困难可能是许多拟议体内研究可行性的关键。一种建议的将激光极化惰性气体输送到组织的方法包括局部注射生物相容溶液，其中可以实现高惰性气体浓度和长极化寿命。本文介绍了激光极化惰性气体在生物医学领域的应用概况。特别注意对注射技术及其应用的描述，以及对潜在优势和局限性的讨论。结束语一般讨论了激光极化惰性气体在生物医学应用方面的未来前景，特别是考虑到最近的低场磁共振实验。©1999 John Wiley & Sons, Inc数学学报，11 (3):393 - 393,1999

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Concepts in magnetic resonance

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