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吸入氢气治疗在急性肺损伤大鼠模型中的保护作用可以通过分子成像进行体内跟踪。

Protection by Inhaled Hydrogen Therapy in a Rat Model of Acute Lung Injury can be Tracked in vivo Using Molecular Imaging.

机构信息

*Department of Biomedical Engineering, Marquette University, Milwaukee, Wisconsin †Zablocki V.A. Medical Center, Milwaukee, Wisconsin ‡Division of Pulmonary and Critical Care Medicine, Medical College of Wisconsin, Milwaukee, Wisconsin §Department of Anesthesiology, Medical College of Wisconsin, Milwaukee, Wisconsin ||Division of Cardiology, Northwestern University, Evanston, Illinois ¶Department of Radiation Oncology, Medical College of Wisconsin, Milwaukee, Wisconsin #Department of Mathematics, Statistics, and Computer Science, Marquette University, Milwaukee, Wisconsin.

出版信息

Shock. 2017 Oct;48(4):467-476. doi: 10.1097/SHK.0000000000000872.

Abstract

Inhaled hydrogen gas (H2) provides protection in rat models of human acute lung injury (ALI). We previously reported that biomarker imaging can detect oxidative stress and endothelial cell death in vivo in a rat model of ALI. Our objective was to evaluate the ability of Tc-hexamethylpropyleneamineoxime (HMPAO) and Tc-duramycin to track the effectiveness of H2 therapy in vivo in the hyperoxia rat model of ALI. Rats were exposed to room air (normoxia), 98% O2 + 2% N2 (hyperoxia) or 98% O2 + 2% H2 (hyperoxia+H2) for up to 60 h. In vivo scintigraphy images were acquired following injection of Tc-HMPAO or Tc-duramycin. For hyperoxia rats, Tc-HMPAO and Tc-duramycin lung uptake increased in a time-dependent manner, reaching a maximum increase of 270% and 150% at 60 h, respectively. These increases were reduced to 120% and 70%, respectively, in hyperoxia+H2 rats. Hyperoxia exposure increased glutathione content in lung homogenate (36%) more than hyperoxia+H2 (21%), consistent with increases measured in Tc-HMPAO lung uptake. In 60-h hyperoxia rats, pleural effusion, which was undetectable in normoxia rats, averaged 9.3 gram/rat, and lung tissue 3-nitrotyrosine expression increased by 790%. Increases were reduced by 69% and 59%, respectively, in 60-h hyperoxia+H2 rats. This study detects and tracks the anti-oxidant and anti-apoptotic properties of H2 therapy in vivo after as early as 24 h of hyperoxia exposure. The results suggest the potential utility of these SPECT biomarkers for in vivo assessment of key cellular pathways in the pathogenesis of ALI and for monitoring responses to therapies.

摘要

吸入氢气(H2)可在人类急性肺损伤(ALI)的大鼠模型中提供保护。我们之前报道过,生物标志物成像可以在大鼠 ALI 模型中体内检测到氧化应激和内皮细胞死亡。我们的目的是评估 Tc-六甲基丙烯酰胺肟(HMPAO)和 Tc-多粘菌素在高氧诱导的 ALI 大鼠模型中体内跟踪 H2 治疗效果的能力。大鼠暴露于空气(常氧)、98% O2 + 2% N2(高氧)或 98% O2 + 2% H2(高氧+H2)中长达 60 小时。在注射 Tc-HMPAO 或 Tc-多粘菌素后获取体内闪烁成像图像。对于高氧大鼠,Tc-HMPAO 和 Tc-多粘菌素的肺摄取随时间呈时间依赖性增加,在 60 小时时分别达到最大增加 270%和 150%。在高氧+H2 大鼠中,这些增加分别减少到 120%和 70%。高氧暴露使肺匀浆中的谷胱甘肽含量增加(36%)高于高氧+H2(21%),与 Tc-HMPAO 肺摄取的增加一致。在 60 小时的高氧大鼠中,胸腔积液在常氧大鼠中无法检测到,平均为 9.3 克/大鼠,肺组织 3-硝基酪氨酸表达增加 790%。在 60 小时的高氧+H2 大鼠中,分别减少了 69%和 59%。这项研究在高氧暴露后 24 小时内即可检测和跟踪 H2 治疗的抗氧化和抗凋亡特性。这些结果表明,这些 SPECT 生物标志物具有用于体内评估 ALI 发病机制中关键细胞途径和监测对治疗反应的潜力。

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