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一种用于微透析的旋转操作室。

A rotating operant chamber for use with microdialysis.

机构信息

Department of Chemical Engineering, Free University of Brussels, Brussels, Belgium.

Department of Chemistry, University of Pittsburgh, Pittsburgh, PA, USA.

出版信息

J Neurosci Methods. 2019 Oct 1;326:108387. doi: 10.1016/j.jneumeth.2019.108387. Epub 2019 Aug 1.

Abstract

BACKGROUND

Recently, the time resolution of microdialysis followed by a chemical separation for quantitative analysis has improved. The advent of faster microdialysis measurements promises to aid in behavioral research on awake animals. However, microdialysis with awake animals generally employs a fluidic commutator (swivel). The swivel's volume is inimical to the time resolution of the measurements.

NEW METHOD

Animals can be housed in rotating cages so that the swivel is not required, but rotating operant chambers are not available. Here we describe the design and construction of a rotating operant chamber with microdialysis capability. We modified a rotating cage by adding operant behavior testing components to the side of the bowl-shaped cage. A modular on-board controller facilitates operant component/computer communication. A battery provides power to the controller and the operant components. The battery and controller rotate with the cage, and the controller communicates with the computer wirelessly.

RESULTS

The rotating operant chamber can be used to train a rat to retrieve a sucrose pellet following a cue. Microdialysis and online liquid chromatography can be used to measure dopamine at one minute intervals while the rat moves freely and interacts with operant behavior testing components.

COMPARISON WITH EXISTING METHOD(S): We are not aware of one-minute dopamine measurements in awake animals in an operant chamber.

CONCLUSIONS

Rotating cage modifications are straightforward. One-minute observations of striatal dopamine can be accomplished while an animal is awake, moving, and interacting with its surroundings.

摘要

背景

最近,微透析技术的时间分辨率得到了提高,随后进行化学分离进行定量分析。更快的微透析测量技术的出现有望帮助研究人员开展清醒动物的行为研究。然而,清醒动物的微透析通常采用流体换向器(旋转接头)。旋转接头的体积不利于测量的时间分辨率。

新方法

可以将动物安置在旋转笼中,从而无需使用旋转接头,但旋转操作室不可用。在这里,我们描述了一种具有微透析功能的旋转操作室的设计和构建。我们通过在碗形笼的一侧添加操作行为测试组件来修改旋转笼。一个模块化的板载控制器促进了操作组件与计算机的通信。电池为控制器和操作组件提供电力。电池和控制器随笼旋转,控制器与计算机进行无线通信。

结果

旋转操作室可用于训练大鼠在提示后取回蔗糖丸。微透析和在线液相色谱法可用于在大鼠自由移动并与操作行为测试组件交互时每隔一分钟测量多巴胺。

与现有方法的比较

我们不知道在操作室内以一分钟的间隔测量清醒动物的多巴胺。

结论

旋转笼的修改很简单。当动物清醒、移动并与周围环境互动时,可以完成对纹状体多巴胺的一分钟观察。

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