开源 3D 打印无框架立体定向系统，适用于幼猪和成年猪。

Open-source 3D printable frameless stereotaxic system for young and adult pigs.

机构信息

Aniscan Department, Human Nutrition, INRAE, 16 Le clos, Saint-Gilles, 35590, France.

出版信息

J Neurosci Methods. 2021 Jul 15;359:109222. doi: 10.1016/j.jneumeth.2021.109222. Epub 2021 May 15.

DOI:10.1016/j.jneumeth.2021.109222

PMID:34004201

Abstract

BACKGROUND

Here we present an open-source solution, comprising several 3D-printable mechanical pieces and software tools, for frameless stereotaxic targeting in young and adult pigs of varying weights.

NEW METHOD

Localization was achieved using an IR camera and CT imaging. The positions of the tools were followed, after registration of the pig stereotaxic space, with a CT scan and open-source brain atlas. The system was used to target the lateral ventricle and the subthalamic nucleus (STN) in one piglet and two adult Yucatan miniature pigs, which were either normal weight or obese.

RESULTS AND CONCLUSIONS

Positive targeting was confirmed in the first trial for all subjects, either by radiopaque CT enhancement of the ventricle or actual recording of the STN electrophysiological signature. We conclude that open-source freely available models, easily built with low-end 3D printers, and their associated software can be effectively used for brain surgery in pigs, at a minimal cost, irrespective of the weight of the animal.

摘要

背景

在这里，我们提出了一个开源解决方案，包括几个 3D 可打印的机械部件和软件工具，用于对不同体重的幼年和成年猪进行无框架立体定向。

新方法

使用红外摄像机和 CT 成像实现定位。在对猪的立体定向空间进行注册后，使用 CT 扫描和开源大脑图谱对工具的位置进行跟踪。该系统用于在一只仔猪和两只成年的尤卡坦微型猪中靶向侧脑室和丘脑底核（STN），这些猪的体重正常或肥胖。

结果与结论

在所有受试者的第一次试验中，均通过脑室的射线可检测 CT 增强或实际记录 STN 电生理特征来确认阳性靶向。我们的结论是，无论动物的体重如何，使用低成本的低端 3D 打印机轻松构建的开源免费模型及其相关软件都可以有效地用于猪的脑部手术。

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开源 3D 打印无框架立体定向系统，适用于幼猪和成年猪。

Open-source 3D printable frameless stereotaxic system for young and adult pigs.

机构信息

出版信息

BACKGROUND

NEW METHOD

RESULTS AND CONCLUSIONS

背景

新方法

结果与结论

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