定量漫反射和荧光光谱学:体内监测肿瘤生理学的工具。
Quantitative diffuse reflectance and fluorescence spectroscopy: tool to monitor tumor physiology in vivo.
作者信息
Palmer Gregory M, Viola Ronald J, Schroeder Thies, Yarmolenko Pavel S, Dewhirst Mark W, Ramanujam Nirmala
机构信息
Duke University Medical Center, Department of Radiation Oncology, Box 3455, Durham, North Carolina 27710, USA.
出版信息
J Biomed Opt. 2009 Mar-Apr;14(2):024010. doi: 10.1117/1.3103586.
Abstract
This study demonstrates the use of optical spectroscopy for monitoring tumor oxygenation and metabolism in response to hyperoxic gas breathing. Hemoglobin saturation and redox ratio were quantified for a set of 14 and 9 mice, respectively, measured at baseline and during carbogen breathing (95% O(2), 5% CO(2)). In particular, significant increases in hemoglobin saturation and fluorescence redox ratio were observed upon carbogen breathing. These data were compared with data obtained concurrently using an established invasive technique, the OxyLite partial oxygen pressure (pO(2)) system, which also showed a significant increase in pO(2). It was found that the direction of changes were generally the same between all of the methods, but that the OxyLite system was much more variable in general, suggesting that optical techniques may provide a better assessment of global tumor physiology. Optical spectroscopy measurements are demonstrated to provide a reliable, reproducible indication of changes in tumor physiology in response to physiologic manipulation.
摘要
本研究展示了利用光学光谱法监测肿瘤氧合作用以及在高氧气体呼吸反应中的代谢情况。分别对一组14只和9只小鼠的血红蛋白饱和度和氧化还原比进行了量化,在基线时以及在卡波金呼吸(95% O₂,5% CO₂)期间进行测量。特别地,在卡波金呼吸时观察到血红蛋白饱和度和荧光氧化还原比显著增加。这些数据与同时使用一种既定的侵入性技术——氧光极(OxyLite)局部氧分压(pO₂)系统获得的数据进行了比较,该系统也显示pO₂显著增加。结果发现,所有方法之间变化方向总体相同,但氧光极系统一般变异性更大,这表明光学技术可能能更好地评估整体肿瘤生理学。光学光谱测量被证明能为肿瘤生理学对生理操作反应的变化提供可靠、可重复的指示。
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