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利用磁共振引导漫射光学成像监测健康乳房在吸入气体刺激下的血流动力学变化。

Monitoring of hemodynamic changes induced in the healthy breast through inspired gas stimuli with MR-guided diffuse optical imaging.

机构信息

Thayer School of Engineering, Dartmouth College, Hanover New Hampshire 03755, USA.

出版信息

Med Phys. 2010 Apr;37(4):1638-46. doi: 10.1118/1.3358123.

Abstract

PURPOSE

The modulation of tissue hemodynamics has important clinical value in medicine for both tumor diagnosis and therapy. As an oncological tool, increasing tissue oxygenation via modulation of inspired gas has been proposed as a method to improve cancer therapy and determine radiation sensitivity. As a radiological tool, inducing changes in tissue total hemoglobin may provide a means to detect and characterize malignant tumors by providing information about tissue vascular function. The ability to change and measure tissue hemoglobin and oxygenation concentrations in the healthy breast during administration of three different types of modulated gas stimuli (oxygen/ carbogen, air/carbogen, and air/oxygen) was investigated.

METHODS

Subjects breathed combinations of gases which were modulated in time. MR-guided diffuse optical tomography measured total hemoglobin and oxygen saturation in the breast every 30 s during the 16 min breathing stimulus. Metrics of maximum correlation and phase lag were calculated by cross correlating the measured hemodynamics with the stimulus. These results were compared to an air/air control to determine the hemodynamic changes compared to the baseline physiology.

RESULTS

This study demonstrated that a gas stimulus consisting of alternating oxygen/carbogen induced the largest and most robust hemodynamic response in healthy breast parenchyma relative to the changes that occurred during the breathing of room air. This stimulus caused increases in total hemoglobin and oxygen saturation during the carbogen phase of gas inhalation, and decreases during the oxygen phase. These findings are consistent with the theory that oxygen acts as a vasoconstrictor, while carbogen acts as a vasodilator. However, difficulties in inducing a consistent change in tissue hemoglobin and oxygenation were observed because of variability in intersubject physiology, especially during the air/oxygen or air/carbogen modulated breathing protocols.

CONCLUSIONS

MR-guided diffuse optical imaging is a unique tool that can measure tissue hemodynamics in the breast during modulated breathing. This technique may have utility in determining the therapeutic potential of pretreatment tissue oxygenation or in investigating vascular function. Future gas modulation studies in the breast should use a combination of oxygen and carbogen as the functional stimulus. Additionally, control measures of subject physiology during air breathing are critical for robust measurements.

摘要

目的

组织血液动力学的调节在医学中具有重要的临床价值,无论是在肿瘤诊断还是治疗方面。作为一种肿瘤学工具,通过调节吸入气体来增加组织氧合被提出作为一种改善癌症治疗和确定辐射敏感性的方法。作为一种放射学工具,诱导组织总血红蛋白的变化可能提供一种通过提供关于组织血管功能的信息来检测和表征恶性肿瘤的方法。在给予三种不同类型调制气体刺激(氧气/卡波金、空气/卡波金和空气/氧气)期间,研究了改变和测量健康乳房中组织血红蛋白和氧饱和度的能力。

方法

受试者呼吸时间调制的气体混合物。MR 引导的漫射光学断层扫描在 16 分钟呼吸刺激期间每 30 秒测量乳房中的总血红蛋白和氧饱和度。通过将测量的血液动力学与刺激交叉相关,计算最大相关和相位滞后的度量。将这些结果与空气/空气对照进行比较,以确定与基线生理学相比的血液动力学变化。

结果

这项研究表明,与在吸入空气时发生的变化相比,由交替氧气/卡波金组成的气体刺激在健康乳房实质中引起了最大和最强大的血液动力学反应。这种刺激导致在气体吸入的卡波金阶段总血红蛋白和氧饱和度增加,而在氧气阶段减少。这些发现与氧作为血管收缩剂,而卡波金作为血管扩张剂的理论一致。然而,由于个体生理学的变异性,特别是在空气/氧气或空气/卡波金调制呼吸方案期间,观察到诱导组织血红蛋白和氧合一致变化的困难。

结论

MR 引导的漫射光学成像是一种独特的工具,可以在调制呼吸期间测量乳房中的组织血液动力学。该技术在确定预处理组织氧合的治疗潜力或研究血管功能方面可能具有实用性。未来在乳房中的气体调制研究应将氧气和卡波金组合用作功能刺激。此外,在空气呼吸期间控制受试者生理学的对照措施对于稳健的测量至关重要。

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