In vivo imaging of the spinal cord cholinergic system with PET.

Gage HD; Gage JC; Chiari A; Xu ZM; Mach RH; Efange SM; Ehrenkaufer RL; Eisenach JC

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In vivo imaging of the spinal cord cholinergic system with PET.

机译：PET对脊髓胆碱能系统的体内成像。

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PURPOSE: Our goal was to demonstrate the feasibility of an in vivo noninvasive method for imaging spinal cord cholinergic terminals using (+)-4-[18F]fluorobenzyltrozamicol ([18F]FBT) and PET. METHOD: In vitro and in vivo experiments in rats were conducted to demonstrate the specific binding characteristics, localization, and time course of [3H]FBT binding in the spinal cord. PET imaging was then performed on seven rhesus monkeys. RESULTS: The rat studies demonstrate high specific binding in the spinal cord with a distribution coinciding with the known distribution of cholinergic terminals. In vivo tracer concentrations in the spinal cord and basal ganglia were of the same magnitude. With use of [18F]FBT and PET in the rhesus monkey, the spinal cord was clearly visualized, with tracer concentration in the spinal cord being approximately one-fourth of that seen in the basal ganglia. CONCLUSION: This work demonstrates the feasibility of imaging cholinergic terminals in vivo in the spinal cord using [18F]FBT and PET.

机译：目的：我们的目标是证明使用（+）-4- [18F]氟苄基曲扎米酚（[18F] FBT）和PET成像的体内无创方法对脊髓胆碱能末端成像的可行性。方法：进行了大鼠体内和体外实验，以证明[3H] FBT在脊髓中的特异性结合特征，定位和时间过程。然后对七只恒河猴进行PET成像。结果：大鼠研究表明，脊髓中具有高特异性结合，其分布与已知的胆碱能末端分布相吻合。脊髓和基底神经节中的体内示踪剂浓度相同。在恒河猴中使用[18F] FBT和PET，可以清楚地看到脊髓，脊髓中的示踪剂浓度约为基底神经节中示踪剂浓度的四分之一。结论：这项工作证明了使用[18F] FBT和PET在脊髓中对胆碱能末端进行体内成像的可行性。

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《Journal of computer assisted tomography》 |1999年第1期|共9页
作者
Gage HD; Gage JC; Chiari A; Xu ZM; Mach RH; Efange SM; Ehrenkaufer RL; Eisenach JC;
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正文语种 eng
中图分类 X线诊断学;
关键词
Cholinergic Fibers; Fluorobenzenes; Nerve Endings; Piperidines; Spinal Cord; 胆碱能纤维; 氟苯类; 神经末梢; 哌啶类; 脊髓; 体层摄影术; 发射型计算机;

机译：Cholinergic Fibers;Fluorobenzenes;Nerve Endings;Piperidines;Spinal Cord;胆碱能纤维;氟苯类;神经末梢;哌啶类;脊髓;体层摄影术;发射型计算机;

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1. In vivo imaging of the spinal cord cholinergic system with PET. [J] . Gage HD, Gage JC, Chiari A, Journal of computer assisted tomography . 1999,第1期

机译：PET对脊髓胆碱能系统的体内成像。
2. Estrogen receptor-alpha and -beta immunoreactive neurons in the brainstem and spinal cord of male and female mice: Relationships to monoaminergic, cholinergic, and spinal projection systems. [J] . Vanderhorst VG, Ulfhake B The Journal of Comparative Neurology . 2005,第2期

机译：雄性和雌性小鼠脑干和脊髓中的雌激素受体α和β免疫反应性神经元：与单胺能，胆碱能和脊髓投射系统的关系。
3. Modification of the Neurotrophin-3 Gene Promotes Cholinergic Neuronal Differentiation and Survival of Neural Stem Cells Derived from Rat Embryonic Spinal Cord In Vitro and In Vivo [J] . S Lin, Y Wang, C Zhang, Journal of International Medical Research . 2012,第4期

机译：Neurotrophin-3基因的修饰促进胆源性神经元分化和大鼠胚胎脊髓源性神经干细胞的存活。
4. In vivo imaging of blood-spinal cord barrier permeability with dynamic contrast enhanced MRI of spinal cord injury [C] . Bilgen, M., Dogan, . 2002

机译：动态对比增强对脊髓损伤的MRI显示的血脊髓屏障通透性的体内成像
5. Diffusion imaging of the in vivo spinal cord and cerebellum: Optimization, representation, and analysis of diffusion weighted MRI. [D] . Landman, Bennett Allan. 2009

机译：体内脊髓和小脑的扩散成像：扩散加权MRI的优化，表示和分析。
6. A Procedure for Implanting a Spinal Chamber for Longitudinal In Vivo Imaging of the Mouse Spinal Cord [O] . Matthew J. Farrar, Chris B. Schaffer 2014

机译：植入程序为小鼠脊髓纵向体内成像的脊髓腔。
7. Cholinergic and non-cholinergic transmission in the mammalian spinal cord [O] . Curtis, D. R., Phillis, J. W., Watkins, J. C. 1961

机译：哺乳动物脊髓中的胆碱能和非胆碱能传播
8. In Vivo PET Imaging of Myelin Damage and Repair in the Spinal Cord [R] . Miller, R H 2013

机译：髓鞘损伤和脊髓修复的体内pET成像

In vivo imaging of the spinal cord cholinergic system with PET.

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