用于神经生理学的低成本、模块化、可适配且开源的XYZ定位系统的设计与实现。

Design and implementation of a low cost, modular, adaptable and open-source XYZ positioning system for neurophysiology.

作者信息

Campbell Thomas, Jones James F X

机构信息

School of Medicine, University College Dublin, Ireland.

出版信息

HardwareX. 2020 Feb 7;7:e00098. doi: 10.1016/j.ohx.2020.e00098. eCollection 2020 Apr.

DOI:10.1016/j.ohx.2020.e00098

PMID:35495216

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9041220/

Abstract

In recent years, open-source 3D printing technologies have become increasingly applied to biological research. We have created a fully open-source, versatile and low cost XYZ positioning system using 3D printer components. As this system is controlled by a Python3 based operating system running on a Raspberry Pi 3 Model B, its behaviour can be adapted to meet multiple needs in neurophysiology. We have developed two main applications of this system. First, we have created an automated microscopy script that links seamlessly with image stitching plugins in ImageJ (Fiji) allowing the user to create high resolution montages. Second, we have created a series of movement scripts allowing the application of graded rates of stretch to muscle spindles. Here we outline the construction and implementation of this system and discuss how we have utilised this tool in our research.

摘要

近年来，开源3D打印技术在生物学研究中的应用越来越广泛。我们利用3D打印机组件创建了一个完全开源、通用且低成本的XYZ定位系统。由于该系统由运行在树莓派3 B型上的基于Python3的操作系统控制，其行为可以进行调整以满足神经生理学中的多种需求。我们开发了该系统的两个主要应用。第一，我们创建了一个自动化显微镜脚本，它能与ImageJ（Fiji）中的图像拼接插件无缝链接，允许用户创建高分辨率的拼接图像。第二，我们创建了一系列运动脚本，可对肌梭施加分级拉伸速率。在此，我们概述该系统的构建与实施，并讨论我们如何在研究中利用这一工具。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7157/9041220/711f8112865d/ga1.jpg

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用于神经生理学的低成本、模块化、可适配且开源的XYZ定位系统的设计与实现。

Design and implementation of a low cost, modular, adaptable and open-source XYZ positioning system for neurophysiology.

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