用局部自旋探针递送法对兔肿瘤进行电子顺磁共振氧成像。
Electron paramagnetic resonance oxygen imaging of a rabbit tumor using localized spin probe delivery.
机构信息
Department of Radiation and Cellular Oncology, The University of Chicago, MC 1105, Chicago, Illinois 60637, USA.
出版信息
Med Phys. 2010 Jun;37(6):2553-9. doi: 10.1118/1.3425787.
Abstract
PURPOSE
Application of in vivo electron paramagnetic resonance (EPR) oxygen imaging (EPROI) to tumors larger than those of mice requires development of both instrumental and medical aspects of imaging.
METHODS
250 MHz EPR oxygen imaging was performed using a loop-gap resonator with a volume exceeding 100 cm3. The paramagnetic spin probe was injected directly into the femoral artery feeding the rabbit leg/tumor.
RESULTS
The authors present continuous wave and electron spin echo EPR oxygen images of a large size (4 cm) VX-2 tumor located on the leg of a New Zealand white rabbit.
CONCLUSIONS
This study demonstrates the feasibility of continuous wave and electron spin echo oxygen imaging modalities for investigation of volumes of tumor and normal tissue relevant to large animals. The injection of the spin probe directly into the artery feeding a rabbit leg will allow one to reduce, by over one order of magnitude, the amount of spin probe used as compared to whole animal i.v. injection.
摘要
目的
将体内电子顺磁共振(EPR)氧成像(EPROI)应用于大于小鼠的肿瘤,需要发展成像的仪器和医学方面。
方法
使用体积超过 100 立方厘米的环形间隙谐振器进行 250MHz EPR 氧成像。顺磁自旋探针直接注入供应兔腿/肿瘤的股动脉。
结果
作者展示了位于新西兰白兔腿部的大型(4 厘米)VX-2 肿瘤的连续波和电子自旋回波 EPR 氧图像。
结论
本研究证明了连续波和电子自旋回波氧成像方式用于研究与大型动物相关的肿瘤和正常组织体积的可行性。将自旋探针直接注入供应兔腿的动脉中,与全身静脉注射相比,可将所用自旋探针的量减少一个数量级以上。
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