高氧对啮齿动物大脑中动脉闭塞后18F-氟米索硝唑脑摄取及组织氧张力的影响：初步研究

Effects of hyperoxia on 18F-fluoro-misonidazole brain uptake and tissue oxygen tension following middle cerebral artery occlusion in rodents: Pilot studies.

作者信息

Fryer Tim D, Ejaz Sohail, Jensen-Kondering Ulf, Williamson David J, Sitnikov Sergey, Sawiak Stephen J, Aigbirhio Franklin I, Hong Young T, Baron Jean-Claude

机构信息

Wolfson Brain Imaging Centre, Department of Clinical Neurosciences, University of Cambridge, Cambridge, United Kingdom.

Stroke Research Group, Department of Clinical Neurosciences, University of Cambridge, Cambridge, United Kingdom.

出版信息

PLoS One. 2017 Nov 1;12(11):e0187087. doi: 10.1371/journal.pone.0187087. eCollection 2017.

DOI:10.1371/journal.pone.0187087

PMID:29091934

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5665507/

Abstract

PURPOSE

Mapping brain hypoxia is a major goal for stroke diagnosis, pathophysiology and treatment monitoring. 18F-fluoro-misonidazole (FMISO) positron emission tomography (PET) is the gold standard hypoxia imaging method. Normobaric hyperoxia (NBO) is a promising therapy in acute stroke. In this pilot study, we tested the straightforward hypothesis that NBO would markedly reduce FMISO uptake in ischemic brain in Wistar and spontaneously hypertensive rats (SHRs), two rat strains with distinct vulnerability to brain ischemia, mimicking clinical heterogeneity.

METHODS

Thirteen adult male rats were randomized to distal middle cerebral artery occlusion under either 30% O2 or 100% O2. FMISO was administered intravenously and PET data acquired dynamically for 3hrs, after which magnetic resonance imaging (MRI) and tetrazolium chloride (TTC) staining were carried out to map the ischemic lesion. Both FMISO tissue uptake at 2-3hrs and FMISO kinetic rate constants, determined based on previously published kinetic modelling, were obtained for the hypoxic area. In a separate group (n = 9), tissue oxygen partial pressure (PtO2) was measured in the ischemic tissue during both control and NBO conditions.

RESULTS

As expected, the FMISO PET, MRI and TTC lesion volumes were much larger in SHRs than Wistar rats in both the control and NBO conditions. NBO did not appear to substantially reduce FMISO lesion size, nor affect the FMISO kinetic rate constants in either strain. Likewise, MRI and TTC lesion volumes were unaffected. The parallel study showed the expected increases in ischemic cortex PtO2 under NBO, although these were small in some SHRs with very low baseline PtO2.

CONCLUSIONS

Despite small samples, the apparent lack of marked effects of NBO on FMISO uptake suggests that in permanent ischemia the cellular mechanisms underlying FMISO trapping in hypoxic cells may be disjointed from PtO2. Better understanding of FMISO trapping processes will be important for future applications of FMISO imaging.

摘要

目的

绘制脑缺氧情况是中风诊断、病理生理学及治疗监测的主要目标。18F-氟米索硝唑（FMISO）正电子发射断层扫描（PET）是缺氧成像的金标准方法。常压高氧（NBO）是急性中风一种有前景的治疗方法。在这项初步研究中，我们检验了一个简单的假设：NBO会显著降低Wistar大鼠和自发性高血压大鼠（SHR）缺血脑中FMISO的摄取，这两种大鼠品系对脑缺血的易感性不同，模拟了临床异质性。

方法

13只成年雄性大鼠被随机分为在30%氧气或100%氧气条件下进行大脑中动脉远端闭塞。静脉注射FMISO，并动态采集3小时的PET数据，之后进行磁共振成像（MRI）和氯化三苯基四氮唑（TTC）染色以绘制缺血性病变。获取缺氧区域在2 - 3小时时的FMISO组织摄取量以及基于先前发表的动力学模型确定的FMISO动力学速率常数。在另一组（n = 9）中，在对照和NBO条件下测量缺血组织中的组织氧分压（PtO2）。

结果

正如预期，在对照和NBO条件下，SHR的FMISO PET、MRI和TTC病变体积均比Wistar大鼠大得多。NBO似乎并未显著减小FMISO病变大小，也未影响任一品系的FMISO动力学速率常数。同样，MRI和TTC病变体积也未受影响。平行研究显示，在NBO条件下缺血皮层的PtO2如预期增加，尽管在一些基线PtO2非常低的SHR中增加幅度较小。

结论

尽管样本量小，但NBO对FMISO摄取明显缺乏显著影响表明，在永久性缺血中，FMISO在缺氧细胞中捕获的细胞机制可能与PtO2无关。更好地理解FMISO捕获过程对于FMISO成像的未来应用将很重要。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ecb9/5665507/dc637ff0d783/pone.0187087.g001.jpg

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高氧对啮齿动物大脑中动脉闭塞后18F-氟米索硝唑脑摄取及组织氧张力的影响：初步研究

Effects of hyperoxia on 18F-fluoro-misonidazole brain uptake and tissue oxygen tension following middle cerebral artery occlusion in rodents: Pilot studies.

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