使用低温射频线圈对血管性认知障碍小鼠模型的脑氧合进行纵向¹⁹F磁共振成像。

Longitudinal 19F magnetic resonance imaging of brain oxygenation in a mouse model of vascular cognitive impairment using a cryogenic radiofrequency coil.

作者信息

Khalil Ahmed A, Mueller Susanne, Foddis Marco, Mosch Larissa, Lips Janet, Przesdzing Ingo, Temme Sebastian, Flögel Ulrich, Dirnagl Ulrich, Boehm-Sturm Philipp

机构信息

Department of Experimental Neurology and Center for Stroke Research Berlin, Charité - Universitätsmedizin Berlin, corporate member of Freie Universität Berlin, Humboldt-Universität zu Berlin, and Berlin Institute of Health, Berlin, Germany.

Department of Neurology, Max Planck Institute for Human Cognitive and Brain Sciences, Leipzig, Germany.

出版信息

MAGMA. 2019 Feb;32(1):105-114. doi: 10.1007/s10334-018-0712-x. Epub 2018 Nov 12.

DOI:10.1007/s10334-018-0712-x

PMID:30421249

Abstract

INTRODUCTION

We explored the use of a perfluoro-15-crown-5 ether nanoemulsion (PFC) for measuring tissue oxygenation using a mouse model of vascular cognitive impairment.

METHODS

Seventeen C57BL/6 mice underwent stereotactic injection of PFC coupled to a fluorophore into the striatum and corpus callosum. Combined 1H/19F magnetic resonance imaging (MRI) to localize the PFC and R mapping to assess pO were performed. The effect of gas challenges on measured R was investigated. All mice then underwent bilateral implantation of microcoils around the common carotid arteries to induce global cerebral hypoperfusion. 19F-MRI and R mapping were performed 1 day, 1 week, and 4 weeks after microcoil implantation. In vivo R values were converted to pO through in vitro calibration. Tissue reaction to the PFC was assessed through ex vivo immunohistochemistry of microglial infiltration.

RESULTS

R increased with increasing oxygen concentrations both in vitro and in vivo and the strength of the 19F signal remained largely stable over 4 weeks. In the two mice that received all four scans, tissue pO decreased after microcoil implantation and recovered 4 weeks later. We observed infiltration of the PFC deposits by microglia.

DISCUSSION

Despite remaining technical challenges, intracerebrally injected PFC is suitable for monitoring brain oxygenation in vivo.

摘要

引言

我们使用血管性认知障碍小鼠模型，探索了全氟-15-冠-5醚纳米乳剂（PFC）在测量组织氧合方面的应用。

方法

17只C57BL/6小鼠接受立体定向注射与荧光团偶联的PFC至纹状体和胼胝体。进行了联合1H/19F磁共振成像（MRI）以定位PFC，并进行R映射以评估pO。研究了气体刺激对测量的R的影响。然后所有小鼠在双侧颈总动脉周围植入微线圈以诱导全脑灌注不足。在微线圈植入后1天、1周和4周进行19F-MRI和R映射。通过体外校准将体内R值转换为pO。通过小胶质细胞浸润的离体免疫组织化学评估组织对PFC的反应。

结果

体外和体内R均随氧浓度增加而升高，并且19F信号强度在4周内基本保持稳定。在接受所有四次扫描的两只小鼠中，微线圈植入后组织pO降低，并在4周后恢复。我们观察到小胶质细胞浸润PFC沉积物。

讨论

尽管仍存在技术挑战，但脑内注射的PFC适用于体内监测脑氧合。

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使用低温射频线圈对血管性认知障碍小鼠模型的脑氧合进行纵向¹⁹F磁共振成像。

Longitudinal 19F magnetic resonance imaging of brain oxygenation in a mouse model of vascular cognitive impairment using a cryogenic radiofrequency coil.

作者信息

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

DISCUSSION

引言

方法

结果

讨论

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