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用于绘制组织氧合水平的硅氧烷质子成像(PISTOL):一种定量组织血氧测定的工具。

Proton imaging of siloxanes to map tissue oxygenation levels (PISTOL): a tool for quantitative tissue oximetry.

作者信息

Kodibagkar Vikram D, Wang Xianghui, Pacheco-Torres Jesús, Gulaka Praveen, Mason Ralph P

机构信息

Cancer Imaging Program, Department of Radiology, University of Texas Southwestern Medical Center, Dallas, TX, USA.

出版信息

NMR Biomed. 2008 Oct;21(8):899-907. doi: 10.1002/nbm.1279.

DOI:10.1002/nbm.1279
PMID:18574806
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3027221/
Abstract

Hexamethyldisiloxane (HMDSO) has been identified as a sensitive proton NMR indicator of tissue oxygenation (pO(2)) based on spectroscopic spin-lattice relaxometry. A rapid MRI approach has now been designed, implemented, and tested. The technique, proton imaging of siloxanes to map tissue oxygenation levels (PISTOL), utilizes frequency-selective excitation of the HMDSO resonance and chemical-shift selective suppression of residual water signal to effectively eliminate water and fat signals and pulse-burst saturation recovery (1)H echo planar imaging to map T(1) of HMDSO and hence pO(2). PISTOL was used here to obtain maps of pO(2) in rat thigh muscle and Dunning prostate R3327 MAT-Lu tumor-implanted rats. Measurements were repeated to assess baseline stability and response to breathing of hyperoxic gas. Each pO(2) map was obtained in 3(1/2) min, facilitating dynamic measurements of response to oxygen intervention. Altering the inhaled gas to oxygen produced a significant increase in mean pO(2) from 55 Torr to 238 Torr in thigh muscle and a smaller, but significant, increase in mean pO(2) from 17 Torr to 78 Torr in MAT-Lu tumors. Thus, PISTOL enabled mapping of tissue pO(2) at multiple locations and dynamic changes in pO(2) in response to intervention. This new method offers a potentially valuable new tool to image pO(2) in vivo for any healthy or diseased state by (1)H MRI.

摘要

基于光谱自旋晶格弛豫测量法,六甲基二硅氧烷(HMDSO)已被确定为组织氧合(pO₂)的一种灵敏的质子核磁共振指标。现已设计、实施并测试了一种快速磁共振成像方法。该技术,即用于绘制组织氧合水平的硅氧烷质子成像(PISTOL),利用HMDSO共振的频率选择性激发和残余水信号的化学位移选择性抑制,有效消除水和脂肪信号,并采用脉冲串饱和恢复质子回波平面成像来绘制HMDSO的T₁,从而得出pO₂。本文使用PISTOL获取大鼠大腿肌肉以及植入Dunning前列腺R3327 MAT-Lu肿瘤的大鼠体内的pO₂图谱。重复测量以评估基线稳定性以及对高氧气体呼吸的反应。每个pO₂图谱在3.5分钟内即可获得,便于对氧干预反应进行动态测量。将吸入气体改为氧气后,大腿肌肉中的平均pO₂从55托显著增加至238托,MAT-Lu肿瘤中的平均pO₂从17托有较小但显著的增加,至78托。因此,PISTOL能够绘制多个位置的组织pO₂,并显示pO₂对干预的动态变化。这种新方法为通过质子磁共振成像在体内对任何健康或疾病状态下的pO₂进行成像提供了一种潜在有价值的新工具。

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