正常麻醉大鼠脑血流和氧代谢的定量评估：15O-标记气体吸入 PET 与 MRI 融合。

Quantitative evaluation of cerebral blood flow and oxygen metabolism in normal anesthetized rats: 15O-labeled gas inhalation PET with MRI Fusion.

机构信息

Department of Nuclear Medicine and Tracer Kinetics, Osaka University Graduate School of Medicine, Suita, Osaka, Japan.

出版信息

J Nucl Med. 2013 Feb;54(2):283-90. doi: 10.2967/jnumed.112.109751. Epub 2013 Jan 3.

DOI:10.2967/jnumed.112.109751

PMID:23287575

Abstract

UNLABELLED

PET with (15)O gas has been used for the quantitative measurement of cerebral blood flow (CBF), cerebral metabolic rate of oxygen (CMRO(2)), oxygen extraction fraction (OEF), and cerebral blood volume (CBV) in humans. However, several technical difficulties limit its use in experiments on small animals. Herein, we describe the application of the (15)O gas steady-state inhalation method for normal anesthetized rats.

METHODS

Eight normal male Sprague-Dawley rats (mean body weight ± SD, 268 ± 14 g) under anesthesia were investigated by (15)O-labeled gas PET. After tracheotomy, an airway tube was placed in the trachea, and the animals were connected to a ventilator (tidal volume, 3 cm(3); frequency, 60/min). The CBF and OEF were measured according to the original steady-state inhalation technique under artificial ventilation with (15)O-CO(2) and (15)O-O(2) gases delivered through the radioactive gas stabilizer. CBV was measured by (15)O-CO gas inhalation and corrected for the intravascular hemoglobin-bound (15)O-O(2). Arterial blood sampling was performed during each study to measure the radioactivity of the whole blood and plasma. MR image was performed with the same acrylic animal holder immediately after the PET. Regions of interest were placed on the whole brain of the PET images with reference to the semiautomatically coregistered PET/MR fused images.

RESULTS

The data acquisition time for the whole PET experiment in each rat was 73.3 ± 5.8 (range, 68-85) min. In both the (15)O-CO(2) and the (15)O-O(2) studies, the radioactivity count of the brain reached a steady state by approximately 10 min after the start of continuous inhalation of the gas. The quantitative PET data of the whole brain were as follows: CBF, 32.3 ± 4.5 mL/100 mL/min; CMRO(2), 3.23 ± 0.42 mL/100 mL/min; OEF, 64.6% ± 9.1%; and CBV, 5.05 ± 0.45 mL/100 mL.

CONCLUSION

Although further technical improvements may be needed, this study demonstrated the feasibility of quantitative PET measurement of CBF, OEF, and CMRO(2) using the original steady-state inhalation method of (15)O-CO(2) and (15)O-O(2) gases and measurement of CBV using the (15)O-CO gas inhalation method in the brain of normal anesthetized rats.

摘要

目的

使用（15）O 气体的 PET 已用于测量人类的脑血流（CBF）、脑氧代谢率（CMRO（2））、氧提取分数（OEF）和脑血容量（CBV）。然而，一些技术难题限制了其在小动物实验中的应用。本文介绍了（15）O 气体稳态吸入法在正常麻醉大鼠中的应用。

方法

对 8 只正常雄性 Sprague-Dawley 大鼠（平均体重±标准差，268±14g）进行（15）O 标记气体 PET 研究。气管切开后，将气道管置于气管内，并将动物与呼吸机相连（潮气量 3cm³；频率 60/min）。在人工通气下，根据原始稳态吸入技术，用（15）O-CO（2）和（15）O-O（2）气体通过放射性气体稳定器输送，测量 CBF 和 OEF。通过（15）O-CO 气体吸入测量 CBV，并校正血管内血红蛋白结合的（15）O-O（2）。在每次研究过程中进行动脉采血以测量全血和血浆的放射性。在 PET 后立即使用相同的丙烯酸动物固定器进行磁共振成像。将 PET 图像与半自动配准的 PET/MR 融合图像参考，将感兴趣区置于整个大脑上。

结果

每只大鼠的整个 PET 实验数据采集时间为 73.3±5.8（范围，68-85）min。在（15）O-CO（2）和（15）O-O（2）研究中，在气体连续吸入约 10 分钟后，大脑的放射性计数达到稳定状态。整个大脑的定量 PET 数据如下：CBF，32.3±4.5mL/100mL/min；CMRO（2），3.23±0.42mL/100mL/min；OEF，64.6%±9.1%；CBV，5.05±0.45mL/100mL。

结论

尽管可能需要进一步的技术改进，但本研究证明了使用原始（15）O-CO（2）和（15）O-O（2）气体的稳态吸入方法以及使用（15）O-CO 气体吸入方法测量正常麻醉大鼠脑内 CBF、OEF 和 CMRO（2）的定量 PET 测量和 CBV 的可行性。

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正常麻醉大鼠脑血流和氧代谢的定量评估：15O-标记气体吸入 PET 与 MRI 融合。

Quantitative evaluation of cerebral blood flow and oxygen metabolism in normal anesthetized rats: 15O-labeled gas inhalation PET with MRI Fusion.

机构信息

出版信息

UNLABELLED

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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